statistics dissertation ideas

Recent Dissertation Topics

Kerstin Emily Frailey - “PRACTICAL DATA QUALITY FOR MODERN DATA & MODERN USES, WITH APPLICATIONS TO AMERICA’S COVID-19 DATA"

Dissertation Advisor: Martin Wells

Initial job placement: Co-Founder & CEO

David Kent - “Smoothness-Penalized Deconvolution: Rates of Convergence, Choice of Tuning Parameter, and Inference"

Dissertation Advisor: David Ruppert

Initial job placement: VISITING ASSISTANT PROFESSOR - Cornell University

Yuchen Xu - “Dynamic Atomic Column Detection in Transmission Electron Microscopy Videos via Ridge Estimation”

Dissertation Advisor: David Matteson

Initial job placement: Postdoctoral Fellow - UCLA

Siyi Deng - “Optimal and Safe Semi-supervised Estimation and Inference for High-dimensional Linear Regression"

Dissertation Advisor: Yang Ning

Initial job placement: Data Scientist - TikTok

Peter (Haoxuan) Wu - “Advances in adaptive and deep Bayesian state-space models”

Initial job placement: Quantitative Researcher - DRW

Grace Deng - “Generative models and Bayesian spillover graphs for dynamic networks”

Initial job placement: Data Scientist - Research at Google

Samriddha Lahiry - “Some problems of asymptotic quantum statistical inference”

Dissertation Advisor: Michael Nussbaum

Initial job placement: Postdoctoral Fellow - Harvard University

Yaosheng Xu - “WWTA load-balancing for parallel-server systems with heterogeneous servers and multi-scale heavy traffic limits for generalized Jackson networks”

Dissertation Advisor: Jim Dai

Initial job placement: Applied Scientist - Amazon

Seth Strimas-Mackey - “Latent structure in linear prediction and corpora comparison”

Dissertation Advisor: Marten Wegkamp and Florentina Bunea

Initial job placement: Data Scientist at Google

Tao Zhang - “Topics in modern regression modeling”

Dissertation Advisor: David Ruppert and Kengo Kato

Initial job placement: Quantitative Researcher - Point72

Wentian Huang - “Nonparametric and semiparametric approaches to functional data modeling”

Initial job placement: Ernst & Young

Binh Tang - “Deep probabilistic models for sequential prediction”

Initial job placement: Amazon

Yi Su - “Off-policy evaluation and learning for interactive systems"

Dissertation Advisor: Thorsten Joachims

Initial job placement: Berkeley (postdoc)

Ruqi Zhang - “Scalable and reliable inference for probabilistic modeling”

Dissertation Advisor: Christopher De Sa

Jason Sun - “Recent developments on Matrix Completion"

Initial job placement: LinkedIn

Indrayudh Ghosal - “Model combinations and the Infinitesimal Jackknife : how to refine models with boosting and quantify uncertainty”

Dissertation Advisor: Giles Hooker

Benjamin Ryan Baer - “Contributions to fairness and transparency”

Initial job placement: Rochester (postdoc)

Megan Lynne Gelsinger - “Spatial and temporal approaches to analyzing big data”

Dissertation Advisor: David Matteson and Joe Guinness

Initial job placement: Institute for Defense Analysis

Zhengze Zhou - “Statistical inference for machine learning : feature importance, uncertainty quantification and interpretation stability”

Initial job placement: Facebook

Huijie Feng - “Estimation and inference of high-dimensional individualized threshold with binary responses”

Initial job placement: Microsoft

Xiaojie Mao - “Machine learning methods for data-driven decision making : contextual optimization, causal inference, and algorithmic fairness”

Dissertation Advisor: Nathan Kallus and Madeleine Udell

Initial job placement: Tsinghua University, China

Xin Bing - “Structured latent factor models : Identifiability, estimation, inference and prediction”

Initial job placement: Cambridge (postdoc), University of Toronto

Yang Liu - “Nonparametric regression and density estimation on a network"

Dissertation Advisor: David Ruppert and Peter Frazier

Initial job placement: Research Analyst - Cubist Systematic Strategies

Skyler Seto - “Learning from less : improving and understanding model selection in penalized machine learning problems”

Initial job placement: Machine Learning Researcher - Apple

Jiekun Feng - “Markov chain, Markov decision process, and deep reinforcement learning with applications to hospital management and real-time ride-hailing”

Initial job placement:

Wenyu Zhang - “Methods for change point detection in sequential data”

Initial job placement: Research Scientist - Institute for Infocomm Research

Liao Zhu - “The adaptive multi-factor model and the financial market"

Initial job placement: Quantitative Researcher - Two Sigma

Xiaoyun Quan - “Latent Gaussian copula model for high dimensional mixed data, and its applications”

Dissertation Advisor: James Booth and Martin Wells

Praphruetpong (Ben) Athiwaratkun - "Density representations for words and hierarchical data"

Dissertation Advisor: Andrew Wilson

Initial job placement: AI Scientist - AWS AI Labs

Yiming Sun - “High dimensional data analysis with dependency and under limited memory”

Dissertation Advisor: Sumanta Basu and Madeleine Udell

Zi Ye - “Functional single index model and jensen effect"

Dissertation Advisor: Giles Hooker 

Initial job placement: Data & Applied Scientist - Microsoft

Hui Fen (Sarah) Tan - “Interpretable approaches to opening up black-box models”

Dissertation Advisor: Giles Hooker and Martin Wells

Daniel E. Gilbert - “Luck, fairness and Bayesian tensor completion”

Yichen zhou - “asymptotics and interpretability of decision trees and decision tree ensemblesg”.

Initial job placement: Data Scientist - Google

Ze Jin - “Measuring statistical dependence and its applications in machine learning”  

Initial job placement: Research Scientist, Facebook Integrity Ranking & ML - Facebook

Xiaohan Yan - “Statistical learning for structural patterns with trees”

Dissertation Advisor: Jacob Bien

Initial job placement: Senior Data Scientist - Microsoft

Guo Yu - “High-dimensional structured regression using convex optimization”

Dan kowal - "bayesian methods for functional and time series data".

Dissertation Advisor: David Matteson and David Ruppert

Initial job placement: assistant professor, Department of Statistics, Rice University

Keegan Kang - "Data Dependent Random Projections"

David sinclair - "model selection results for high dimensional graphical models on binary and count data with applications to fmri and genomics", liu, yanning – "statistical issues in the design and analysis of clinical trials".

Dissertation Advisor: Bruce Turnbull

Nicholson, William Bertil – "Tools for Modeling Sparse Vector Autoregressions"

Tupper, laura lindley – "topics in classification and clustering of high-dimensional data", chetelat, didier – "high-dimensional inference by unbiased risk estimation".

Initial Job Placement: Assistant Professor Universite de Montreal, Montreal, Canada

Gaynanova, Irina – "Estimation Of Sparse Low-Dimensional Linear Projections"

Dissertation Advisor: James Booth

Initial Job Placement: Assistant Professor, Texas A&M, College Station, TX

Mentch, Lucas – "Ensemble Trees and CLTS: Statistical Inference in Machine Learning"

Initial Job Placement: Assistant Professor, University of Pittsburgh, Pittsburgh, PA

Risk, Ben – "Topics in Independent Component Analysis, Likelihood Component Analysis, and Spatiotemporal Mixed Modeling"

Dissertation Advisors: David Matteson and David Ruppert

Initial Job Placement: Postdoctoral Fellow, University of North Carolina, Chapel Hill, NC

Zhao, Yue – "Contributions to the Statistical Inference for the Semiparametric Elliptical Copula Model"

Disseration Advisor: Marten Wegkamp 

Initial Job Placement: Postoctoral Fellow, McGill University, Montreal, Canada

Chen, Maximillian Gene – "Dimension Reduction and Inferential Procedures for Images"

Dissertation Advisor: Martin Wells 

Earls, Cecelia – Bayesian hierarchical Gaussian process models for functional data analysis

Dissertation Advisor: Giles Hooker

Initial Job Placement: Lecturer, Cornell University, Ithaca, NY

Li, James Yi-Wei – "Tensor (Multidimensional Array) Decomposition, Regression, and Software for Statistics and Machine Learning"

Initial Job Placement: Research Scientist, Yahoo Labs

Schneider, Matthew John – "Three Papers on Time Series Forecasting and Data Privacy"

Dissertation Advisor: John Abowd

Initial Job Placement: Assistant Professor, Northwestern University, Evanston, IL

Thorbergsson, Leifur – "Experimental design for partially observed Markov decision processes"

Initial Job Placement: Data Scientist, Memorial Sloan Kettering Cancer Center, New York, NY

Wan, Muting – "Model-Based Classification with Applications to High-Dimensional Data in Bioinformatics"

Initial Job Placement: Senior Associate, 1010 Data, New York, NY

Johnson, Lynn Marie – "Topics in Linear Models: Methods for Clustered, Censored Data and Two-Stage Sampling Designs"

Dissertation Advisor: Robert Strawderman

Initial Job Placement: Statistical Consultant, Cornell, Statistical Consulting Unit, Ithaca, NY

Tecuapetla Gomez, Inder Rafael –  "Asymptotic Inference for Locally Stationary Processes"

Initial Job Placement: Postdoctoral Fellow, Georg-August-Universitat Gottigen, Gottigen, Germany. 

Bar, Haim – "Parallel Testing, and Variable Selection -- a Mixture-Model Approach with Applications in Biostatistics" 

Dissertation Advisor: James Booth

Initial Job Placement: Postdoc, Department of Medicine, Weill Medical Center, New York, NY

Cunningham, Caitlin –  "Markov Methods for Identifying ChIP-seq Peaks" 

Initial Job Placement: Assistant Professor, Le Moyne College, Syracuse, NY

Ji, Pengsheng – "Selected Topics in Nonparametric Testing and Variable Selection for High Dimensional Data" 

Dissertation Advisor: Michael Nussbaum 

Initial Job Placement: Assistant Professor, University of Georgia, Athens, GA

Morris, Darcy Steeg – "Methods for Multivariate Longitudinal Count and Duration Models with Applications in Economics" 

Dissertation Advisor: Francesca Molinari 

Initial Job Placement: Research Mathematical Statistician, Center for Statistical Research and Methodology, U.S. Census Bureau, Washington DC

Narayanan, Rajendran – "Shrinkage Estimation for Penalised Regression, Loss Estimation and Topics on Largest Eigenvalue Distributions" 

Initial Job Placement: Visiting Scientist, Indian Statistical Institute, Kolkata, India

Xiao, Luo – "Topics in Bivariate Spline Smoothing" 

Dissertation Advisor: David Ruppert 

Initial Job Placement: Postdoc, Johns Hopkins University, Baltimore, MD

Zeber, David – "Extremal Properties of Markov Chains and the Conditional Extreme Value Model" 

Dissertation Advisor: Sidney Resnick 

Initial Job Placement: Data Analyst, Mozilla, San Francisco, CA

Clement, David – "Estimating equation methods for longitudinal and survival data" 

Dissertation Advisor: Robert Strawderman 

Initial Job Placement: Quantitative Analyst, Smartodds, London UK

Eilertson, Kirsten – "Estimation and inference of random effect models with applications to population genetics and proteomics" 

Dissertation Advisor: Carlos Bustamante 

Initial Job Placement: Biostatistician, The J. David Gladstone Institutes, San Francisco CA

Grabchak, Michael – "Tempered stable distributions: properties and extensions" 

Dissertation Advisor: Gennady Samorodnitsky 

Initial Job Placement: Assistant Professor, UNC Charlotte, Charlotte NC

Li, Yingxing – "Aspects of penalized splines" 

Initial Job Placement: Assistant Professor, The Wang Yanan Institute for Studies in Economics, Xiamen University

Lopez Oliveros, Luis – "Modeling end-user behavior in data networks" 

Dissertation Advisor: Sidney Resnick  

Initial Job Placement: Consultant, Murex North America, New York NY

Ma, Xin – "Statistical Methods for Genome Variant Calling and Population Genetic Inference from Next-Generation Sequencing Data" 

Initial Job Placement: Postdoc, Stanford University, Stanford CA

Kormaksson, Matthias – "Dynamic path analysis and model based clustering of microarray data" 

Dissertation Advisor: James Booth 

Initial Job Placement: Postdoc, Department of Public Health, Weill Cornell Medical College, New York NY

Schifano, Elizabeth – "Topics in penalized estimation" 

Initial Job Placement: Postdoc, Department of Biostatistics, Harvard University, Boston MA

Hanlon, Bret – "High-dimensional data analysis" 

Dissertation Advisor: Anand Vidyashankar 

Shaby, Benjamin – "Tools for hard bayesian computations" 

Initial Job Placement: Postdoc, SAMSI, Durham NC

Zipunnikov, Vadim – "Topics on generalized linear mixed models" 

Initial Job Placement: Postdoc, Department of Biostatistics, Johns Hopkins University, Baltimore MD

Barger, Kathryn Jo-Anne – "Objective bayesian estimation for the number of classes in a population using Jeffreys and reference priors" 

Dissertation Advisor: John Bunge 

Initial Job Placement: Pfizer Incorporated

Chan, Serena Suewei – "Robust and efficient inference for linear mixed models using skew-normal distributions" 

Initial Job Placement: Statistician, Takeda Pharmaceuticles, Deerfield IL

Lin, Haizhi – "Distressed debt prices and recovery rate estimation" 

Dissertation Advisor: Martin Wells  

Initial Job Placement: Associate, Fixed Income Department, Credit Suisse Securities (USA), New York, NY

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Digital Commons @ USF > College of Arts and Sciences > Mathematics and Statistics > Theses and Dissertations

Mathematics and Statistics Theses and Dissertations

Theses/dissertations from 2023 2023.

Classification of Finite Topological Quandles and Shelves via Posets , Hitakshi Lahrani

Applied Analysis for Learning Architectures , Himanshu Singh

Rational Functions of Degree Five That Permute the Projective Line Over a Finite Field , Christopher Sze

Theses/Dissertations from 2022 2022

New Developments in Statistical Optimal Designs for Physical and Computer Experiments , Damola M. Akinlana

Advances and Applications of Optimal Polynomial Approximants , Raymond Centner

Data-Driven Analytical Predictive Modeling for Pancreatic Cancer, Financial & Social Systems , Aditya Chakraborty

On Simultaneous Similarity of d-tuples of Commuting Square Matrices , Corey Connelly

Symbolic Computation of Lump Solutions to a Combined (2+1)-dimensional Nonlinear Evolution Equation , Jingwei He

Boundary behavior of analytic functions and Approximation Theory , Spyros Pasias

Stability Analysis of Delay-Driven Coupled Cantilevers Using the Lambert W-Function , Daniel Siebel-Cortopassi

A Functional Optimization Approach to Stochastic Process Sampling , Ryan Matthew Thurman

Theses/Dissertations from 2021 2021

Riemann-Hilbert Problems for Nonlocal Reverse-Time Nonlinear Second-order and Fourth-order AKNS Systems of Multiple Components and Exact Soliton Solutions , Alle Adjiri

Zeros of Harmonic Polynomials and Related Applications , Azizah Alrajhi

Combination of Time Series Analysis and Sentiment Analysis for Stock Market Forecasting , Hsiao-Chuan Chou

Uncertainty Quantification in Deep and Statistical Learning with applications in Bio-Medical Image Analysis , K. Ruwani M. Fernando

Data-Driven Analytical Modeling of Multiple Myeloma Cancer, U.S. Crop Production and Monitoring Process , Lohuwa Mamudu

Long-time Asymptotics for mKdV Type Reduced Equations of the AKNS Hierarchy in Weighted L 2 Sobolev Spaces , Fudong Wang

Online and Adjusted Human Activities Recognition with Statistical Learning , Yanjia Zhang

Theses/Dissertations from 2020 2020

Bayesian Reliability Analysis of The Power Law Process and Statistical Modeling of Computer and Network Vulnerabilities with Cybersecurity Application , Freeh N. Alenezi

Discrete Models and Algorithms for Analyzing DNA Rearrangements , Jasper Braun

Bayesian Reliability Analysis for Optical Media Using Accelerated Degradation Test Data , Kun Bu

On the p(x)-Laplace equation in Carnot groups , Robert D. Freeman

Clustering methods for gene expression data of Oxytricha trifallax , Kyle Houfek

Gradient Boosting for Survival Analysis with Applications in Oncology , Nam Phuong Nguyen

Global and Stochastic Dynamics of Diffusive Hindmarsh-Rose Equations in Neurodynamics , Chi Phan

Restricted Isometric Projections for Differentiable Manifolds and Applications , Vasile Pop

On Some Problems on Polynomial Interpolation in Several Variables , Brian Jon Tuesink

Numerical Study of Gap Distributions in Determinantal Point Process on Low Dimensional Spheres: L -Ensemble of O ( n ) Model Type for n = 2 and n = 3 , Xiankui Yang

Non-Associative Algebraic Structures in Knot Theory , Emanuele Zappala

Theses/Dissertations from 2019 2019

Field Quantization for Radiative Decay of Plasmons in Finite and Infinite Geometries , Maryam Bagherian

Probabilistic Modeling of Democracy, Corruption, Hemophilia A and Prediabetes Data , A. K. M. Raquibul Bashar

Generalized Derivations of Ternary Lie Algebras and n-BiHom-Lie Algebras , Amine Ben Abdeljelil

Fractional Random Weighted Bootstrapping for Classification on Imbalanced Data with Ensemble Decision Tree Methods , Sean Charles Carter

Hierarchical Self-Assembly and Substitution Rules , Daniel Alejandro Cruz

Statistical Learning of Biomedical Non-Stationary Signals and Quality of Life Modeling , Mahdi Goudarzi

Probabilistic and Statistical Prediction Models for Alzheimer’s Disease and Statistical Analysis of Global Warming , Maryam Ibrahim Habadi

Essays on Time Series and Machine Learning Techniques for Risk Management , Michael Kotarinos

The Systems of Post and Post Algebras: A Demonstration of an Obvious Fact , Daviel Leyva

Reconstruction of Radar Images by Using Spherical Mean and Regular Radon Transforms , Ozan Pirbudak

Analyses of Unorthodox Overlapping Gene Segments in Oxytricha Trifallax , Shannon Stich

An Optimal Medium-Strength Regularity Algorithm for 3-uniform Hypergraphs , John Theado

Power Graphs of Quasigroups , DayVon L. Walker

Theses/Dissertations from 2018 2018

Groups Generated by Automata Arising from Transformations of the Boundaries of Rooted Trees , Elsayed Ahmed

Non-equilibrium Phase Transitions in Interacting Diffusions , Wael Al-Sawai

A Hybrid Dynamic Modeling of Time-to-event Processes and Applications , Emmanuel A. Appiah

Lump Solutions and Riemann-Hilbert Approach to Soliton Equations , Sumayah A. Batwa

Developing a Model to Predict Prevalence of Compulsive Behavior in Individuals with OCD , Lindsay D. Fields

Generalizations of Quandles and their cohomologies , Matthew J. Green

Hamiltonian structures and Riemann-Hilbert problems of integrable systems , Xiang Gu

Optimal Latin Hypercube Designs for Computer Experiments Based on Multiple Objectives , Ruizhe Hou

Human Activity Recognition Based on Transfer Learning , Jinyong Pang

Signal Detection of Adverse Drug Reaction using the Adverse Event Reporting System: Literature Review and Novel Methods , Minh H. Pham

Statistical Analysis and Modeling of Cyber Security and Health Sciences , Nawa Raj Pokhrel

Machine Learning Methods for Network Intrusion Detection and Intrusion Prevention Systems , Zheni Svetoslavova Stefanova

Orthogonal Polynomials With Respect to the Measure Supported Over the Whole Complex Plane , Meng Yang

Theses/Dissertations from 2017 2017

Modeling in Finance and Insurance With Levy-It'o Driven Dynamic Processes under Semi Markov-type Switching Regimes and Time Domains , Patrick Armand Assonken Tonfack

Prevalence of Typical Images in High School Geometry Textbooks , Megan N. Cannon

On Extending Hansel's Theorem to Hypergraphs , Gregory Sutton Churchill

Contributions to Quandle Theory: A Study of f-Quandles, Extensions, and Cohomology , Indu Rasika U. Churchill

Linear Extremal Problems in the Hardy Space H p for 0 p , Robert Christopher Connelly

Statistical Analysis and Modeling of Ovarian and Breast Cancer , Muditha V. Devamitta Perera

Statistical Analysis and Modeling of Stomach Cancer Data , Chao Gao

Structural Analysis of Poloidal and Toroidal Plasmons and Fields of Multilayer Nanorings , Kumar Vijay Garapati

Dynamics of Multicultural Social Networks , Kristina B. Hilton

Cybersecurity: Stochastic Analysis and Modelling of Vulnerabilities to Determine the Network Security and Attackers Behavior , Pubudu Kalpani Kaluarachchi

Generalized D-Kaup-Newell integrable systems and their integrable couplings and Darboux transformations , Morgan Ashley McAnally

Patterns in Words Related to DNA Rearrangements , Lukas Nabergall

Time Series Online Empirical Bayesian Kernel Density Segmentation: Applications in Real Time Activity Recognition Using Smartphone Accelerometer , Shuang Na

Schreier Graphs of Thompson's Group T , Allen Pennington

Cybersecurity: Probabilistic Behavior of Vulnerability and Life Cycle , Sasith Maduranga Rajasooriya

Bayesian Artificial Neural Networks in Health and Cybersecurity , Hansapani Sarasepa Rodrigo

Real-time Classification of Biomedical Signals, Parkinson’s Analytical Model , Abolfazl Saghafi

Lump, complexiton and algebro-geometric solutions to soliton equations , Yuan Zhou

Theses/Dissertations from 2016 2016

A Statistical Analysis of Hurricanes in the Atlantic Basin and Sinkholes in Florida , Joy Marie D'andrea

Statistical Analysis of a Risk Factor in Finance and Environmental Models for Belize , Sherlene Enriquez-Savery

Putnam's Inequality and Analytic Content in the Bergman Space , Matthew Fleeman

On the Number of Colors in Quandle Knot Colorings , Jeremy William Kerr

Statistical Modeling of Carbon Dioxide and Cluster Analysis of Time Dependent Information: Lag Target Time Series Clustering, Multi-Factor Time Series Clustering, and Multi-Level Time Series Clustering , Doo Young Kim

Some Results Concerning Permutation Polynomials over Finite Fields , Stephen Lappano

Hamiltonian Formulations and Symmetry Constraints of Soliton Hierarchies of (1+1)-Dimensional Nonlinear Evolution Equations , Solomon Manukure

Modeling and Survival Analysis of Breast Cancer: A Statistical, Artificial Neural Network, and Decision Tree Approach , Venkateswara Rao Mudunuru

Generalized Phase Retrieval: Isometries in Vector Spaces , Josiah Park

Leonard Systems and their Friends , Jonathan Spiewak

Resonant Solutions to (3+1)-dimensional Bilinear Differential Equations , Yue Sun

Statistical Analysis and Modeling Health Data: A Longitudinal Study , Bhikhari Prasad Tharu

Global Attractors and Random Attractors of Reaction-Diffusion Systems , Junyi Tu

Time Dependent Kernel Density Estimation: A New Parameter Estimation Algorithm, Applications in Time Series Classification and Clustering , Xing Wang

On Spectral Properties of Single Layer Potentials , Seyed Zoalroshd

Theses/Dissertations from 2015 2015

Analysis of Rheumatoid Arthritis Data using Logistic Regression and Penalized Approach , Wei Chen

Active Tile Self-assembly and Simulations of Computational Systems , Daria Karpenko

Nearest Neighbor Foreign Exchange Rate Forecasting with Mahalanobis Distance , Vindya Kumari Pathirana

Statistical Learning with Artificial Neural Network Applied to Health and Environmental Data , Taysseer Sharaf

Radial Versus Othogonal and Minimal Projections onto Hyperplanes in l_4^3 , Richard Alan Warner

Ensemble Learning Method on Machine Maintenance Data , Xiaochuang Zhao

Theses/Dissertations from 2014 2014

Properties of Graphs Used to Model DNA Recombination , Ryan Arredondo

Recursive Methods in Number Theory, Combinatorial Graph Theory, and Probability , Jonathan Burns

On the Classification of Groups Generated by Automata with 4 States over a 2-Letter Alphabet , Louis Caponi

Statistical Analysis, Modeling, and Algorithms for Pharmaceutical and Cancer Systems , Bong-Jin Choi

Topological Data Analysis of Properties of Four-Regular Rigid Vertex Graphs , Grant Mcneil Conine

Trend Analysis and Modeling of Health and Environmental Data: Joinpoint and Functional Approach , Ram C. Kafle

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Top 99+ Trending Statistics Research Topics for Students

Being a statistics student, finding the best statistics research topics is quite challenging. But not anymore; find the best statistics research topics now!!!

Statistics is one of the tough subjects because it consists of lots of formulas, equations and many more. Therefore the students need to spend their time to understand these concepts. And when it comes to finding the best statistics research project for their topics, statistics students are always looking for someone to help them. 

In this blog, we will share with you the most interesting and trending statistics research topics in 2023. It will not just help you to stand out in your class but also help you to explore more about the world.

If you face any problem regarding statistics, then don’t worry. You can get the best statistics assignment help from one of our experts.

As you know, it is always suggested that you should work on interesting topics. That is why we have mentioned the most interesting research topics for college students and high school students. Here in this blog post, we will share with you the list of 99+ awesome statistics research topics.

Why Do We Need to Have Good Statistics Research Topics?

Table of Contents

Having a good research topic will not just help you score good grades, but it will also allow you to finish your project quickly. Because whenever we work on something interesting, our productivity automatically boosts. Thus, you need not invest lots of time and effort, and you can achieve the best with minimal effort and time. 

What Are Some Interesting Research Topics?

If we talk about the interesting research topics in statistics, it can vary from student to student. But here are the key topics that are quite interesting for almost every student:-

• Literacy rate in a city.
• Abortion and pregnancy rate in the USA.
• Eating disorders in the citizens.
• Parent role in self-esteem and confidence of the student.
• Uses of AI in our daily life to business corporates.

Top 99+ Trending Statistics Research Topics For 2023

Here in this section, we will tell you more than 99 trending statistics research topics:

Sports Statistics Research Topics

• Statistical analysis for legs and head injuries in Football.
• Statistical analysis for shoulder and knee injuries in MotoGP.
• Deep statistical evaluation for the doping test in sports from the past decade.
• Statistical observation on the performance of athletes in the last Olympics.
• Role and effect of sports in the life of the student.

Psychology Research Topics for Statistics

• Deep statistical analysis of the effect of obesity on the student’s mental health in high school and college students.
• Statistical evolution to find out the suicide reason among students and adults.
• Statistics analysis to find out the effect of divorce on children in a country.
• Psychology affects women because of the gender gap in specific country areas.
• Statistics analysis to find out the cause of online bullying in students’ lives. 
• In Psychology, PTSD and descriptive tendencies are discussed.
• The function of researchers in statistical testing and probability.
• Acceptable significance and probability thresholds in clinical Psychology.
• The utilization of hypothesis and the role of P 0.05 for improved comprehension.
• What types of statistical data are typically rejected in psychology?
• The application of basic statistical principles and reasoning in psychological analysis.
• The role of correlation is when several psychological concepts are at risk.
• Actual case study learning and modeling are used to generate statistical reports.
• In psychology, naturalistic observation is used as a research sample.
• How should descriptive statistics be used to represent behavioral data sets?

Applied Statistics Research Topics

• Does education have a deep impact on the financial success of an individual?
• The investment in digital technology is having a meaningful return for corporations?
• The gap of financial wealth between rich and poor in the USA.
• A statistical approach to identify the effects of high-frequency trading in financial markets.
• Statistics analysis to determine the impact of the multi-agent model in financial markets. 

Personalized Medicine Statistics Research Topics

• Statistical analysis on the effect of methamphetamine on substance abusers.
• Deep research on the impact of the Corona vaccine on the Omnicrone variant. 
• Find out the best cancer treatment approach between orthodox therapies and alternative therapies.
• Statistics analysis to identify the role of genes in the child’s overall immunity.
• What factors help the patients to survive from Coronavirus .

Experimental Design Statistics Research Topics

• Generic vs private education is one of the best for the students and has better financial return.
• Psychology vs physiology: which leads the person not to quit their addictions?
• Effect of breastmilk vs packed milk on the infant child overall development
• Which causes more accidents: male alcoholics vs female alcoholics.
• What causes the student not to reveal the cyberbullying in front of their parents in most cases. 

Easy Statistics Research Topics

• Application of statistics in the world of data science
• Statistics for finance: how statistics is helping the company to grow their finance
• Advantages and disadvantages of Radar chart
• Minor marriages in south-east Asia and African countries.
• Discussion of ANOVA and correlation.
• What statistical methods are most effective for active sports?
• When measuring the correctness of college tests, a ranking statistical approach is used.
• Statistics play an important role in Data Mining operations.
• The practical application of heat estimation in engineering fields.
• In the field of speech recognition, statistical analysis is used.
• Estimating probiotics: how much time is necessary for an accurate statistical sample?
• How will the United States population grow in the next twenty years?
• The legislation and statistical reports deal with contentious issues.
• The application of empirical entropy approaches with online grammar checking.
• Transparency in statistical methodology and the reporting system of the United States Census Bureau.

Statistical Research Topics for High School

• Uses of statistics in chemometrics
• Statistics in business analytics and business intelligence
• Importance of statistics in physics.
• Deep discussion about multivariate statistics
• Uses of Statistics in machine learning

Survey Topics for Statistics

• Gather the data of the most qualified professionals in a specific area.
• Survey the time wasted by the students in watching Tvs or Netflix.
• Have a survey the fully vaccinated people in the USA 
• Gather information on the effect of a government survey on the life of citizens
• Survey to identify the English speakers in the world.

Statistics Research Paper Topics for Graduates

• Have a deep decision of Bayes theorems
• Discuss the Bayesian hierarchical models
• Analysis of the process of Japanese restaurants. 
• Deep analysis of Lévy’s continuity theorem
• Analysis of the principle of maximum entropy

AP Statistics Topics

• Discuss about the importance of econometrics
• Analyze the pros and cons of Probit Model
• Types of probability models and their uses
• Deep discussion of ortho stochastic matrix
• Find out the ways to get an adjacency matrix quickly

Good Statistics Research Topics 

• National income and the regulation of cryptocurrency.
• The benefits and drawbacks of regression analysis.
• How can estimate methods be used to correct statistical differences?
• Mathematical prediction models vs observation tactics.
• In sociology research, there is bias in quantitative data analysis.
• Inferential analytical approaches vs. descriptive statistics.
• How reliable are AI-based methods in statistical analysis?
• The internet news reporting and the fluctuations: statistics reports.
• The importance of estimate in modeled statistics and artificial sampling.

Business Statistics Topics

• Role of statistics in business in 2023
• Importance of business statistics and analytics
• What is the role of central tendency and dispersion in statistics
• Best process of sampling business data.
• Importance of statistics in big data.
• The characteristics of business data sampling: benefits and cons of software solutions.
• How may two different business tasks be tackled concurrently using linear regression analysis?
• In economic data relations, index numbers, random probability, and correctness are all important.
• The advantages of a dataset approach to statistics in programming statistics.
• Commercial statistics: how should the data be prepared for maximum accuracy?

Statistical Research Topics for College Students

• Evaluate the role of John Tukey’s contribution to statistics.
• The role of statistics to improve ADHD treatment.
• The uses and timeline of probability in statistics.
• Deep analysis of Gertrude Cox’s experimental design in statistics.
• Discuss about Florence Nightingale in statistics.
• What sorts of music do college students prefer?
• The Main Effect of Different Subjects on Student Performance.
• The Importance of Analytics in Statistics Research.
• The Influence of a Better Student in Class.
• Do extracurricular activities help in the transformation of personalities?
• Backbenchers’ Impact on Class Performance.
• Medication’s Importance in Class Performance.
• Are e-books better than traditional books?
• Choosing aspects of a subject in college

How To Write Good Statistics Research Topics?

So, the main question that arises here is how you can write good statistics research topics. The trick is understanding the methodology that is used to collect and interpret statistical data. However, if you are trying to pick any topic for your statistics project, you must think about it before going any further. 

As a result, it will teach you about the data types that will be researched because the sample will be chosen correctly. On the other hand, your basic outline for choosing the correct topics is as follows:

• Introduction of a problem
• Methodology explanation and choice. 
• Statistical research itself is in the main part (Body Part). 
• Samples deviations and variables. 
• Lastly, statistical interpretation is your last part (conclusion). 

Note:   Always include the sources from which you obtained the statistics data.

Top 3 Tips to Choose Good Statistics Research Topics

It can be quite easy for some students to pick a good statistics research topic without the help of an essay writer. But we know that it is not a common scenario for every student. That is why we will mention some of the best tips that will help you choose good statistics research topics for your next project. Either you are in a hurry or have enough time to explore. These tips will help you in every scenario.

1. Narrow down your research topic

We all start with many topics as we are not sure about our specific interests or niche. The initial step to picking up a good research topic for college or school students is to narrow down the research topic.

For this, you need to categorize the matter first. And then pick a specific category as per your interest. After that, brainstorm about the topic’s content and how you can make the points catchy, focused, directional, clear, and specific. 

2. Choose a topic that gives you curiosity

After categorizing the statistics research topics, it is time to pick one from the category. Don’t pick the most common topic because it will not help your grades and knowledge. Instead of it, please choose the best one, in which you have little information, or you are more likely to explore it.

In a statistics research paper, you always can explore something beyond your studies. By doing this, you will be more energetic to work on this project. And you will also feel glad to get them lots of information you were willing to have but didn’t get because of any reasons.

It will also make your professor happy to see your work. Ultimately it will affect your grades with a positive attitude.

3. Choose a manageable topic

Now you have decided on the topic, but you need to make sure that your research topic should be manageable. You will have limited time and resources to complete your project if you pick one of the deep statistics research topics with massive information.

Then you will struggle at the last moment and most probably not going to finish your project on time. Therefore, spend enough time exploring the topic and have a good idea about the time duration and resources you will use for the project. 

Statistics research topics are massive in numbers. Because statistics operations can be performed on anything from our psychology to our fitness. Therefore there are lots more statistics research topics to explore. But if you are not finding it challenging, then you can take the help of our statistics experts . They will help you to pick the most interesting and trending statistics research topics for your projects. 

With this help, you can also save your precious time to invest it in something else. You can also come up with a plethora of topics of your choice and we will help you to pick the best one among them. Apart from that, if you are working on a project and you are not sure whether that is the topic that excites you to work on it or not. Then we can also help you to clear all your doubts on the statistics research topic. 

Frequently Asked Questions

Q1. what are some good topics for the statistics project.

Have a look at some good topics for statistics projects:- 1. Research the average height and physics of basketball players. 2. Birth and death rate in a specific city or country. 3. Study on the obesity rate of children and adults in the USA. 4. The growth rate of China in the past few years 5. Major causes of injury in Football

Q2. What are the topics in statistics?

Statistics has lots of topics. It is hard to cover all of them in a short answer. But here are the major ones: conditional probability, variance, random variable, probability distributions, common discrete, and many more. 

Q3. What are the top 10 research topics?

Here are the top 10 research topics that you can try in 2023:

1. Plant Science 2. Mental health 3. Nutritional Immunology 4. Mood disorders 5. Aging brains 6. Infectious disease 7. Music therapy 8. Political misinformation 9. Canine Connection 10. Sustainable agriculture

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Research Topics & Ideas: Data Science

50 Topic Ideas To Kickstart Your Research Project

If you’re just starting out exploring data science-related topics for your dissertation, thesis or research project, you’ve come to the right place. In this post, we’ll help kickstart your research by providing a hearty list of data science and analytics-related research ideas , including examples from recent studies.

PS – This is just the start…

We know it’s exciting to run through a list of research topics, but please keep in mind that this list is just a starting point . These topic ideas provided here are intentionally broad and generic , so keep in mind that you will need to develop them further. Nevertheless, they should inspire some ideas for your project.

To develop a suitable research topic, you’ll need to identify a clear and convincing research gap , and a viable plan to fill that gap. If this sounds foreign to you, check out our free research topic webinar that explores how to find and refine a high-quality research topic, from scratch. Alternatively, consider our 1-on-1 coaching service .

Data Science-Related Research Topics

• Developing machine learning models for real-time fraud detection in online transactions.
• The use of big data analytics in predicting and managing urban traffic flow.
• Investigating the effectiveness of data mining techniques in identifying early signs of mental health issues from social media usage.
• The application of predictive analytics in personalizing cancer treatment plans.
• Analyzing consumer behavior through big data to enhance retail marketing strategies.
• The role of data science in optimizing renewable energy generation from wind farms.
• Developing natural language processing algorithms for real-time news aggregation and summarization.
• The application of big data in monitoring and predicting epidemic outbreaks.
• Investigating the use of machine learning in automating credit scoring for microfinance.
• The role of data analytics in improving patient care in telemedicine.
• Developing AI-driven models for predictive maintenance in the manufacturing industry.
• The use of big data analytics in enhancing cybersecurity threat intelligence.
• Investigating the impact of sentiment analysis on brand reputation management.
• The application of data science in optimizing logistics and supply chain operations.
• Developing deep learning techniques for image recognition in medical diagnostics.
• The role of big data in analyzing climate change impacts on agricultural productivity.
• Investigating the use of data analytics in optimizing energy consumption in smart buildings.
• The application of machine learning in detecting plagiarism in academic works.
• Analyzing social media data for trends in political opinion and electoral predictions.
• The role of big data in enhancing sports performance analytics.
• Developing data-driven strategies for effective water resource management.
• The use of big data in improving customer experience in the banking sector.
• Investigating the application of data science in fraud detection in insurance claims.
• The role of predictive analytics in financial market risk assessment.
• Developing AI models for early detection of network vulnerabilities.

Data Science Research Ideas (Continued)

• The application of big data in public transportation systems for route optimization.
• Investigating the impact of big data analytics on e-commerce recommendation systems.
• The use of data mining techniques in understanding consumer preferences in the entertainment industry.
• Developing predictive models for real estate pricing and market trends.
• The role of big data in tracking and managing environmental pollution.
• Investigating the use of data analytics in improving airline operational efficiency.
• The application of machine learning in optimizing pharmaceutical drug discovery.
• Analyzing online customer reviews to inform product development in the tech industry.
• The role of data science in crime prediction and prevention strategies.
• Developing models for analyzing financial time series data for investment strategies.
• The use of big data in assessing the impact of educational policies on student performance.
• Investigating the effectiveness of data visualization techniques in business reporting.
• The application of data analytics in human resource management and talent acquisition.
• Developing algorithms for anomaly detection in network traffic data.
• The role of machine learning in enhancing personalized online learning experiences.
• Investigating the use of big data in urban planning and smart city development.
• The application of predictive analytics in weather forecasting and disaster management.
• Analyzing consumer data to drive innovations in the automotive industry.
• The role of data science in optimizing content delivery networks for streaming services.
• Developing machine learning models for automated text classification in legal documents.
• The use of big data in tracking global supply chain disruptions.
• Investigating the application of data analytics in personalized nutrition and fitness.
• The role of big data in enhancing the accuracy of geological surveying for natural resource exploration.
• Developing predictive models for customer churn in the telecommunications industry.
• The application of data science in optimizing advertisement placement and reach.

Recent Data Science-Related Studies

While the ideas we’ve presented above are a decent starting point for finding a research topic, they are fairly generic and non-specific. So, it helps to look at actual studies in the data science and analytics space to see how this all comes together in practice.

Below, we’ve included a selection of recent studies to help refine your thinking. These are actual studies,  so they can provide some useful insight as to what a research topic looks like in practice.

• Data Science in Healthcare: COVID-19 and Beyond (Hulsen, 2022)
• Auto-ML Web-application for Automated Machine Learning Algorithm Training and evaluation (Mukherjee & Rao, 2022)
• Survey on Statistics and ML in Data Science and Effect in Businesses (Reddy et al., 2022)
• Visualization in Data Science VDS @ KDD 2022 (Plant et al., 2022)
• An Essay on How Data Science Can Strengthen Business (Santos, 2023)
• A Deep study of Data science related problems, application and machine learning algorithms utilized in Data science (Ranjani et al., 2022)
• You Teach WHAT in Your Data Science Course?!? (Posner & Kerby-Helm, 2022)
• Statistical Analysis for the Traffic Police Activity: Nashville, Tennessee, USA (Tufail & Gul, 2022)
• Data Management and Visual Information Processing in Financial Organization using Machine Learning (Balamurugan et al., 2022)
• A Proposal of an Interactive Web Application Tool QuickViz: To Automate Exploratory Data Analysis (Pitroda, 2022)
• Applications of Data Science in Respective Engineering Domains (Rasool & Chaudhary, 2022)
• Jupyter Notebooks for Introducing Data Science to Novice Users (Fruchart et al., 2022)
• Towards a Systematic Review of Data Science Programs: Themes, Courses, and Ethics (Nellore & Zimmer, 2022)
• Application of data science and bioinformatics in healthcare technologies (Veeranki & Varshney, 2022)
• TAPS Responsibility Matrix: A tool for responsible data science by design (Urovi et al., 2023)
• Data Detectives: A Data Science Program for Middle Grade Learners (Thompson & Irgens, 2022)
• MACHINE LEARNING FOR NON-MAJORS: A WHITE BOX APPROACH (Mike & Hazzan, 2022)
• COMPONENTS OF DATA SCIENCE AND ITS APPLICATIONS (Paul et al., 2022)
• Analysis on the Application of Data Science in Business Analytics (Wang, 2022)

As you can see, these research topics are a lot more focused than the generic topic ideas we presented earlier. So, for you to develop a high-quality research topic, you’ll need to get specific and laser-focused on a specific context with specific variables of interest.  In the video below, we explore some other important things you’ll need to consider when crafting your research topic.

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If you’re still unsure about how to find a quality research topic, check out our Research Topic Kickstarter service, which is the perfect starting point for developing a unique, well-justified research topic.

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Qualitative & Quantitative data analysis

Best Statistics Research Topics & Ideas For 2021-22

Date published October 7 2021 by Jacob Miller

Statistics is a demanding subject that deals with the collection, analysis, interpretation, evaluation, and management of numeric data. The topic selection of the statistics dissertation can involve the subfields of statistics, i.e. Probability Theory, Mathematical Statistics, Design of Experiments, Sampling, Classification, and Time Series.

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Complications in statistics researches:

This subject is much complicated, further, the implication of the proportions in large quantities under complex theories contribute to the difficulties concerning the subject. That’s why it is hard to find considerable statistics dissertation topics. Moreover, the multiple dimensions of the subject make it more problematic to come up with a focused and comprehensive topic.

Why Choosing a Statistics Dissertation Topic is Hard for Students?

While selecting a topic for a statistics dissertation, you must consider the fundamental idea of statistics, i.e. variation and uncertainty. Certain statistical frameworks and methods are applied to get the results.

The topic of the statistics dissertation should be so close to the subject that you will be able the statistical method in the dissertation and presentation of findings.

There are several reasons which together make it a difficult task for the students to select a worthwhile topic for their statistics dissertation.

Shortage of Ideas

Students usually lack in generating potential ideas concerning different areas and aspects of the subject. That’s why they face difficulty in listing out the suitable statistics topics for the dissertation.

Wider Scope

Statistics has a wide scope. It holds a relation with scientific, industrial, and social problems. So, a dissertation topic for this subject can never stand out alone. Due to this reason, students find it difficult to determine their direction and fail to select a potential topic.

Irrelevant or diversified knowledge

Somehow, if students manage to come up with some understandable topics for their dissertation, the uncertainty of the context or the background leads them towards the confusion. They are unable to find a purpose and the background on which they can base their research.

While this all seems a pretty tough task, so then you may take inspiration from our free dissertation topics, and even better you can get the professional on those each topic.

How Do We Help You Select a Statistics Dissertation Topic?

We have skilled and professional subject experts, who bring the best ideas for your statistics dissertation selection. They are well aware of how to meet your subject requirements and professors’ expectations. Through their expertise, they help you select the most significant topics for your dissertation.

By selecting one of the strong statistics research topics we propose, you may contribute to the subject through your intellectual capabilities and unique ideas. While preparing a list of topic suggestions for you, we focus on the following points.

• Your level of Education
• Subject Domain
• Area of Interest
• Prerequisite Guidelines by the University (if any)

What do our experts say about the Statistics Topic Selection?

Our statistics dissertation experts are well-equipped with dense knowledge in the subject. They know which topic is worthy to be chosen for your dissertation. According to our experts, your topic must involve data collection, data analysis, and data synthesis.

You also must have to go through with several previous dissertations and research papers regarding the subject so that you can come up with a topic having fine scope, context, relevancy, and accuracy. Further, it should be concise and manageable so that you can complete a dissertation on it within the deadline.

You can avoid all these complexities by hiring our statistics dissertation topic selection services. Our experts have produced hundreds of successful works for the satisfaction of the customers. With vast experience in the world of academics and command of statistics dissertations, they have prepared the list of most suitable statistics dissertation topics.

Bayesian Methods for Functional and Time Series

Kernel regression using the four fourier transform, assessing and accounting for correlation in rna-seq data analysis., a guide to doing statistics in second language research using spss, prediction interval methods for reliability data, relevance of tests of significances uses and limitations., interaction forward selection in ultra-high-dimension functional linear models..

To know the details of the above-mentioned topics and have an idea about their aims and objectives, you can consult with our team. You are welcomed 24/7 to get our consultancy. Further, you can have more potential topics for your statistics dissertation topics by hiring our services.

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List of Best Statistics Research Topics with Objectives

Objectives:

• To explore all new bayesian methods which are used in statistical analysis.
• To introduce new methodology of bayesian which are suitable  for functional and time series data.
• To exhibit the functional challenges provided by the methodology. 

To explore the methods of kernel  regression

To demonstrate  the method  of speeding up the computation of kernel.

To analyse the FFT to improve the computation of kernel.

Difficulties in Learning Basic Concepts in Probability and Statistics: Implications of Research.

To explore the importance of statistics and probability.

To examine the different methods of statistics and probability used in education system. 

To provide the need for collaborative and cross-disciplinary in researches. 

To explore the concepts behind the usage of statistics in different domains.

To examine the concept of statistics in Second Language.

To study and implement the SPSS software in statistics.

To study the importance of Prediction in statistics.

To analyse the statistical Prediction methods in statistics theory.

To examine the different methods of Prediction interval under the parametric framework. 

To study the importance of statistical tools and significance test both in parametric and nonparametric test.

To examine the statistical tools significance in decision making.

To evaluate the statistical significance test in information retrieval.

To study the statistical methods for the variable selection in ultra-high dimensional functional linear models.

To propose two forward selection procedures on the basis of coefficients approximation.

To demonstrate the application of the proposed methodologies.

Bayes Methods for Biclustering and Vector Data with Binary Coordinates.

To explore the different method of Bayes and its applications.

To examine the Bayes method for the purpose of biclustering and inference for mixture models.

To represent the performance of model through the simulation and applications to real datasets.

To study the concept behind the RNA- sequence data analysis and its procedure.

To examine the papers on the analysis of RNA- sequence data analysis.

To perform a simulation and validate the proposed methods on the basis of results.

An Exploration of Techniques Used in Data Analytics to Produce Analysed Data in Graphical Format.

To explore the techniques used in data analytics used for various purposes in order to produce visual charts.

To demonstrate the use of python language as a main feature in Data analytics.

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Home » 500+ Statistics Research Topics

500+ Statistics Research Topics

Statistics is a branch of mathematics that deals with the collection, analysis, interpretation, presentation, and organization of data . It is a fundamental tool used in various fields such as business, social sciences, engineering, healthcare, and many more. As a research topic , statistics can be a fascinating subject to explore, as it allows researchers to investigate patterns, trends, and relationships within data. With the help of statistical methods, researchers can make informed decisions and draw valid conclusions based on empirical evidence. In this post, we will explore some interesting statistics research topics that can be pursued by researchers to further expand our understanding of this field.

Statistics Research Topics

Statistics Research Topics are as follows:

• Analysis of the effectiveness of different marketing strategies on consumer behavior.
• An investigation into the relationship between economic growth and environmental sustainability.
• A study of the effects of social media on mental health and well-being.
• A comparative analysis of the educational outcomes of public and private schools.
• The impact of climate change on agriculture and food security.
• A survey of the prevalence and causes of workplace stress in different industries.
• A statistical analysis of crime rates in urban and rural areas.
• An evaluation of the effectiveness of alternative medicine treatments.
• A study of the relationship between income inequality and health outcomes.
• A comparative analysis of the effectiveness of different weight loss programs.
• An investigation into the factors that affect job satisfaction among employees.
• A statistical analysis of the relationship between poverty and crime.
• A study of the factors that influence the success of small businesses.
• A survey of the prevalence and causes of childhood obesity.
• An evaluation of the effectiveness of drug addiction treatment programs.
• A statistical analysis of the relationship between gender and leadership in organizations.
• A study of the relationship between parental involvement and academic achievement.
• An investigation into the causes and consequences of income inequality.
• A comparative analysis of the effectiveness of different types of therapy for mental health conditions.
• A survey of the prevalence and causes of substance abuse among teenagers.
• An evaluation of the effectiveness of online education compared to traditional classroom learning.
• A statistical analysis of the impact of globalization on different industries.
• A study of the relationship between social media use and political polarization.
• An investigation into the factors that influence customer loyalty in the retail industry.
• A comparative analysis of the effectiveness of different types of advertising.
• A survey of the prevalence and causes of workplace discrimination.
• An evaluation of the effectiveness of different types of employee training programs.
• A statistical analysis of the relationship between air pollution and health outcomes.
• A study of the factors that affect employee turnover rates.
• An investigation into the causes and consequences of income mobility.
• A comparative analysis of the effectiveness of different types of leadership styles.
• A survey of the prevalence and causes of mental health disorders among college students.
• An evaluation of the effectiveness of different types of cancer treatments.
• A statistical analysis of the impact of social media influencers on consumer behavior.
• A study of the factors that influence the adoption of renewable energy sources.
• An investigation into the relationship between alcohol consumption and health outcomes.
• A comparative analysis of the effectiveness of different types of conflict resolution strategies.
• A survey of the prevalence and causes of childhood poverty.
• An evaluation of the effectiveness of different types of diversity training programs.
• A statistical analysis of the relationship between immigration and economic growth.
• A study of the factors that influence customer satisfaction in the service industry.
• An investigation into the causes and consequences of urbanization.
• A comparative analysis of the effectiveness of different types of economic policies.
• A survey of the prevalence and causes of elder abuse.
• An evaluation of the effectiveness of different types of rehabilitation programs for prisoners.
• A statistical analysis of the impact of automation on different industries.
• A study of the factors that influence employee productivity in the workplace.
• An investigation into the causes and consequences of gentrification.
• A comparative analysis of the effectiveness of different types of humanitarian aid.
• A survey of the prevalence and causes of homelessness.
• Exploring the relationship between socioeconomic status and access to healthcare services
• An analysis of the relationship between parental education level and children’s academic performance.
• Exploring the effects of different statistical models on prediction accuracy in machine learning.
• The Impact of Social Media on Consumer Behavior: A Statistical Analysis
• Bayesian hierarchical modeling for network data analysis
• Spatial statistics and modeling for environmental data
• Nonparametric methods for time series analysis
• Bayesian inference for high-dimensional data analysis
• Multivariate analysis for genetic data
• Machine learning methods for predicting financial markets
• Causal inference in observational studies
• Sampling design and estimation for complex surveys
• Robust statistical methods for outlier detection
• Statistical inference for large-scale simulations
• Survival analysis and its applications in medical research
• Mixture models for clustering and classification
• Time-varying coefficient models for longitudinal data
• Multilevel modeling for complex data structures
• Graphical modeling and Bayesian networks
• Experimental design for clinical trials
• Inference for network data using stochastic block models
• Nonlinear regression modeling for data with complex structures
• Statistical learning for social network analysis
• Time series forecasting using deep learning methods
• Model selection and variable importance in high-dimensional data
• Spatial point process modeling for environmental data
• Bayesian spatial modeling for disease mapping
• Functional data analysis for longitudinal studies
• Bayesian network meta-analysis
• Statistical methods for big data analysis
• Mixed-effects models for longitudinal data
• Clustering algorithms for text data
• Bayesian modeling for spatiotemporal data
• Multivariate analysis for ecological data
• Statistical analysis of genomic data
• Bayesian network inference for gene regulatory networks
• Principal component analysis for high-dimensional data
• Time series analysis of financial data
• Multivariate survival analysis for complex outcomes
• Nonparametric estimation of causal effects
• Bayesian network analysis of complex systems
• Statistical inference for multilevel network data
• Generalized linear mixed models for non-normal data
• Bayesian inference for dynamic systems
• Latent variable modeling for categorical data
• Statistical inference for social network data
• Regression models for panel data
• Bayesian spatiotemporal modeling for climate data
• Predictive modeling for customer behavior analysis
• Nonlinear time series analysis for ecological systems
• Statistical modeling for image analysis
• Bayesian hierarchical modeling for longitudinal data
• Network-based clustering for high-dimensional data
• Bayesian spatial modeling for ecological systems.
• Analysis of the Effect of Climate Change on Crop Yields: A Case Study
• Examining the Relationship Between Physical Activity and Mental Health in Young Adults
• A Comparative Study of Crime Rates in Urban and Rural Areas Using Statistical Methods
• Investigating the Effect of Online Learning on Student Performance in Mathematics
• A Statistical Analysis of the Relationship Between Economic Growth and Environmental Sustainability
• Evaluating the Effectiveness of Different Marketing Strategies for E-commerce Businesses
• Identifying the Key Factors Affecting Customer Loyalty in the Hospitality Industry
• An Analysis of the Factors Influencing Student Dropout Rates in Higher Education
• Examining the Impact of Gender on Salary Disparities in the Workplace Using Statistical Methods
• Investigating the Relationship Between Physical Fitness and Academic Performance in High School Students
• Analyzing the Effect of Social Support on Mental Health in Elderly Populations
• A Comparative Study of Different Methods for Forecasting Stock Prices
• Investigating the Effect of Online Reviews on Consumer Purchasing Decisions
• Identifying the Key Factors Affecting Employee Turnover Rates in the Technology Industry
• Analyzing the Effect of Advertising on Brand Awareness and Purchase Intentions
• A Study of the Relationship Between Health Insurance Coverage and Healthcare Utilization
• Examining the Effect of Parental Involvement on Student Achievement in Elementary School
• Investigating the Impact of Social Media on Political Campaigns Using Statistical Methods
• A Comparative Analysis of Different Methods for Detecting Fraud in Financial Transactions
• Analyzing the Relationship Between Entrepreneurial Characteristics and Business Success
• Investigating the Effect of Job Satisfaction on Employee Performance in the Service Industry
• Identifying the Key Factors Affecting the Adoption of Renewable Energy Technologies
• A Study of the Relationship Between Personality Traits and Academic Achievement
• Examining the Impact of Social Media on Body Image and Self-Esteem in Adolescents
• Investigating the Effect of Mobile Advertising on Consumer Behavior
• Analyzing the Relationship Between Healthcare Expenditures and Health Outcomes Using Statistical Methods
• A Comparative Study of Different Methods for Analyzing Customer Satisfaction Data
• Investigating the Impact of Economic Factors on Voter Behavior Using Statistical Methods
• Identifying the Key Factors Affecting Student Retention Rates in Community Colleges
• Analyzing the Relationship Between Workplace Diversity and Organizational Performance
• Investigating the Effect of Gamification on Learning and Motivation in Education
• A Study of the Relationship Between Social Support and Depression in Cancer Patients
• Examining the Impact of Technology on the Travel Industry Using Statistical Methods
• Investigating the Effect of Customer Service Quality on Customer Loyalty in the Retail Industry
• Analyzing the Relationship Between Internet Usage and Social Isolation in Older Adults
• A Comparative Study of Different Methods for Predicting Customer Churn in Telecommunications
• Investigating the Impact of Social Media on Consumer Attitudes Towards Brands Using Statistical Methods
• Identifying the Key Factors Affecting Student Success in Online Learning Environments
• Analyzing the Relationship Between Employee Engagement and Organizational Commitment
• Investigating the Effect of Customer Reviews on Sales in E-commerce Businesses
• A Study of the Relationship Between Political Ideology and Attitudes Towards Climate Change
• Examining the Impact of Technological Innovations on the Manufacturing Industry Using Statistical Methods
• Investigating the Effect of Social Support on Postpartum Depression in New Mothers
• Analyzing the Relationship Between Cultural Intelligence and Cross-Cultural Adaptation
• Investigating the relationship between socioeconomic status and health outcomes using statistical methods.
• Analyzing trends in crime rates and identifying factors that contribute to them using statistical methods.
• Examining the effectiveness of different advertising strategies using statistical analysis of consumer behavior.
• Identifying factors that influence voting behavior and election outcomes using statistical methods.
• Investigating the relationship between employee satisfaction and productivity in the workplace using statistical methods.
• Developing new statistical models to better understand the spread of infectious diseases.
• Analyzing the impact of climate change on global food production using statistical methods.
• Identifying patterns and trends in social media data using statistical methods.
• Investigating the relationship between social networks and mental health using statistical methods.
• Developing new statistical models to predict financial market trends and identify investment opportunities.
• Analyzing the effectiveness of different educational programs and interventions using statistical methods.
• Investigating the impact of environmental factors on public health using statistical methods.
• Developing new statistical models to analyze complex biological systems and identify new drug targets.
• Analyzing trends in consumer spending and identifying factors that influence buying behavior using statistical methods.
• Investigating the relationship between diet and health outcomes using statistical methods.
• Developing new statistical models to analyze gene expression data and identify biomarkers for disease.
• Analyzing patterns in crime data to predict future crime rates and improve law enforcement strategies.
• Investigating the effectiveness of different medical treatments using statistical methods.
• Developing new statistical models to analyze the impact of air pollution on public health.
• Analyzing trends in global migration and identifying factors that influence migration patterns using statistical methods.
• Investigating the impact of automation on the job market using statistical methods.
• Developing new statistical models to analyze climate data and predict future climate trends.
• Analyzing trends in online shopping behavior and identifying factors that influence consumer decisions using statistical methods.
• Investigating the impact of social media on political discourse using statistical methods.
• Developing new statistical models to analyze gene-environment interactions and identify new disease risk factors.
• Analyzing trends in the stock market and identifying factors that influence investment decisions using statistical methods.
• Investigating the impact of early childhood education on long-term academic and social outcomes using statistical methods.
• Developing new statistical models to analyze the relationship between human behavior and the environment.
• Analyzing trends in the use of renewable energy and identifying factors that influence adoption rates using statistical methods.
• Investigating the impact of immigration on labor market outcomes using statistical methods.
• Developing new statistical models to analyze the relationship between social determinants and health outcomes.
• Analyzing patterns in customer churn to predict future customer behavior and improve business strategies.
• Investigating the effectiveness of different marketing strategies using statistical methods.
• Developing new statistical models to analyze the relationship between air pollution and climate change.
• Analyzing trends in global tourism and identifying factors that influence travel behavior using statistical methods.
• Investigating the impact of social media on mental health using statistical methods.
• Developing new statistical models to analyze the impact of transportation on the environment.
• Analyzing trends in global trade and identifying factors that influence trade patterns using statistical methods.
• Investigating the impact of social networks on political participation using statistical methods.
• Developing new statistical models to analyze the relationship between climate change and biodiversity loss.
• Analyzing trends in the use of alternative medicine and identifying factors that influence adoption rates using statistical methods.
• Investigating the impact of technological change on the labor market using statistical methods.
• Developing new statistical models to analyze the impact of climate change on agriculture.
• Investigating the impact of social media on mental health: A longitudinal study.
• A comparison of the effectiveness of different types of teaching methods on student learning outcomes.
• Examining the relationship between sleep duration and productivity among college students.
• A study of the factors that influence employee job satisfaction in the tech industry.
• Analyzing the relationship between income level and health outcomes among low-income populations.
• Investigating the effectiveness of online learning platforms for high school students.
• A study of the factors that contribute to success in online entrepreneurship.
• Analyzing the impact of climate change on agricultural productivity in developing countries.
• A comparison of different statistical models for predicting stock market trends.
• Examining the impact of sports on mental health: A cross-sectional study.
• A study of the factors that influence employee retention in the hospitality industry.
• Analyzing the impact of cultural differences on international business negotiations.
• Investigating the effectiveness of different weight loss interventions for obese individuals.
• A study of the relationship between personality traits and academic achievement.
• Examining the impact of technology on job displacement: A longitudinal study.
• A comparison of the effectiveness of different types of advertising strategies on consumer behavior.
• Analyzing the impact of environmental regulations on corporate profitability.
• Investigating the effectiveness of different types of therapy for treating depression.
• A study of the factors that contribute to success in e-commerce.
• Examining the relationship between social support and mental health in the elderly population.
• A comparison of different statistical methods for analyzing complex survey data.
• Analyzing the impact of employee diversity on organizational performance.
• Investigating the effectiveness of different types of exercise for improving cardiovascular health.
• A study of the relationship between emotional intelligence and job performance.
• Examining the impact of work-life balance on employee well-being.
• A comparison of the effectiveness of different types of financial education programs for low-income populations.
• Analyzing the impact of air pollution on respiratory health in urban areas.
• Investigating the relationship between personality traits and leadership effectiveness.
• A study of the factors that influence consumer behavior in the luxury goods market.
• Examining the impact of social networks on political participation: A cross-sectional study.
• A comparison of different statistical methods for analyzing survival data.
• Analyzing the impact of government policies on income inequality.
• Investigating the effectiveness of different types of counseling for substance abuse.
• A study of the relationship between cultural values and consumer behavior.
• Examining the impact of technology on privacy: A longitudinal study.
• A comparison of the effectiveness of different types of online marketing strategies.
• Analyzing the impact of the gig economy on job satisfaction: A cross-sectional study.
• Investigating the effectiveness of different types of education interventions for improving financial literacy.
• A study of the factors that contribute to success in social entrepreneurship.
• Examining the impact of gender diversity on board performance in publicly-traded companies.
• A comparison of different statistical methods for analyzing panel data.
• Analyzing the impact of employee involvement in decision-making on organizational performance.
• Investigating the effectiveness of different types of treatment for anxiety disorders.
• A study of the relationship between cultural values and entrepreneurial success.
• Examining the impact of technology on the labor market: A longitudinal study.
• A comparison of the effectiveness of different types of direct mail campaigns.
• Analyzing the impact of telecommuting on employee productivity: A cross-sectional study.
• Investigating the effectiveness of different types of retirement planning interventions for low-income individuals.
• Analyzing the effectiveness of different educational interventions in improving student performance
• Investigating the impact of climate change on food production and food security
• Identifying factors that influence employee satisfaction and productivity in the workplace
• Examining the prevalence and causes of mental health disorders in different populations
• Evaluating the effectiveness of different marketing strategies in promoting consumer behavior
• Analyzing the prevalence and consequences of substance abuse in different communities
• Investigating the relationship between social media use and mental health outcomes
• Examining the role of genetics in the development of different diseases
• Identifying factors that contribute to the gender wage gap in different industries
• Analyzing the effectiveness of different policing strategies in reducing crime rates
• Investigating the impact of immigration on economic growth and development
• Examining the prevalence and causes of domestic violence in different populations
• Evaluating the effectiveness of different interventions for treating addiction
• Analyzing the prevalence and impact of childhood obesity on health outcomes
• Investigating the relationship between diet and chronic diseases such as diabetes and heart disease
• Examining the effects of different types of exercise on physical and mental health outcomes
• Identifying factors that influence voter behavior and political participation
• Analyzing the prevalence and impact of sleep disorders on health outcomes
• Investigating the effectiveness of different educational interventions in improving health outcomes
• Examining the impact of environmental pollution on public health outcomes
• Evaluating the effectiveness of different interventions for reducing opioid addiction and overdose rates
• Analyzing the prevalence and causes of homelessness in different communities
• Investigating the relationship between race and health outcomes
• Examining the impact of social support networks on health outcomes
• Identifying factors that contribute to income inequality in different regions
• Analyzing the prevalence and impact of workplace stress on employee health outcomes
• Investigating the relationship between education and income levels in different communities
• Examining the effects of different types of technology on mental health outcomes
• Evaluating the effectiveness of different interventions for reducing healthcare costs
• Analyzing the prevalence and impact of chronic pain on health outcomes
• Investigating the relationship between urbanization and public health outcomes
• Examining the effects of different types of drugs on health outcomes
• Identifying factors that contribute to educational attainment in different populations
• Analyzing the prevalence and causes of food insecurity in different communities
• Investigating the relationship between race and crime rates
• Examining the impact of social media on political participation and engagement
• Evaluating the effectiveness of different interventions for reducing poverty levels
• Analyzing the prevalence and impact of stress on mental health outcomes
• Investigating the relationship between religion and health outcomes
• Examining the effects of different types of parenting styles on child development outcomes
• Identifying factors that contribute to political polarization in different regions
• Analyzing the prevalence and causes of teenage pregnancy in different communities
• Investigating the impact of globalization on economic growth and development
• Examining the prevalence and impact of social isolation on mental health outcomes
• Evaluating the effectiveness of different interventions for reducing gun violence
• Analyzing the prevalence and impact of bullying on mental health outcomes
• Investigating the relationship between immigration and crime rates
• Examining the effects of different types of diets on health outcomes
• Identifying factors that contribute to social inequality in different regions
• Bayesian inference for high-dimensional models
• Analysis of longitudinal data with missing values
• Nonparametric regression with functional predictors
• Estimation and inference for copula models
• Statistical methods for neuroimaging data analysis
• Robust methods for high-dimensional data analysis
• Analysis of spatially correlated data
• Bayesian nonparametric modeling
• Statistical methods for network data
• Optimal experimental design for nonlinear models
• Multivariate time series analysis
• Inference for partially identified models
• Statistical learning for personalized medicine
• Statistical inference for rare events
• High-dimensional mediation analysis
• Analysis of multi-omics data
• Nonparametric regression with mixed types of predictors
• Estimation and inference for graphical models
• Statistical inference for infectious disease dynamics
• Robust methods for high-dimensional covariance matrix estimation
• Analysis of spatio-temporal data
• Bayesian modeling for ecological data
• Multivariate spatial point pattern analysis
• Statistical methods for functional magnetic resonance imaging (fMRI) data
• Nonparametric estimation of conditional distributions
• Statistical methods for spatial econometrics
• Inference for stochastic processes
• Bayesian spatiotemporal modeling
• High-dimensional causal inference
• Analysis of data from complex survey designs
• Bayesian nonparametric survival analysis
• Statistical methods for fMRI connectivity analysis
• Spatial quantile regression
• Statistical modeling for climate data
• Estimation and inference for item response models
• Bayesian model selection and averaging
• High-dimensional principal component analysis
• Analysis of data from clinical trials with noncompliance
• Nonparametric regression with censored data
• Statistical methods for functional data analysis
• Inference for network models
• Bayesian nonparametric clustering
• High-dimensional classification
• Analysis of ecological network data
• Statistical modeling for time-to-event data with multiple events
• Estimation and inference for nonparametric density estimation
• Bayesian nonparametric regression with time-varying coefficients
• Statistical methods for functional magnetic resonance spectroscopy (fMRS) data

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120 Statistical Research Topics: Explore Up-to-date Trends

Researchers and statistics teachers are often tasked with writing an article or paper on a given stats project idea. One of the most crucial things in writing an outstanding and well-composed statistics research project, paper, or essay is to come up with a very interesting topic that will captivate your reader’s minds and provoke their thoughts.

What Are the Best Statistical Research Topics Worth Writing On?

Leading statistical research topics for college students that will interest you, project topics in statistics worth considering, the best idea for statistics project you can focus on, good experiments for statistics topics you should be writing on, what are the best ap statistics project ideas that will be of keen interest to you, good statistics project ideas suitable for our modern world, some of the most crucial survey topics for statistics project, statistical projects topics every researcher wants to write on, statistical research topics you can focus your research on.

Students often find it difficult to come up with well-composed statistical research project topics that take the format of argumentative essay topics to pass across their message. In this essay, we will look at some of the most interesting statistics research topics to focus your research on.

Here are some of the best statistical research topics worth writing on:

• Predictive Healthcare Modeling with Machine Learning
• Analyzing Online Education During COVID-19 Epidemic
• Modeling How Climate Change Affects Natural Disasters
• Essential Elements Influencing Personnel Productivity
• Social Media Influence on Customer Choices and Behavior
• Can Geographical Statistics Aid In Analyzing Crime Trends and Patterns?
• Financial Markets and Stock Price Predictions
• Statistical Analysis of Voting-related Behaviors
• An Analysis of Public Transportation Usage Trends in Urban Areas
• How Can Public Health Education Reduce Air Pollution?
• Statistical Analysis of Suicide In Adolescents and Adults
• A Review of Divorce and How It Affects Children

As a college student, here are the best statistical projects for high school students to focus your research on, especially if you need social media research topics .

• Major Factors Influencing College Students’ Academic Performance
• Social Media and How It Defines thee Mental Health of Students
• Evaluation of the Elements Influencing Student Engagement and Retention
• An Examination of Extracurricular Activities On Academic Success
• Does Parental Involvement Determine Academic Achievement of Kids?
• Examining How Technology Affects Improving Educational Performance
• Factors That Motivate Students’ Involvement In Online Learning
• The Impact of Socioeconomic Status On Academic Performance
• Does Criticism Enhance Student Performance?
• Student-Centered Learning and Improved Performance
• A Cursory Look At Students’ Career Goals and Major Life Decisions
• Does Mental Health Impact Academic Achievement?

Are you a student tasked with writing a project but can’t come up with befitting stats research topics? Here are the best ideas for statistical projects worth considering:

• Financial Data And Stock Price Forecasting
• Investigation of Variables Influencing Students’ Grades
• What Causes Traffic Flow and Congestion In Urban Areas?
• How to Guarantee Customer Retention In the Retail Sector
• Using Epidemiological Data to Model the Spread of Infectious Diseases
• Does Direct Advertisement Affect Consumer Preferences and Behavior?
• How to Predict and Adapt to Climate Change
• Using Spatial Statistics to Analyze Trends and Patterns In Crime
• Examination of the Elements Influencing Workplace Morale and Productivity
• Understanding User Behavior and Preferences Through Statistical Analysis of Social Media Data
• How Many Percent Get Married After Their Degree Programs?
• A Comparative Analysis of Different Academic Fee Payments

If you have been confused based on the availability of different statistics project topics to choose from, here are some of the best thesis statement about social media to choose from:

• Analysis of the Variables Affecting A Startup’s Success
• The Valid Connection Between Mental Health and Social Media Use
• Different Teaching Strategies and Academic Performance
• Factors Influencing Employee Satisfaction In Different Work Environments
• The Impact of Public Policy On Different Population Groups
• Reviewing Different Health Outcomes and Incomes
• Different Marketing Tactics for Good Service Promotion
• What Influences Results In Different Sports Competitions?
• Differentiating Elements Affecting Students’ Performance In A Given Subject
• Internal Communication and Building An Effective Workplace
• Does the Use of Business Technologies Boost Workers’ Output?
• The Role of Modern Communication In An Effective Company Management

Are you a student tasked with writing an essay on social issues research topics but having challenges coming up with a topic? Here are some amazing statistical experiments ideas you can center your research on.

• How Global Pandemic Affects Local Businesses
• Investigating the Link Between Income and Health Outcomes In a Demography
• Key Motivators for Student’s Performance In a Particular Academic Program
• Evaluating the Success of a Promotional Plan Over Others
• Continuous Social Media Use and Impact On Mental Health
• Does Culture Impact the Religious Beliefs of Certain Groups?
• Key Indicators of War and How to Manage These Indicators
• An Overview of War As a Money Laundering Scheme
• How Implementations Guarantee Effectiveness of Laws In Rural Areas
• Performance of Students In War-torn Areas
• Key Indicators For Measuring the Success of Your Venture
• How Providing FAQs Can Help a Business Scale

The best AP statistic project ideas every student especially those interested in research topics for STEM students  will want to write in include:

• The Most Affected Age Demography By the Covid-19 Pandemic
• The Health Outcomes Peculiar to a Specific Demography
• Unusual Ways to Enhance Student Performance In a Classroom
• How Marketing Efforts Can Determine Promotional Outputs
• Can Mental Health Solutions Be Provided On Social Media?
• Assessing How Certain Species Are Affected By Climate Change.
• What Influences Voter Turnouts In Different Elections?
• How Many People Have Used Physical Exercises to Improve Mental Health
• How Financial Circumstances Can Determine Criminal Activities
• Ways DUI Laws Can Reduce Road Accidents
• Examining the Connection Between Corruption and Underdevelopment In Africa
• What Key Elements Do Top Global Firms Engage for Success?

If you need some of the best economics research paper topics , here are the best statistics experiment ideas you can write research on:

• Retail Client Behaviors and Weather Trends
• The Impact of Marketing Initiatives On Sales and Customer Retention
• How Socioeconomic Factors Determine Crime Rates In Different Locations
• Public and Private School Students: Who Performs Better?
• How Fitness Affects the Mental Health of People In Different Ages
• Focus On the Unbanked Employees Globally
• Does Getting Involve In a Kid’s Life Make Them Better?
• Dietary Decisions and a Healthy Life
• Managing Diabetes and High Blood Pressure of a Specific Group
• How to Engage Different Learning Methods for Effectiveness
• Understudying the Sleeping Habits of Specific Age Groups
• How the Numbers Can Help You Create a Brand Recognition

As a student who needs fresh ideas relating to the topic for a statistics project to write on, here are crucial survey topics for statistics that will interest you.

• Understanding Consumer Spending and Behavior In Different Regions
• Why Some People in Certain Areas Live Longer than Others
• Comparative Analysis of Different Customer Behaviors
• Do Social Media Businesses Benefit More than Physical Businesses?
• Does a Healthy Work Environment Guarantee Productivity?
• The Impact of Ethnicity and Religion On Voting Patterns
• Does Financial Literacy Guarantee Better Money Management?
• Cultural Identities and Behavioral Patterns
• How Religious Orientation Determines Social Media Use
• The Growing Need for Economists Globally
• Getting Started with Businesses On Social Media
• Which Is Better: A 9-5 or An Entrepreneurial Job?

Do you want to write on unique statistical experiment ideas? Here are some topics you do not want to miss out on:

• Consumer Satisfaction-Related Variables on E-Commerce Websites
• Obesity Rates and Socioeconomic Status In Developed Countries
• How Marketing Strategies Can Make or Mar Sales Performance
• The Correlation Between Increased Income and Happiness In Various Nations
• Regression Models and Forecasting Home Prices
• Climate Change Affecting Agricultural Production In Specific Areas
• A Study of Employee Satisfaction In the Healthcare Industry
• Social Media, Marketing Tactics, and Consumer Behavior In the Fashion Industry
• Predicting the Risk of Default Among Credit Card Holders In Different Regions
• Why Crime Rates Are Increasing In Urban Areas than Rural Areas
• Statistical Evaluation of Methamphetamine’s Impact On Drug Users
• Genes and a Child’s Total Immunity

Here are some of the most carefully selected stat research topics you can focus on.

• Social Media’s Effects On Consumer Behavior
• The Correlation Between Urban Crime Rates and Poverty Levels
• Physical Exercise and Mental Health Consequences
• Predictive Modeling In the Financial Markets
• How Minimum Wage Regulations Impact Employment Rates
• Healthcare Outcomes and Access Across Various Socioeconomic Groups
• How High School Students’ Environment Affect Academic Performance
• Automated Technology and Employment Loss
• Environmental Elements and Their Effects On Public Health
• Various Advertising Tactics and How They Influence Customer Behavior
• Political Polarization And Economic Inequality
• Climate Change and Agricultural Productivity

The above statistics final project examples will stimulate your curiosity and test your abilities, and they can even be linked to some biochemistry topics and anatomy research paper topics . Writing about these statistics project ideas helps provide a deeper grasp of the natural and social phenomena that affect our lives and the environment by studying these subjects.

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School of Mathematics & Statistics

• Postgraduate research study
• Statistics Thesis Topics
• About the School
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• Mathematics Thesis Topics

Statistics thesis topics

Below are sample topics available for prospective postgraduate research students. These sample topics do not contain every possible project; they are aimed at giving an impression of the breadth of different topics available. Most prospective supervisors would be more than happy to discuss projects not listed below.

Funded projects are projects with project-specific funding. Funding for other projects is usally available on a competitive basis.

Modelling in Space and Time - Example Research Projects

Information about postgraduate research opportunities and how to apply can be found on the  Postgraduate Research Study page . Below is a selection of projects that could be undertaken with our group.

Evaluating probabilistic forecasts in high-dimensional settings (PhD)

Supervisors:   Jethro Browell Relevant research groups:  Modelling in Space and Time , Computational Statistics , Applied Probability and Stochastic Processes

Many decisions are informed by forecasts, and almost all forecasts are uncertain to some degree. Probabilistic forecasts quantify uncertainty to help improve decision-making and are playing an important role in fields including weather forecasting, economics, energy, and public policy. Evaluating the quality of past forecasts is essential to give forecasters and forecast users confidence in their current predictions, and to compare the performance of forecasting systems.

While the principles of probabilistic forecast evaluation have been established over the past 15 years, most notably that of “ sharpness subject to calibration/reliability” , we lack a complete toolkit for applying these principles in many situations, especially those that arise in high-dimensional settings. Furthermore, forecast evaluation must be interpretable by forecast users as well as expert forecasts, and assigning value to marginal improvements in forecast quality remains a challenge in many sectors.

This PhD will develop new statistical methods for probabilistic forecast evaluation considering some of the following issues:

• Verifying probabilistic calibration conditional on relevant covariates
• Skill scores for multivariate probabilistic forecasts where “ideal” performance is unknowable
• Assigning value to marginal forecast improvement though the convolution of utility functions and Murphey Diagrams
• Development of the concept of “anticipated verification” and “predicting the of uncertainty of future forecasts”
• Decomposing forecast misspecification (e.g. into spatial and temporal components)
• Evaluation of  Conformal Predictions

Good knowledge of multivariate statistics is essential, prior knowledge of probabilistic forecasting and forecast evaluation would be an advantage.

Adaptive probabilistic forecasting (PhD)

Supervisors:   Jethro Browell Relevant research groups:   Modelling in Space and Time , Computational Statistics , Applied Probability and Stochastic Processes

Data-driven predictive models depend on the representativeness of data used in model selection and estimation. However, many processes change over time meaning that recent data is more representative than old data. In this situation, predictive models should track these changes, which is the aim of “online” or “adaptive” algorithms. Furthermore, many users of forecasts require probabilistic forecasts, which quantify uncertainty, to inform their decision-making. Existing adaptive methods such as Recursive Least Squares, the Kalman Filter have been very successful for adaptive point forecasting, but adaptive probabilistic forecasting has received little attention. This PhD will develop methods for adaptive probabilistic forecasting from a theoretical perspective and with a view to apply these methods to problems in at least one application area to be determined.

In the context of adaptive probabilistic forecasting, this PhD may consider:

• Online estimation of Generalised Additive Models for Location Scale and Shape
• Online/adaptive (multivariate) time series prediction
• Online aggregation (of experts, or hierarchies)

A good knowledge of methods for time series analysis and regression is essential, familiarity with flexible regression (GAMs) and distributional regression (GAMLSS/quantile regression) would be an advantage.

The evolution of shape (PhD)

Supervisors:   Vincent Macaulay Relevant research groups:   Bayesian Modelling and Inference , Modelling in Space and Time , Statistical Modelling for Biology, Genetics and *omics

Shapes of objects change in time. Organisms evolve and in the process change form: humans and chimpanzees derive from some common ancestor presumably different from either in shape. Designed objects are no different: an Art Deco tea pot from the 1920s might share some features with one from Ikea in 2010, but they are different. Mathematical models of evolution for certain data types, like the strings of As, Gs , Cs and Ts in our evolving DNA, are quite mature and allow us to learn about the relationships of the objects (their phylogeny or family tree), about the changes that happen to them in time (the evolutionary process) and about the ways objects were configured in the past (the ancestral states), by statistical techniques like phylogenetic analysis. Such techniques for shape data are still in their infancy. This project will develop novel statistical inference approaches (in a Bayesian context) for complex data objects, like functions, surfaces and shapes, using Gaussian-process models, with potential application in fields as diverse as language evolution, morphometrics and industrial design.

New methods for analysis of migratory navigation (PhD)

Supervisors:   Janine Illian Relevant research groups:   Modelling in Space and Time , Bayesian Modelling and Inference , Computational Statistics , Environmental, Ecological Sciences and Sustainability

Joint project with Dr Urška Demšar (University of St Andrews)

Migratory birds travel annually across vast expanses of oceans and continents to reach their destination with incredible accuracy. How they are able to do this using only locally available cues is still not fully understood. Migratory navigation consists of two processes: birds either identify the direction in which to fly (compass orientation) or the location where they are at a specific moment in time (geographic positioning). One of the possible ways they do this is to use information from the Earth’s magnetic field in the so-called geomagnetic navigation (Mouritsen 2018). While there is substantial evidence (both physiological and behavioural) that they do sense magnetic field (Deutschlander and Beason 2014), we however still do not know exactly which of the components of the field they use for orientation or positioning. We also do not understand how rapid changes in the field affect movement behaviour.

There is a possibility that birds can sense these rapid large changes and that this may affect their navigational process. To study this, we need to link accurate data on Earth’s magnetic field with animal tracking data. This has only become possible very recently through new spatial data science advances:  we developed the MagGeo tool, which links contemporaneous geomagnetic data from Swarm satellites of the European Space Agency with animal tracking data (Benitez Paez et al. 2021).

Linking geomagnetic data to animal tracking data however creates a highly-dimensional data set, which is difficult to explore. Typical analyses of contextual environmental information in ecology include representing contextual variables as co-variates in relatively simple statistical models (Brum Bastos et al. 2021), but this is not sufficient for studying detailed navigational behaviour. This project will analyse complex spatio-temporal data using computationally efficient statistical model fitting approches in a Bayesian context.

This project is fully based on open data to support reproducibility and open science. We will test our new methods by annotating publicly available bird tracking data (e.g. from repositories such as Movebank.org), using the open MagGeo tool and implementing our new methods as Free and Open Source Software (R/Python).

Benitez Paez F, Brum Bastos VdS, Beggan CD, Long JA and Demšar U, 2021. Fusion of wildlife tracking and satellite geomagnetic data for the study of animal migration.  Movement Ecology , 9:31.  https://doi.org/10.1186/s40462-021-00268-4

Brum Bastos VdS, Łos M, Long JA, Nelson T and Demšar U, 2021, Context-aware movement analysis in ecology: a systematic review.  International Journal of Geographic Information Science ,  https://doi.org/10.1080/13658816.2021.1962528

Deutschlander ME and Beason RC, 2014. Avian navigation and geographic positioning.  Journal of Field Ornithology , 85(2):111–133. https://doi.org/10.1111/jofo.12055

Integrated spatio-temporal modelling for environmental data (PhD)

Supervisors:   Janine Illian Relevant research groups:   Modelling in Space and Time ,  Bayesian Modelling and Inference ,  Computational Statistics ,  Environmental, Ecological Sciences and Sustainability

(Jointly supervised by Peter Henrys, CEH)

The last decade has seen a proliferation of environmental data with vast quantities of information available from various sources. This has been due to a number of different factors including: the advent of sensor technologies; the provision of remotely sensed data from both drones and satellites; and the explosion in citizen science initiatives. These data represent a step change in the resolution of available data across space and time - sensors can be streaming data at a resolution of seconds whereas citizen science observations can be in the hundreds of thousands.  

Over the same period, the resources available for traditional field surveys have decreased dramatically whilst logistical issues (such as access to sites, ) have increased. This has severely impacted the ability for field survey campaigns to collect data at high spatial and temporal resolutions. It is exactly this sort of information that is required to fit models that can quantify and predict the spread of invasive species, for example. 

Whilst we have seen an explosion of data across various sources, there is no single source that provides both the spatial and temporal intensity that may be required when fitting complex spatio-temporal models (cf invasive species example) - each has its own advantages and benefits in terms of information content. There is therefore potentially huge benefit in beginning together data from these different sources within a consistent framework to exploit the benefits each offers and to understand processes at unprecedented resolutions/scales that would be impossible to monitor. 

Current approaches to combining data in this way are typically very bespoke and involve complex model structures that are not reusable outside of the particular application area. What is needed is an overarching generic methodological framework and associated software solutions to implement such analyses. Not only would such a framework provide the methodological basis to enable researchers to benefit from this big data revolution, but also the capability to change such analyses from being stand alone research projects in their own right, to more operational, standard analytical routines. 

FInally, such dynamic, integrated analyses could feedback into data collection initiatives to ensure optimal allocation of effort for traditional surveys or optimal power management for sensor networks. The major step change being that this optimal allocation of effort is conditional on other data that is available. So, for example, given the coverage and intensity of the citizen science data, where should we optimally send our paid surveyors? The idea is that information is collected at times and locations that provide the greatest benefit in understanding the underpinning stochastic processes. These two major issues - integrated analyses and adaptive sampling - ensure that environmental monitoring is fit for purpose and scientists, policy and industry can benefit from the big data revolution. 

This project will develop an integrated statistical modelling strategy that provides a single modelling framework for enabling quantification of ecosystem goods and services while accounting for the fundamental differences in different data streams. Data collected at different spatial resolutions can be used within the same model through projecting it into continuous space and projecting it back into the landscape level of interest.  As a result, decisions can be made at the relevant spatial scale and uncertainty is propagated through, facilitating appropriate decision making.

Statistical methodology for assessing the impacts of offshore renewable developments on marine wildlife (PhD)

(jointly supervised by Esther Jones and Adam Butler, BIOSS)

Assessing the impacts of offshore renewable developments on marine wildlife is a critical component of the consenting process. A NERC-funded project, ECOWINGS, will provide a step-change in analysing predator-prey dynamics in the marine environment, collecting data across trophic levels against a backdrop of developing wind farms and climate change. Aerial survey and GPS data from multiple species of seabirds will be collected contemporaneously alongside prey data available over the whole water column from an automated surface vehicle and underwater drone.

These methods of data collection will generate 3D space and time profiles of predators and prey, creating a rich source of information and enormous potential for modelling and interrogation. The data present a unique opportunity for experimental design across a dynamic and changing marine ecosystem, which is heavily influenced by local and global anthropogenic activities. However, these data have complex intrinsic spatio-temporal properties, which are challenging to analyse. Significant statistical methods development could be achieved using this system as a case study, contributing to the scientific knowledge base not only in offshore renewables but more generally in the many circumstances where patchy ecological spatio-temporal data are available. 

This PhD project will develop spatio-temporal modelling methodology that will allow user to anaylse these exciting - and complex - data sets and help inform our knowledge on the impact of off-shore renewable on wildlife. 

Analysis of spatially correlated functional data objects (PhD)

Supervisors:   Surajit Ray Relevant research groups:   Modelling in Space and Time ,  Computational Statistics ,  Nonparametric and Semi-parametric Statistics ,  Imaging, Image Processing and Image Analysis

Historically, functional data analysis techniques have widely been used to analyze traditional time series data, albeit from a different perspective. Of late, FDA techniques are increasingly being used in domains such as environmental science, where the data are spatio-temporal in nature and hence is it typical to consider such data as functional data where the functions are correlated in time or space. An example where modeling the dependencies is crucial is in analyzing remotely sensed data observed over a number of years across the surface of the earth, where each year forms a single functional data object. One might be interested in decomposing the overall variation across space and time and attribute it to covariates of interest. Another interesting class of data with dependence structure consists of weather data on several variables collected from balloons where the domain of the functions is a vertical strip in the atmosphere, and the data are spatially correlated. One of the challenges in such type of data is the problem of missingness, to address which one needs develop appropriate spatial smoothing techniques for spatially dependent functional data. There are also interesting design of experiment issues, as well as questions of data calibration to account for the variability in sensing instruments. Inspite of the research initiative in analyzing dependent functional data there are several unresolved problems, which the student will work on:

• robust statistical models for incorporating temporal and spatial dependencies in functional data
• developing reliable prediction and interpolation techniques for dependent functional data
• developing inferential framework for testing hypotheses related to simplified dependent structures
• analysing sparsely observed functional data by borrowing information from neighbours
• visualisation of data summaries associated with dependent functional data
• Clustering of functional data

Estimating the effects of air pollution on human health (PhD)

Supervisors:   Duncan Lee Relevant research groups:   Modelling in Space and Time ,  Biostatistics, Epidemiology and Health Applications

The health impact of exposure to air pollution is thought to reduce average life expectancy by six months, with an estimated equivalent health cost of 19 billion each year (from DEFRA). These effects have been estimated using statistical models, which quantify the impact on human health of exposure in both the short and the long term. However, the estimation of such effects is challenging, because individual level measures of health and pollution exposure are not available. Therefore, the majority of studies are conducted at the population level, and the resulting inference can only be made about the effects of pollution on overall population health. However, the data used in such studies are spatially misaligned, as the health data relate to extended areas such as cities or electoral wards, while the pollution concentrations are measured at individual locations. Furthermore, pollution monitors are typically located where concentrations are thought to be highest, known as preferential sampling, which is likely to result in overly high measurements being recorded. This project aims to develop statistical methodology to address these problems, and thus provide a less biased estimate of the effects of pollution on health than are currently produced.

Mapping disease risk in space and time (PhD)

Disease risk varies over space and time, due to similar variation in environmental exposures such as air pollution and risk inducing behaviours such as smoking.  Modelling the spatio-temporal pattern in disease risk is known as disease mapping, and the aims are to: quantify the spatial pattern in disease risk to determine the extent of health inequalities,  determine whether there has been any increase or reduction in the risk over time, identify the locations of clusters of areas at elevated risk, and quantify the impact of exposures, such as air pollution, on disease risk. I am working on all these related problems at present, and I have PhD projects in all these areas.

Bayesian Mixture Models for Spatio-Temporal Data (PhD)

Supervisors:   Craig Anderson Relevant research groups:   Modelling in Space and Time , Bayesian Modelling and Inference , Biostatistics, Epidemiology and Health Applications

The prevalence of disease is typically not constant across space – instead the risk tends to vary from one region to another.  Some of this variability may be down to environmental conditions, but many of them are driven by socio-economic differences between regions, with poorer regions tending to have worse health than wealthier regions.  For example, within the the Greater Glasgow and Clyde region, where the World Health Organisation noted that life expectancy ranges from 54 in Calton to 82 in Lenzie, despite these areas being less than 10 miles apart. There is substantial value to health professionals and policymakers in identifying some of the causes behind these localised health inequalities.

Disease mapping is a field of statistical epidemiology which focuses on estimating the patterns of disease risk across a geographical region. The main goal of such mapping is typically to identify regions of high disease risk so that relevant public health interventions can be made. This project involves the development of statistical models which will enhance our understanding regional differences in the risk of suffering from major diseases by focusing on these localised health inequalities.

Standard Bayesian hierarchical models with a conditional autoregressive prior are frequently used for risk estimation in this context, but these models assume a smooth risk surface which is often not appropriate in practice. In reality, it will often be the case that different regions have vastly different risk profiles and require different data generating functions as a result.

In this work we propose a mixture model based approach which allows different sub-populations to be represented by different underlying statistical distributions within a single modelling framework. By integrating CAR models into mixture models, researchers can simultaneously account for spatial dependencies and identify distinct disease patterns within subpopulations.

Bayesian Modelling and Inference - Example Research Projects

Modelling genetic variation (msc/phd).

Supervisors:   Vincent Macaulay Relevant research groups:   Bayesian Modelling and Inference ,  Statistical Modelling for Biology, Genetics and *omics

Variation in the distribution of different DNA sequences across individuals has been shaped by many processes which can be modelled probabilistically, processes such as demographic factors like prehistoric population movements, or natural selection. This project involves developing new techniques for teasing out information on those processes from the wealth of raw data that is now being generated by high-throughput genetic assays, and is likely to involve computationally-intensive sampling techniques to approximate the posterior distribution of parameters of interest. The characterization of the amount of population structure on different geographical scales will influence the design of experiments to identify the genetic variants that increase risk of complex diseases, such as diabetes or heart disease.

The evolution of shape (PhD)

Supervisors:   Vincent Macaulay Relevant research groups:   Bayesian Modelling and Inference ,  Modelling in Space and Time , Statistical Modelling for Biology, Genetics and *omics

New methods for analysis of migratory navigation (PhD)

Integrated spatio-temporal modelling for environmental data (phd), statistical methodology for assessing the impacts of offshore renewable developments on marine wildlife (phd).

This PhD project will develop spatio-temporal modelling methodology that will allow user to anaylse these exciting - and complex - data sets and help inform our knowledge on the impact of off-shore renewable on wildlife.

Bayesian variable selection for genetic and genomic studies (PhD)

Supervisors:   Mayetri Gupta Relevant research groups:   Bayesian Modelling and Inference ,  Computational Statistics ,  Statistical Modelling for Biology, Genetics and *omics

An important issue in high-dimensional regression problems is the accurate and efficient estimation of models when, compared to the number of data points, a substantially larger number of potential predictors are present. Further complications arise with correlated predictors, leading to the breakdown of standard statistical models for inference; and the uncertain definition of the outcome variable, which is often a varying composition of several different observable traits. Examples of such problems arise in many scenarios in genomics- in determining expression patterns of genes that may be responsible for a type of cancer; and in determining which genetic mutations lead to higher risks for occurrence of a disease. This project involves developing broad and improved Bayesian methodologies for efficient inference in high-dimensional regression-type problems with complex multivariate outcomes, with a focus on genetic data applications.

The successful candidate should have a strong background in methodological and applied Statistics, expert skills in relevant statistical software or programming languages (such as R, C/C++/Python), and also have a deep interest in developing knowledge in cross-disciplinary topics in genomics. The candidate will be expected to consolidate and master an extensive range of topics in modern Statistical theory and applications during their PhD, including advanced Bayesian modelling and computation, latent variable models, machine learning, and methods for Big Data. The successful candidate will be considered for funding to cover domestic tuition fees, as well as paying a stipend at the Research Council rate for four years.

Bayesian statistical data integration of single-cell and bulk “OMICS” datasets with clinical parameters for accurate prediction of treatment outcomes in Rheumatoid Arthritis (PhD)

Supervisors:   Mayetri Gupta Relevant research groups:   Bayesian Modelling and Inference ,  Computational Statistics ,  Statistical Modelling for Biology, Genetics and *omics ,  Biostatistics, Epidemiology and Health Applications

In recent years, many different computational methods to analyse biological data have been established: including DNA (Genomics), RNA (Transcriptomics), Proteins (proteomics) and Metabolomics, that captures more dynamic events. These methods were refined by the advent of single cell technology, where it is now possible to capture the transcriptomics profile of single cells, spatial arrangements of cells from flow methods or imaging methods like functional magnetic resonance imaging. At the same time, these OMICS data can be complemented with clinical data – measurement of patients, like age, smoking status, phenotype of disease or drug treatment. It is an interesting and important open statistical question how to combine data from different “modalities” (like transcriptome with clinical data or imaging data) in a statistically valid way, to compare different datasets and make justifiable statistical inferences. This PhD project will be jointly supervised with  Dr. Thomas Otto  and  Prof. Stefan Siebert  from the  Institute of Infection, Immunity & Inflammation ), you will explore how to combine different datasets using Bayesian latent variable modelling, focusing on clinical datasets from Rheumatoid Arthritis.

Funding Notes

The successful candidate will be considered for funding to cover domestic tuition fees, as well as paying a stipend at the Research Council rate for four years.

Scalable Bayesian models for inferring evolutionary traits of plants (PhD)

Supervisors:   Vinny Davies ,  Richard Reeve Relevant research groups:   Bayesian Modelling and Inference ,  Computational Statistics ,  Environmental, Ecological Sciences and Sustainability ,  Statistical Modelling for Biology, Genetics and *omics

The functional traits and environmental preferences of plant species determine how they will react to changes resulting from global warming. The main global biodiversity repositories, such as the Global Biodiversity Information Facility ( GBIF ), contain hundreds of millions of records from hundreds of thousands of species in the plant kingdom alone, and the spatiotemporal data in these records can be associated with soil, climate or other environmental data from other databases. Combining these records allow us to identify environmental preferences, especially for common species where many records exist. Furthermore, in a previous PhD studentship we showed that these traits are highly evolutionarily conserved ( Harris et al., 2022 ), so it is possible to impute the preferences for rare species where little data exists using phylogenetic inference techniques.

The aim of this PhD project is to investigate the application of Bayesian variable selection methods to identify these evolutionarily conserved traits more effectively, and to quantify these traits and their associated uncertainty for all plant species for use in a plant ecosystem digital twin that we are developing separately to forecast the impact of climate change on biodiversity. In another PhD studentship, we previously developed similar methods for trait inference in viral evolution ( Davies et al., 2017 ;  Davies et al., 2019 ), but due to the scale of the data here, these methods will need to be significantly enhanced. We therefore propose a project to investigate extensions to methods for phylogenetic trait inference to handle datasets involving hundreds of millions of records in phylogenies with hundreds of thousands of tips, potentially through either sub-sampling ( Quiroz et al, 2018 ) or modelling splitting and recombination ( Nemeth & Sherlock, 2018 ).

Computational Statistics - Example Research Projects

Supervisors:   Jethro Browell Relevant research groups:  Modelling in Space and Time ,  Computational Statistics ,  Applied Probability and Stochastic Processes

Supervisors:   Jethro Browell Relevant research groups:   Modelling in Space and Time ,  Computational Statistics ,  Applied Probability and Stochastic Processes

This project will develop an integrated statistical modelling strategy that provides a single modelling framework for enabling quantification of ecosystem goods and services while accounting for the fundamental differences in different data streams. Data collected at different spatial resolutions can be used within the same model through projecting it into continuous space and projecting it back into the landscape level of interest.  As a result, decisions can be made at the relevant spatial scale and uncertainty is propagated through, facilitating appropriate decision making. 

Statistical methodology for assessing the impacts of offshore renewable developments on marine wildlife (PhD)

Bayesian variable selection for genetic and genomic studies (phd), bayesian statistical data integration of single-cell and bulk “omics” datasets with clinical parameters for accurate prediction of treatment outcomes in rheumatoid arthritis (phd), scalable bayesian models for inferring evolutionary traits of plants (phd).

The aim of this PhD project is to investigate the application of Bayesian variable selection methods to identify these evolutionarily conserved traits more effectively, and to quantify these traits and their associated uncertainty for all plant species for use in a plant ecosystem digital twin that we are developing separately to forecast the impact of climate change on biodiversity. In another PhD studentship, we previously developed similar methods for trait inference in viral evolution ( Davies et al., 2017 ;  Davies et al., 2019 ), but due to the scale of the data here, these methods will need to be significantly enhanced. We therefore propose a project to investigate extensions to methods for phylogenetic trait inference to handle datasets involving hundreds of millions of records in phylogenies with hundreds of thousands of tips, potentially through either sub-sampling ( Quiroz et al, 2018 ) or modelling splitting and recombination ( Nemeth & Sherlock, 2018 ).

Multi objective Bayesian optimisation for in silico  to real metabolomics experiments    (PhD/MSc)

Supervisors:   Vinny Davies ,  Craig Alexander Relevant research groups:   Computational Statistics ,  Machine Learning and AI ,  Emulation and Uncertainty Quantification ,  Statistical Modelling for Biology, Genetics and *omics ,  Statistics in Chemistry/Physics

Untargeted metabolomics experiments aim to  identify  the small molecules that make up a particular sample  (e.g. ,  blood), allowing   us to  identify  biomarkers, discover new chemicals, or understand the  metabolism  ( Smith et al., 2014 ) .  Data Dependent Acquisition  (DDA)  methods  are used to collect  the information needed to  identify  the metabolites ,  and various more advanced  DDA  methods have  recently  been designed to improve this process  ( Davies et al. (2021) ;  McBride et al. (2023) ) . Each of  these methods , however,  ha s  parameters that must be  chosen   in order to  maximise the amount of relevant data  (metabolite spectra)  that is collected . Our recent work  led to the design of  a Virtual Metabolomics Mass Spectrometer ( ViMMS ) in which we can run  computer simulations of experiments  and test different parameter  settings  ( Wandy et al., 2019 ,  2022 ). Previously this has involve d  running a  pre-determined set of parameters as part of a grid search  in  ViMMS ,  and then choosing the best parameter settings  based on a single measure of performance. The proposed  M . Res .  (or Ph . D . ) will  extend this appro ach by using  multi objective  Bayesian Optimisation  to  adapt simulations and optimise over  multiple  different  measurements of quality . By  optimising parameters in this  manner,  we can help improve real experiments currently underway at the University of Glasgow and beyond.

Analysis of spatially correlated functional data objects (PhD)

Nonparametric and semi-parametric statistics - example research projects, modality of mixtures of distributions (phd).

Supervisors:   Surajit Ray Relevant research groups:   Nonparametric and Semi-parametric Statistics ,  Applied Probability and Stochastic Processes ,  Statistical Modelling for Biology, Genetics and *omics ,  Biostatistics, Epidemiology and Health Applications

Finite mixtures provide a flexible and powerful tool for fitting univariate and multivariate distributions that cannot be captured by standard statistical distributions. In particular, multivariate mixtures have been widely used to perform modeling and cluster analysis of high-dimensional data in a wide range of applications. Modes of mixture densities have been used with great success for organizing mixture components into homogenous groups. But the results are limited to normal mixtures. Beyond the clustering application existing research in this area has provided fundamental results regarding the upper bound of the number of modes, but they too are limited to normal mixtures. In this project, we wish to explore the modality of non-normal distributions and their application to real life problems.

Applied Probability and Stochastic Processes - Example Research Projects

Modality of mixtures of distributions (phd).

Finite mixtures provide a flexible and powerful tool for fitting univariate and multivariate distributions that cannot be captured by standard statistical distributions. In particular, multivariate mixtures have been widely used to perform modeling and cluster analysis of high-dimensional data in a wide range of applications. Modes of mixture densities have been used with great success for organizing mixture components into homogenous groups. But the results are limited to normal mixtures. Beyond the clustering application existing research in this area has provided fundamental results regarding the upper bound of the number of modes, but they too are limited to normal mixtures. In this project, we wish to explore the modality of non-normal distributions and their application to real life problems.

Machine Learning and AI - Example Research Projects

Estimating false discovery rates in metabolite identification using generative ai  (phd).

Supervisors:   Vinny Davies , Andrew Elliott ,  Justin J.J. van der Hooft (Wageningen University) Relevant research groups:   Machine Learning and AI ,  Emulation and Uncertainty Quantification ,  Statistical Modelling for Biology, Genetics and *omics ,  Statistics in Chemistry/Physics

Metabolomics is the study field that aims to map all molecules that are part of an organism, which can help us understand its metabolism and how it can be affected by disease, stress, age, or other factors. During metabolomics experiments, mass spectra of the metabolites are collected and then annotated by comparison against spectral databases such as METLIN ( Smith et al., 2005 ) or GNPS ( Wang et al., 2016 ). Generally, however, these spectral databases do not contain the mass spectra of a large proportion of metabolites, so the best matching spectrum from the database is not always the correct identification. Matches can be scored using cosine similarity, or more advanced methods such as Spec2Vec ( Huber et al., 2021 ), but these scores do not provide any statement about the statistical accuracy of the match. Creating decoy spectral libraries, specifically a large database of fake spectra, is one potential way of estimating False Discovery Rates (FDRs), allowing us to quantify the probability of a spectrum match being correct ( Scheubert et al., 2017 ). However, these methods are not widely used, suggesting there is significant scope to improve their performance and ease of use. In this project, we will use the code framework from our recently developed Virtual Metabolomics Mass Spectrometer (ViMMS) ( Wandy et al., 2019 ,  2022 ) to systematically evaluate existing methods and identify possible improvements. We will then explore how we can use generative AI, e.g., Generative Adversarial Networks or Variational Autoencoders, to train a deep neural network that can create more realistic decoy spectra, and thus improve our estimation of FDRs.

Medical image segmentation and uncertainty quantification (PhD)

Supervisors:  Surajit Ray Relevant research groups:   Machine Learning and AI ,  Imaging, Image Processing and Image Analysis

This project focuses on the application of medical imaging and uncertainty quantification for the detection of tumours. The project aims to provide clinicians with accurate, non-invasive methods for detecting and classifying the presence of malignant and benign tumours. It seeks to combine advanced medical imaging technologies such as ultrasound, computed tomography (CT) and magnetic resonance imaging (MRI) with the latest artificial intelligence algorithms. These methods will automate the detection process and may be used for determining malignancy with a high degree of accuracy. Uncertainty quantification (UQ) techniques will help generate a more precise prediction for tumour malignancy by providing a characterisation of the degree of uncertainty associated with the diagnosis. The combination of medical imaging and UQ will significantly decrease the requirement for performing invasive medical procedures such as biopsies. This will improve the accuracy of the tumour detection process and reduce the duration of diagnosis. The project will also benefit from the development of novel image processing algorithms (e.g. deep learning) and machine learning models. These algorithms and models will help improve the accuracy of the tumour detection process and assist clinicians in making the best treatment decisions.

Generating deep fake left ventricles: a step towards personalised heart treatments (PhD)

Supervisors:  Andrew Elliott , Vinny Davies , Hao Gao Relevant research groups:  Machine Learning and AI , Emulation and Uncertainty Quantification , Biostatistics, Epidemiology and Health Applications , Imaging, Image Processing and Image Analysis

Personalised medicine is an exciting avenue in the field of cardiac healthcare where an understanding of patient-specific mechanisms can lead to improved treatments ( Gao et al., 2017 ). The use of mathematical models to link the underlying properties of the heart with cardiac imaging offers the possibility of obtaining important parameters of heart function non-invasively ( Gao et al., 2015 ). Unfortunately, current estimation methods rely on complex mathematical forward simulations, resulting in a solution taking hours, a time frame not suitable for real-time treatment decisions. To increase the applicability of these methods, statistical emulation methods have been proposed as an efficient way of estimating the parameters ( Davies et al., 2019 ;  Noè et al., 2019 ). In this approach, simulations of the mathematical model are run in advance and then machine learning based methods are used to estimate the relationship between the cardiac imaging and the parameters of interest. These methods are, however, limited by our ability to understand the how cardiac geometry varies across patients which is in term limited by the amount of data available ( Romaszko et al., 2019 ). In this project we will look at AI based methods for generating fake cardiac geometries which can be used to increase the amount of data ( Qiao et al., 2023 ). We will explore different types of AI generation, including Generative Adversarial Networks or Variational Autoencoders, to understand how we can generate better 3D and 4D models of the fake left ventricles and create an improved emulation strategy that can make use of them.

Emulation and Uncertainty Quantification - Example Research Projects

Metabolomics is the study field that aims to map all molecules that are part of an organism, which can help us understand its metabolism and how it can be affected by disease, stress, age, or other factors. During metabolomics experiments, mass spectra of the metabolites are collected and then annotated by comparison against spectral databases such as METLIN ( Smith et al., 2005 ) or GNPS ( Wang et al., 2016 ). Generally, however, these spectral databases do not contain the mass spectra of a large proportion of metabolites, so the best matching spectrum from the database is not always the correct identification. Matches can be scored using cosine similarity, or more advanced methods such as Spec2Vec ( Huber et al., 2021 ), but these scores do not provide any statement about the statistical accuracy of the match. Creating decoy spectral libraries, specifically a large database of fake spectra, is one potential way of estimating False Discovery Rates (FDRs), allowing us to quantify the probability of a spectrum match being correct ( Scheubert et al., 2017 ). However, these methods are not widely used, suggesting there is significant scope to improve their performance and ease of use. In this project, we will use the code framework from our recently developed Virtual Metabolomics Mass Spectrometer (ViMMS) ( Wandy et al., 2019 ,  2022 ) to systematically evaluate existing methods and identify possible improvements. We will then explore how we can use generative AI, e.g., Generative Adversarial Networks or Variational Autoencoders, to train a deep neural network that can create more realistic decoy spectra, and thus improve our estimation of FDRs.

Supervisors: Andrew Elliott , Vinny Davies , Hao Gao Relevant research groups:  Machine Learning and AI ,  Emulation and Uncertainty Quantification ,  Biostatistics, Epidemiology and Health Applications ,  Imaging, Image Processing and Image Analysis

Environmental, Ecological Sciences and Sustainability - Example Research Projects

Statistical methodology for assessing the impacts of offshore renewable developments on marine wildlife (phd), statistical modelling for biology, genetics and *omics - example research projects, modelling genetic variation (msc/phd).

Supervisors:   Vincent Macaulay Relevant research groups:   Bayesian Modelling and Inference ,  Modelling in Space and Time ,  Statistical Modelling for Biology, Genetics and *omics

Bayesian statistical data integration of single-cell and bulk “OMICS” datasets with clinical parameters for accurate prediction of treatment outcomes in Rheumatoid Arthritis (PhD)

Supervisors:   Vinny Davies ,  Richard Reeve ,  Claire Harris (BIOSS) Relevant research groups:   Bayesian Modelling and Inference ,  Computational Statistics ,  Environmental, Ecological Sciences and Sustainability ,  Statistical Modelling for Biology, Genetics and *omics

Supervisors:   Vinny Davies , Andrew Elliott ,  Justin J.J. van der Hooft (Wageningen University) Relevant research groups:   Machine Learning and AI ,  Emulation and Uncertainty Quantification ,  Statistical Modelling for Biology, Genetics and *omics , Statistics in Chemistry/Physics

Multi objective Bayesian optimisation for in silico  to real metabolomics experiments  (PhD/MSc)

Finite mixtures provide a flexible and powerful tool for fitting univariate and multivariate distributions that cannot be captured by standard statistical distributions. In particular, multivariate mixtures have been widely used to perform modeling and cluster analysis of high-dimensional data in a wide range of applications. Modes of mixture densities have been used with great success for organizing mixture components into homogenous groups. But the results are limited to normal mixtures. Beyond the clustering application existing research in this area has provided fundamental results regarding the upper bound of the number of modes, but they too are limited to normal mixtures. In this project, we wish to explore the modality of non-normal distributions and their application to real life problems

Implementing a biology-empowered statistical framework to detect rare varient risk factors for complex diseases in whole genome sequence cohorts (PhD)

Supervisors:   Vincent Macaulay , Luísa Pereira (Geneticist, i3s ) Relevant research groups:  Statistical Modelling for Biology, Genetics and *omics ,  Biostatistics, Epidemiology and Health Applications

The traditional genome-wide association studies to detect candidate genetic risk factors for complex diseases/phenotypes (GWAS) recur largely to the microarray technology, genotyping at once thousands or millions of variants regularly spaced across the genome. These microarrays include mostly common variants (minor allele frequency, MAF>5%), missing candidate rare variants which are the more likely to be deleterious [ 1 ]. Currently, the best strategy to genotype low-frequency (1%<MAF<5%) and rare (MAF<1%) variants is through next generation sequencing, and the increasingly availability of whole genome sequences (WGS) places us in the brink of detecting rare variants associated with complex diseases [ 2 ]. Statistically, this detection constitutes a challenge, as the massive number of rare variants in genomes (for example, 64.7M in 150 Iberian WGSs) would imply genotyping millions/billions of individuals to attain statistical power. In the last couple years, several statistical methods have being tested in the context of association of rare variants with complex traits [ 2 , 3 , 4 ], largely testing strategies to aggregate the rare variants. These works have not yet tested the statistical empowerment that can be gained by incorporating reliable biological evidence on the aggregation of rare variants in the most probable functional regions, such as non-coding regulatory regions that control the expression of genes [ 4 ]. In fact, it has been demonstrated that even for common candidate variants, most of these variants (around 88%; [ 5 ]) are located in non-coding regions. If this is true for the common variants detected by the traditional GWAS, it is highly probable to be also true for rare variants.

In this work, we will implement a biology-empowered statistical framework to detect rare variant risk factors for complex diseases in WGS cohorts. We will recur to the 200,000 WGSs from UK Biobank database [ 6 ], that will be available to scientists before the end of 2023. Access to clinical information of these >40 years old UK residents is also provided. We will build our framework around type-2 diabetes (T2D), a common complex disease for which thousands of common variant candidates have been found [ 7 ]. Also, the mapping of regulatory elements is well known for the pancreatic beta cells that play a leading role in T2D [ 8 ]. We will use this mapping in guiding the rare variants’ aggregation and test it against a random aggregation across the genome. Of course, the framework rationale will be appliable to any other complex disease. We will browse literature for aggregation methods available at the beginning of this work, but we already selected the method SKAT (sequence kernel association test; [ 3 ]) to be tested. SKAT fits a random-effects model to the set of variants within a genomic interval or biologically-meaningful region (such as a coding or regulatory region) and computes variant-set level p-values, while permitting correction for covariates (such as the principal components mentioned above that can account for population stratification between cases and controls).

Biostatistics, Epidemiology and Health Applications - Example Research Projects

Bayesian statistical data integration of single-cell and bulk “omics” datasets with clinical parameters for accurate prediction of treatment outcomes in rheumatoid arthritis (phd).

Supervisors:   Mayetri Gupta Relevant research groups:   Bayesian Modelling and Inference ,  Computational Statistics ,  Vincent Macaulay ,  Biostatistics, Epidemiology and Health Applications

Supervisors: Andrew Elliott , Vinny Davies , Hao Gao Relevant research groups:  Machine Learning and AI ,  Emulation and Uncertainty Quantification ,  Biostatistics, Epidemiology and Health Applications ,  Statistical Modelling for Biology, Genetics and *omics

Supervisors:   Craig Anderson Relevant research groups: Modelling in Space and Time , Bayesian Modelling and Inference , Biostatistics, Epidemiology and Health Applications

Implementing a biology-empowered statistical framework to detect rare varient risk factors for complex diseases in whole genome sequence cohorts (PhD)

Supervisors:   Vincent Macaulay , Luísa Pereira (Geneticist,  i3s ) Relevant research groups:  Statistical Modelling for Biology, Genetics and *omics ,  Biostatistics, Epidemiology and Health Applications

The traditional genome-wide association studies to detect candidate genetic risk factors for complex diseases/phenotypes (GWAS) recur largely to the microarray technology, genotyping at once thousands or millions of variants regularly spaced across the genome. These microarrays include mostly common variants (minor allele frequency, MAF>5%), missing candidate rare variants which are the more likely to be deleterious [ 1 ]. Currently, the best strategy to genotype low-frequency (1%<MAF<5%) and rare (MAF<1%) variants is through next generation sequencing, and the increasingly availability of whole genome sequences (WGS) places us in the brink of detecting rare variants associated with complex diseases [ 2 ]. Statistically, this detection constitutes a challenge, as the massive number of rare variants in genomes (for example, 64.7M in 150 Iberian WGSs) would imply genotyping millions/billions of individuals to attain statistical power. In the last couple years, several statistical methods have being tested in the context of association of rare variants with complex traits [ 2 ,  3 ,  4 ], largely testing strategies to aggregate the rare variants. These works have not yet tested the statistical empowerment that can be gained by incorporating reliable biological evidence on the aggregation of rare variants in the most probable functional regions, such as non-coding regulatory regions that control the expression of genes [ 4 ]. In fact, it has been demonstrated that even for common candidate variants, most of these variants (around 88%; [ 5 ]) are located in non-coding regions. If this is true for the common variants detected by the traditional GWAS, it is highly probable to be also true for rare variants.

Social and Urban Studies - Example Research Projects

Our group has an active PhD student community, and every year we admit new PhD students. We welcome applications from across the world. Further information can be found here .

Imaging, Image Processing and Image Analysis - Example Research Projects

Supervisors:  Andrew Elliott , Vinny Davies , Hao Gao Relevant research groups:  Machine Learning and AI ,  Emulation and Uncertainty Quantification ,  Biostatistics, Epidemiology and Health Applications ,  Imaging, Image Processing and Image Analysis

Statistics in Chemistry/Physics - Example Research Projects

Statistics and data analytics education - example research projects.

Our group has an active PhD student community, and every year we admit new PhD students. We welcome applications from across the world. Further information can be found here .

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Home > Statistics > Dissertations, Theses, and Student Work

Statistics, Department of

Department of statistics: dissertations, theses, and student work.

Examining the Effect of Word Embeddings and Preprocessing Methods on Fake News Detection , Jessica Hauschild

Exploring Experimental Design and Multivariate Analysis Techniques for Evaluating Community Structure of Bacteria in Microbiome Data , Kelsey Karnik

Human Perception of Exponentially Increasing Data Displayed on a Log Scale Evaluated Through Experimental Graphics Tasks , Emily Robinson

Factors Influencing Student Outcomes in a Large, Online Simulation-Based Introductory Statistics Course , Ella M. Burnham

Comparing Machine Learning Techniques with State-of-the-Art Parametric Prediction Models for Predicting Soybean Traits , Susweta Ray

Using Stability to Select a Shrinkage Method , Dean Dustin

Statistical Methodology to Establish a Benchmark for Evaluating Antimicrobial Resistance Genes through Real Time PCR assay , Enakshy Dutta

Group Testing Identification: Objective Functions, Implementation, and Multiplex Assays , Brianna D. Hitt

Community Impact on the Home Advantage within NCAA Men's Basketball , Erin O'Donnell

Optimal Design for a Causal Structure , Zaher Kmail

Role of Misclassification Estimates in Estimating Disease Prevalence and a Non-Linear Approach to Study Synchrony Using Heart Rate Variability in Chickens , Dola Pathak

A Characterization of a Value Added Model and a New Multi-Stage Model For Estimating Teacher Effects Within Small School Systems , Julie M. Garai

Methods to Account for Breed Composition in a Bayesian GWAS Method which Utilizes Haplotype Clusters , Danielle F. Wilson-Wells

Beta-Binomial Kriging: A New Approach to Modeling Spatially Correlated Proportions , Aimee Schwab

Simulations of a New Response-Adaptive Biased Coin Design , Aleksandra Stein

MODELING THE DYNAMIC PROCESSES OF CHALLENGE AND RECOVERY (STRESS AND STRAIN) OVER TIME , Fan Yang

A New Approach to Modeling Multivariate Time Series on Multiple Temporal Scales , Tucker Zeleny

A Reduced Bias Method of Estimating Variance Components in Generalized Linear Mixed Models , Elizabeth A. Claassen

NEW STATISTICAL METHODS FOR ANALYSIS OF HISTORICAL DATA FROM WILDLIFE POPULATIONS , Trevor Hefley

Informative Retesting for Hierarchical Group Testing , Michael S. Black

A Test for Detecting Changes in Closed Networks Based on the Number of Communications Between Nodes , Christopher S. Wichman

GROUP TESTING REGRESSION MODELS , Boan Zhang

A Comparison of Spatial Prediction Techniques Using Both Hard and Soft Data , Megan L. Liedtke Tesar

STUDYING THE HANDLING OF HEAT STRESSED CATTLE USING THE ADDITIVE BI-LOGISTIC MODEL TO FIT BODY TEMPERATURE , Fan Yang

Estimating Teacher Effects Using Value-Added Models , Jennifer L. Green

SEQUENCE COMPARISON AND STOCHASTIC MODEL BASED ON MULTI-ORDER MARKOV MODELS , Xiang Fang

DETECTING DIFFERENTIALLY EXPRESSED GENES WHILE CONTROLLING THE FALSE DISCOVERY RATE FOR MICROARRAY DATA , SHUO JIAO

Spatial Clustering Using the Likelihood Function , April Kerby

FULLY EXPONENTIAL LAPLACE APPROXIMATION EM ALGORITHM FOR NONLINEAR MIXED EFFECTS MODELS , Meijian Zhou

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Browsing FAS Theses and Dissertations by FAS Department "Statistics"

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A Grand Journey of Statistical Hierarchical Modelling 

Advances in empirical bayes modeling and bayesian computation , advances in statistical network modeling and nonlinear time series modeling , advances in the normal-normal hierarchical model , analysis, modeling, and optimal experimental design under uncertainty: from carbon nano-structures to 3d printing , bayesian biclustering on discrete data: variable selection methods , bayesian learning of relationships , a bayesian perspective on factorial experiments using potential outcomes , building interpretable models: from bayesian networks to neural networks , causal inference under network interference: a framework for experiments on social networks , complications in causal inference: incorporating information observed after treatment is assigned , diagnostic tools in missing data and causal inference on time series , dilemmas in design: from neyman and fisher to 3d printing , distributed and multiphase inference in theory and practice: principles, modeling, and computation for high-throughput science , essays in causal inference and public policy , expediting scientific discoveries with bayesian statistical methods , exploring objective causal inference in case-noncase studies under the rubin causal model , exploring the role of randomization in causal inference , extensions of randomization-based methods for causal inference , g-squared statistic for detecting dependence, additive modeling, and calibration concordance for astrophysical data .

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Statistics PhD theses

2015 onwards.

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Mathematical Institute

Please note the following topics are only open to Part C Maths, Maths & Phil, Maths & CompSci and OMMS students. For current students please see the full proposals here .

Representations of finite Hecke algebras - Prof D Ciubotaru

Homotopy Type Theory - Prof K Kremnitzer

Integrated Information Theory - Prof K Kremnitzer

Enumerating finite groups - Prof N Nikolov

Hyperquiver Representations - Prof V Nanda

Non-local PDEs and fractional Sobolev - Dr D Gomez-Castro

Fundamental solutions of linear partial differential equations - Prof J Kristensen

Extensions of Lipschitz maps, type and cotype - Dr K Ciosmak

Multi-dimensional Monge-Kantorovick system of PDE's - Dr K Ciosmak

von Neumann Algebras - Prof S White

Geometry, Number Theory and Topology

Modular Forms - Prof A Lauder

Graded rings and projective varieties - Prof B Szendroi

The Hardy-Littlewood Method - Prof B Green

Divergence of finitely generated groups - Dr B Sun

Geometric Class Field Theory - Prof D Rossler

The Semistable Reduction Theorem for Curves over Function Fields - Prof D Rossler

Poisson geometry and symplectic groupoids - Dr F Bischoff

Sieve Methods - Prof J Maynard

Galois Representation - Dr J Newton

Hodge Theory, Morse Theory and Supersymmetry - Prof J Lotay

Number Theory and Random Matrices - Prof J Keating

HKR Character Theory - Dr L Brantner

A bound for the systole of an aspherical manifold - Prof P Papazoglou

Analysis of Boolean Functions - Prof T Sanders

Chabauty techniques in Number Theory - Prof V Flynn

Topics in O-minimality - Prof J Pila

Mathematical Methods and Applications 

Mathematical Modelling of Plant - Prof D Moulton

Magneto-active elastic objects - Combining magnetism with elasticity - Prof D Vella

Modelling aspects of cells and Stokes flows in mathematical biology - Prof E Gaffney

Modelling aspects of cellular signalling beyond the simplest Turing mechanism - Prof E Gaffney

Modelling geothermal boreholes using pertubation methods - Prof I Hewitt

Viscoplastic models for geophysical flows - Prof I Hewitt

The time-elapsed model for neural networks - D P Roux

Dynamics on signed networks - Prof R Lambiotte

Mathematical Physics

The classification of 2d conformal field theories - Prof A Henriques

Scattering Theory - Prof L Mason

Numerical Analysis and Data Science

Machine Learning and Artificial Intelligence In Healthcare - Dr A Kormilitzin

Approximation of functions in a square, cube, and hypercube - Prof N Trefethen

Lightning Helmholtz solver - Prof N Trefethen

Numerical conformal mapping - Prof N Trefethen

Development and Calibration of Models for Pedestrian Dynamics - Dr R Bailo

Numerical Schemes for Crystal Growth - Dr R Bailo

(Randomised) Numerical Linear Algebra - Prof Y Nakatsukasa

Characterizing the structure of networks with discrete Ricci curvature - Dr M Weber

Optimization algorithms for data science - Prof C Cartis

Stochastics, Discrete Mathematics and Information

Random walk in random environment - Prof B Hambly

Blockchains and (Decentralized) Exchanges - Prof H Oberhauser

Bismut formula, Feynman-Kac formula and estimates for second order parabolic equations - Prof Z Qian

Convergence of finite Markov chains on abelian groups - Prof Z Qian

PDF method in turbulence - Prof Z Qian

History of Mathematics

Students wishing to do a dissertation based on the History of Mathematics are asked to contact Brigitte Stenhouse at  @email  by Wednesday of week 1 with a short draft proposal. All decisions will be communicated to students by the end of week 2.

All supported proposals , will then be referred to Projects Committee who meet in week 4 for final approval. With the support of Brigitte Stenhouse students must submit a COD Dissertation Proposal Form to Projects Committee by the end of week 3.

Department of Statistics

Please note that Part C Mathematics and Statistics students MUST select from the list of the below topics. OMMS students are also able to select the Statistics and Probability projects from the Department of Statistics.

It may be possible for a Maths student to complete a Statistics dissertation, however, the priority when allocating will be the Maths & Stats and OMMS students. If you are interested, please email  @email  for more information.

A novel deconvolution method based on entropic optimal transport - Dr G Mena

Applications of Machine Learning to Drug Discovery - Prof G Morris

Bayesian Optimal Experimental Design - Dr T Rainforth

Co-jumping behaviour in time series and financial networks - Prof M Cucuringu

Concentration inequalities and applications - Prof G Deligiannidis

Convergence Complexity for Markov Chain Monte Carlo in High Dimensions - Dr J Yang

Extreme Classification - Prof F Carron

Genealogies of Sequences experiencing Recombination - Prof J Hein

 How many have died due to the COVID-19 pandemic and who was at greatest risk - Prof C Donnelly

Instrumental Variable Estimation with Weak Instruments - Prof F Windmeijer

Kernel-based tests and dependence measures - Prof D Sejdinovic

Mirror Descent and Statistical Robustness - Prof P Rebeschini

Multi-Locus Phase-type Distributions in Population Genetics - Dr A Biddanda

Polygenic scores - Prof R Davies

Protein folding interfaces template the formation of the native state - Dr D Nissley

Quasistationary distributions for Markov processes - Prof D Steinsaltz

Random Recursive Trees - Prof C Goldschmidt

Urn models and applications - Prof M Winkel

Innovative Statistics Project Ideas for Insightful Analysis

Table of contents

• 1.1 AP Statistics Topics for Project
• 1.2 Statistics Project Topics for High School Students
• 1.3 Statistical Survey Topics
• 1.4 Statistical Experiment Ideas
• 1.5 Easy Stats Project Ideas
• 1.6 Business Ideas for Statistics Project
• 1.7 Socio-Economic Easy Statistics Project Ideas
• 1.8 Experiment Ideas for Statistics and Analysis
• 2 Conclusion: Navigating the World of Data Through Statistics

Diving into the world of data, statistics presents a unique blend of challenges and opportunities to uncover patterns, test hypotheses, and make informed decisions. It is a fascinating field that offers many opportunities for exploration and discovery. This article is designed to inspire students, educators, and statistics enthusiasts with various project ideas. We will cover:

• Challenging concepts suitable for advanced placement courses.
• Accessible ideas that are engaging and educational for younger students.
• Ideas for conducting surveys and analyzing the results.
• Topics that explore the application of statistics in business and socio-economic areas.

Each category of topics for the statistics project provides unique insights into the world of statistics, offering opportunities for learning and application. Let’s dive into these ideas and explore the exciting world of statistical analysis.

Top Statistics Project Ideas for High School

Statistics is not only about numbers and data; it’s a unique lens for interpreting the world. Ideal for students, educators, or anyone with a curiosity about statistical analysis, these project ideas offer an interactive, hands-on approach to learning. These projects range from fundamental concepts suitable for beginners to more intricate studies for advanced learners. They are designed to ignite interest in statistics by demonstrating its real-world applications, making it accessible and enjoyable for people of all skill levels.

Need help with statistics project? Get your paper written by a professional writer Get Help Reviews.io 4.9/5

AP Statistics Topics for Project

• Analyzing Variance in Climate Data Over Decades.
• The Correlation Between Economic Indicators and Standard of Living.
• Statistical Analysis of Voter Behavior Patterns.
• Probability Models in Sports: Predicting Outcomes.
• The Effectiveness of Different Teaching Methods: A Statistical Study.
• Analysis of Demographic Data in Public Health.
• Time Series Analysis of Stock Market Trends.
• Investigating the Impact of Social Media on Academic Performance.
• Survival Analysis in Clinical Trial Data.
• Regression Analysis on Housing Prices and Market Factors.

Statistics Project Topics for High School Students

• The Mathematics of Personal Finance: Budgeting and Spending Habits.
• Analysis of Class Performance: Test Scores and Study Habits.
• A Statistical Comparison of Local Public Transportation Options.
• Survey on Dietary Habits and Physical Health Among Teenagers.
• Analyzing the Popularity of Various Music Genres in School.
• The Impact of Sleep on Academic Performance: A Statistical Approach.
• Statistical Study on the Use of Technology in Education.
• Comparing Athletic Performance Across Different Sports.
• Trends in Social Media Usage Among High School Students.
• The Effect of Part-Time Jobs on Student Academic Achievement.

Statistical Survey Topics

• Public Opinion on Environmental Conservation Efforts.
• Consumer Preferences in the Fast Food Industry.
• Attitudes Towards Online Learning vs. Traditional Classroom Learning.
• Survey on Workplace Satisfaction and Productivity.
• Public Health: Attitudes Towards Vaccination.
• Trends in Mobile Phone Usage and Preferences.
• Community Response to Local Government Policies.
• Consumer Behavior in Online vs. Offline Shopping.
• Perceptions of Public Safety and Law Enforcement.
• Social Media Influence on Political Opinions.

Statistical Experiment Ideas

• The Effect of Light on Plant Growth.
• Memory Retention: Visual vs. Auditory Information.
• Caffeine Consumption and Cognitive Performance.
• The Impact of Exercise on Stress Levels.
• Testing the Efficacy of Natural vs. Chemical Fertilizers.
• The Influence of Color on Mood and Perception.
• Sleep Patterns: Analyzing Factors Affecting Sleep Quality.
• The Effectiveness of Different Types of Water Filters.
• Analyzing the Impact of Room Temperature on Concentration.
• Testing the Strength of Different Brands of Batteries.

Easy Stats Project Ideas

• Average Daily Screen Time Among Students.
• Analyzing the Most Common Birth Months.
• Favorite School Subjects Among Peers.
• Average Time Spent on Homework Weekly.
• Frequency of Public Transport Usage.
• Comparison of Pet Ownership in the Community.
• Favorite Types of Movies or TV Shows.
• Daily Water Consumption Habits.
• Common Breakfast Choices and Their Nutritional Value.
• Steps Count: A Week-Long Study.

Business Ideas for Statistics Project

• Analyzing Customer Satisfaction in Retail Stores.
• Market Analysis of a New Product Launch.
• Employee Performance Metrics and Organizational Success.
• Sales Data Analysis for E-commerce Websites.
• Impact of Advertising on Consumer Buying Behavior.
• Analysis of Supply Chain Efficiency.
• Customer Loyalty and Retention Strategies.
• Trend Analysis in Social Media Marketing.
• Financial Risk Assessment in Investment Decisions.
• Market Segmentation and Targeting Strategies.

Socio-Economic Easy Statistics Project Ideas

• Income Inequality and Its Impact on Education.
• The Correlation Between Unemployment Rates and Crime Levels.
• Analyzing the Effects of Minimum Wage Changes.
• The Relationship Between Public Health Expenditure and Population Health.
• Demographic Analysis of Housing Affordability.
• The Impact of Immigration on Local Economies.
• Analysis of Gender Pay Gap in Different Industries.
• Statistical Study of Homelessness Causes and Solutions.
• Education Levels and Their Impact on Job Opportunities.
• Analyzing Trends in Government Social Spending.

Experiment Ideas for Statistics and Analysis

• Multivariate Analysis of Global Climate Change Data.
• Time-Series Analysis in Predicting Economic Recessions.
• Logistic Regression in Medical Outcome Prediction.
• Machine Learning Applications in Statistical Modeling.
• Network Analysis in Social Media Data.
• Bayesian Analysis of Scientific Research Data.
• The Use of Factor Analysis in Psychology Studies.
• Spatial Data Analysis in Geographic Information Systems (GIS).
• Predictive Analysis in Customer Relationship Management (CRM).
• Cluster Analysis in Market Research.

Conclusion: Navigating the World of Data Through Statistics

In this exploration of good statistics project ideas, we’ve ventured through various topics, from the straightforward to the complex, from personal finance to global climate change. These ideas are gateways to understanding the world of data and statistics, and platforms for cultivating critical thinking and analytical skills. Whether you’re a high school student, a college student, or a professional, engaging in these projects can deepen your appreciation of how statistics shapes our understanding of the world around us. These projects encourage exploration, inquiry, and a deeper engagement with the world of numbers, trends, and patterns – the essence of statistics.

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The Online Writing Lab at Purdue University houses writing resources and instructional material, and we provide these as a free service of the Writing Lab at Purdue. Students, members of the community, and users worldwide will find information to assist with many writing projects. Teachers and trainers may use this material for in-class and out-of-class instruction.

The Purdue On-Campus Writing Lab and Purdue Online Writing Lab assist clients in their development as writers—no matter what their skill level—with on-campus consultations, online participation, and community engagement. The Purdue Writing Lab serves the Purdue, West Lafayette, campus and coordinates with local literacy initiatives. The Purdue OWL offers global support through online reference materials and services.

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Arts, Humanities, & Social Sciences

Two Penn Ph.D. candidates awarded 2024 Newcombe Doctoral Dissertation Fellowship

The school of arts & sciences awardees are arielle xena alterwaite, who is pursuing a ph.d. in history, and katherine scahill, who is pursuing a ph.d. in music..

Two University of Pennsylvania Ph.D. candidates in the School of Arts & Sciences have been named to the 2024 class of the Charlotte W. Newcombe Doctoral Dissertation Fellowship , administered by the Institute for Citizens & Scholars .

The Newcombe Fellowship, funded by the Charlotte W. Newcombe Foundation , is the largest and most prestigious award for Ph.D. candidates in the humanities and social sciences addressing questions of ethical and religious values in interesting, original, or significant ways. Fellows receive a 12-month award of $31,000 to support the final year of dissertation writing.

Arielle Xena Alterwaite , a Ph.D. candidate in the Department of History , and Katherine Scahill , a Ph.D. candidate in the Department of Music , were named as 2024 Fellows.

Alterwaite’s research explores Haiti’s sovereign debt in the aftermath of the Haitian Revolution in her dissertation, “Empire of Debt: Haiti and France in the Nineteenth-Century Atlantic World.”

“With support from the Newcombe Foundation and its interdisciplinary focus, I look forward to deepening the ways in which I can bring my work to broad audiences,” Alterwaite says. “My hope is that this archivally grounded historical account of Haitian debt in a global context can speak to international activists, legislators, and policymakers who take the ethical ramifications of finance seriously.”

History department chair Sophia Rosenfeld says it’s no surprise that Alterwaite continues to win an extraordinary number of major external fellowships, including, now, the Newcombe.

“For her dissertation, she has taken on a crucial topic in 19th century Atlantic history—the massive debt that a newly independent Haiti owed to the French state—and she has managed both to find brand-new sources for understanding it and to generate new explanations that have real implications for thinking about sovereign debt and reparations for slavery today,” Rosenfeld says.

Scahill’s dissertation, “The gendered politics of religious authority in Thai Buddhism: Voice, embodiment, and sonic efficacy in the movement for female monastic ordination,” is based upon ethnographic fieldwork with three communities of female Buddhist monks (bhikkhunīs) in Thailand. Drawing on the fields of religious studies and music studies, her dissertation investigates the sonic practices bhikkhunīs employ to establish alternate channels of recognition, given that women’s ordination is not accepted at a national level.

“I am honored to have been selected as a 2024 Newcombe Foundation Doctoral Dissertation Fellow. The Fellowship will provide me with the resources and time I need to adequately engage with the stories and practices shared at bhikkhunī monasteries,” Scahill says. “I am truly grateful for this opportunity.”

Timothy Rommen, chair of the music department, says he’s unsurprised that Scahill’s “excellent” work continues to be recognized. 

“Katherine’s dissertation intervenes at the intersections of ethnomusicology, religious studies, and gender studies to explore what she calls efficacious chant. What makes her project so interesting and innovative is her recognition of a set of lacunae within the study of Buddhist chant,” he says. “While text, context, and religious labor have all been explored, very little has been written about the female monastics on which this dissertation is focused or on the role of ‘voice’ within their practice. Katherine zooms in on the ways that chant helps train monks to stabilize their own bodies while also making them aware of the body’s instability. We are all convinced that Katherine’s dissertation will make a signal contribution to several disciplines.”

Funding at the dissertation stage remains a vital way to support up-and-coming scholars. Since its creation in 1981, the Fellowship has supported more than 1,300 doctoral candidates with essential time and resources to complete their writing. Newcombe Fellows have gone on to be noted faculty at domestic and foreign institutions, leaders in their fields of study, Pulitzer Prize winners, MacArthur Fellows, and more.

Class of 2025 relishes time together at Hey Day

Picturing artistic pursuits

Hundreds of undergraduates take classes in the fine arts each semester, among them painting and drawing, ceramics and sculpture, printmaking and animation, photography and videography. The courses, through the School of Arts & Sciences and the Stuart Weitzman School of Design, give students the opportunity to immerse themselves in an art form in a collaborative way.

Campus & Community

Penn celebrates operation and benefits of largest solar power project in Pennsylvania

Solar production has begun at the Great Cove I and II facilities in central Pennsylvania, the equivalent of powering 70% of the electricity demand from Penn’s academic campus and health system in the Philadelphia area.

Education, Business, & Law

Investing in future teachers and educational leaders

The Empowerment Through Education Scholarship Program at Penn’s Graduate School of Education is helping to prepare and retain teachers and educational leaders.

‘The Illuminated Body’ fuses color, light, and sound

A new Arthur Ross Gallery exhibition of work by artist Barbara Earl Thomas features cut-paper portraits reminiscent of stained glass and an immersive installation constructed with intricately cut material lit from behind.

CBC Outstanding Thesis Awards for 2024

CBC congratulates Shinhye Chloe Park, Rei Ellsworth, and Clare Hotze as this years CBC Outstanding Thesis Award recipients!

Shinhye Chloe Park – First Place Read more about Chloe at this page .

Rei Ellsworth – Second Place "I've been very fortunate to grow up in the Tucson community and have an incredible experience with the University of Arizona. I've gotten to meet some really amazing people during my time in college and am grateful for all of the support of my friends and family. I came into undergrad thinking I would be going into healthcare, but during my time on and off campus have realized that I was much more interested in a research setting.

I'm excited to continue working with my lab after graduation and I'm open to any opportunities that will come my way in the future!"

Clare Hotze -Third Place "I have worked in the Tomasiak Lab for the past four years. My research mainly concerns membrane transport protein structure and function. For my senior thesis, I worked alongside a graduate student to investigate the molecular basis of substrate transport by a membrane protein in yeast that helps to  confer resistance to toxic heavy metals to the yeast cell.

Throughout this project and my time in the CBC Department, I learned a lot about biochemistry applications and techniques. I am so grateful for my time in the Tomasiak Lab and the people that mentored me along the way. After graduation, I am attending the University of Kansas Medical School, where I hope to combine my love of research with patient care."

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Passenger Airline Employment Tables March 2024

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Labour force survey, april 2024.

Released: 2024-05-10

April 2024

(monthly change)

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Employment increased by 90,000 (+0.4%) in April, and the unemployment rate was unchanged at 6.1%. The employment rate held steady at 61.4%, following six consecutive monthly declines.

In April, employment rose among core-aged men (25 to 54 years old) (+41,000; +0.6%) and women (+27,000; +0.4%) as well as for male youth aged 15 to 24 (+39,000; +2.8%). There were fewer women aged 55 and older employed ( -1 6,000; -0 .8%), while employment was little changed among men aged 55 and older and female youth (aged 15 to 24).

Employment gains in April were driven by part-time employment (+50,000; +1.4%).

Employment increased in April in professional, scientific and technical services (+26,000; +1.3%), accommodation and food services (+24,000; +2.2%), health care and social assistance (+17,000; +0.6%) and natural resources (+7,700; +2.3%), while it fell in utilities ( -5 ,000; -3 .1%).

Employment increased in Ontario (+25,000; +0.3%), British Columbia (+23,000; +0.8%), Quebec (+19,000 +0.4%) and New Brunswick (+7,800; +2.0%) in April. It was little changed in the other provinces.

Total hours worked rose 0.8% in April and were up 1.2% compared with 12 months earlier.

Average hourly wages among employees increased 4.7% (+$1.57 to $34.95) on a year-over-year basis in April, following growth of 5.1% in March (not seasonally adjusted).

In the spotlight: Over one in four workers (28.4%) have to come into work or connect to a work device at short notice at least several times a month.

Employment rises in April

Employment rose by 90,000 (+0.4%) in April, following little change in March.

The employment rat e—t he proportion of the population aged 15 and older who are employe d—w as unchanged at 61.4% in April, following six consecutive months of declines. On a year-over-year basis, the employment rate was down 0.9 percentage points, as growth in the population aged 15 and older in the Labour Force Survey ( LFS ) (+3.3%; +1.1 million) outpaced employment growth (+1.9%; +377,000).

Employment gains in April were driven by part-time employment (+50,000; +1.4%). On a year-over-year basis, part-time employment was up by 2.9% (+104,000) in April, while full-time employment was up by 1.7% (+273,000).

Chart 1  Employment rate holds steady in April after six consecutive monthly declines

Gains in April driven by private sector employees

Private sector employment rose in April (+50,000; +0.4%) following four consecutive months of little change. There were also more people employed in the public sector (+26,000; +0.6%). On a year-over-year basis, public sector employment was up by 208,000 in April (+4.9%), outpacing growth in the private sector (+190,000; +1.4%).

Self-employment was little changed in April, both in the month and on a year-over-year basis.

Employment rises among core-aged men and women as well as male youth

Employment rose among core-aged men in April (+41,000; +0.6%), the third consecutive monthly increase. Gains in April were driven by full-time work (+45,000; +0.7%). The employment rate for core-aged men was 87.3% in April, little changed in the month but down 0.5 percentage points on a year-over-year basis.

Among core-aged women, employment increased by 27,000 (+0.4%) in April, driven by part-time work (+22,000; +2.2%). Despite the increase in part-time employment in the month, more core-aged women worked full-time compared with 12 months earlier (+148,000; +2.8%), while the number working part-time was little changed. The employment rate for core-aged women was 81.4%, virtually unchanged in April but down 0.4 percentage points on a year-over-year basis.

Employment among youth aged 15 to 24 rose by 40,000 (+1.5%) in April, reflecting an increase among young men (+39,000; +2.8%). This was the first monthly increase for youth employment since December 2022. The youth employment rate in April (55.5%) was up 0.5 percentage points from March, but was down 3.7 percentage points compared with the same month in 2023. On a year-over-year basis, the employment rate was down 4.9 percentage points to 55.2% for young women in April 2024 and down 2.7 percentage points to 55.7% for young men.

There were fewer women aged 55 and older employed in April ( -1 6,000; -0 .8%), lowering their employment rate 0.3 percentage points to 29.8%. For men aged 55 and older, employment was little changed and their employment rate was virtually unchanged at 39.9%.

Unemployment rate holds steady in April

The unemployment rate was unchanged at 6.1% in April, following an increase of 0.3 percentage points in March. The rate in April was up 1.0 percentage points compared with 12 months earlier.

There were 1.3 million unemployed people in April, little changed from the previous month (+17,000; +1.3%). This follows a cumulative increase of 96,000 (+7.8%) in February and March. Compared with 12 months earlier, the number of unemployed people was up by 256,000 (+23.7%) in April.

The labour force participation rat e—t he proportion of the population aged 15 and older who were employed or looking for wor k—r ose 0.1 percentage points to 65.4% in April. This was the first increase since June 2023.

Chart 2  Unemployment rate unchanged at 6.1% in April

Unemployment rates up across all major demographic groups over the previous 12 months

While the overall unemployment rate was unchanged from March to April 2024, it decreased by 0.1 percentage points among people aged 25 to 54 and rose 0.2 percentage points among people aged 55 and older. The unemployment rate was little changed among youth.

Compared with 12 months earlier, unemployment rates were higher among all major demographic groups. The largest increase was among youth; their rate increased 2.9 percentage points to 12.8%, marking the highest unemployment rate for youth since July 2016, excluding 2020 and 2021, during the COVID -1 9 pandemic. On a year-over-year basis, the unemployment rate was up for both young women (+3.5 percentage points to 12.6%) and young men (+2.3 percentage points to 13.0%).

Compared with 12 months earlier, the unemployment rate in April for those in the core-aged group was up by 0.9 percentage points to 5.4% among men and up by 0.7 percentage points to 4.9% among women.

The unemployment rate also increased among people aged 55 and older on a year-over-year basis. It rose more for women aged 55 and older (+1.0 percentage points to 4.7%) than for men (+0.4 percentage points to 4.7%).

Unemployment rates up on a year-over-year basis among largest racialized groups

In each of the three largest racialized groups in Canada, the unemployment rates for those of core working age (25 to 54 years old) were up on a year-over-year basis.

In the 12 months to April, the unemployment rate rose by 4.4 percentage points to 11.2% for core-aged Black Canadians, by 2.1 percentage points to 6.8% for core-aged South Asians, and by 1.3 percentage points to 7.5% for core-aged Chinese Canadians. In comparison, the unemployment rate rose by 0.3 percentage points to 4.2% over the same period among non-racialized core-aged people (three-month moving averages; not seasonally adjusted).

Employment increases in service-producing industries, led by professional, scientific and technical services

In professional, scientific and technical services, employment increased by 26,000 (+1.3%) in April, following a decrease in March ( -2 0,000; -1 .0%). Over the past 12 months, employment in this industry rose by 88,000 (+4.7%).

There were more people working in accommodation and food services (+24,000; +2.2%) in April, largely offsetting a decrease in March ( -2 7,000; -2 .4%). On a year-over-year basis, employment in this industry was little changed in April and remains below the average employment level observed from 2017 to 2019 ( -9 9,000; -8 .1%).

Employment in health care and social assistance increased by 17,000 (+0.6%) in April 2024, building on an increase of 40,000 (+1.5%) in March. Over the past 12 months, the fastest employment growth has been among people working in hospitals (+9.8%), followed by social assistance (+8.6%) and nursing and residential care facilities (+8.3%) (not seasonally adjusted).

Chart 3  Employment increases the most in professional, scientific and technical services in April

Employment up in Ontario, British Columbia, Quebec and New Brunswick in April

Employment in Ontario increased by 25,000 (+0.3%) in April, building on a cumulative increase of 57,000 (+0.7%) from December 2023 to March 2024. Despite the employment gains, the employment rate in Ontario was little changed in April at 60.6%, and was down 1.6 percentage points on a year-over-year basis. The unemployment rate in Ontario was little changed at 6.8% in April, following increases of 0.3 percentage points in February and 0.2 percentage points in March.

In British Columbia, employment rose by 23,000 (+0.8%) in April, the first significant increase since December 2023. The unemployment rate fell 0.5 percentage points to 5.0% in April 2024. The employment rate in British Columbia was 62.0%, up 0.3 percentage points in the month, and little changed on a year-over-year basis.

Employment in Quebec increased by 19,000 (+0.4%) in April, offsetting the decline in the previous month. This increase was the first significant gain since September 2023. In the 12 months to April 2024, employment in Quebec was little changed, while the working-age population grew by 2.2%. As a result, the employment rate in Quebec fell 0.9 percentage points during the period to 61.4% in April.

Following five months of little change, employment in New Brunswick increased (+7,800; +2.0%) in April and the employment rate rose 0.9 percentage points to 56.9%. The unemployment rate fell 0.8 percentage points in April to 7.0%.

While employment in Alberta was little changed in April, there were more people searching for work, pushing the unemployment rate up 0.7 percentage points to 7.0%.

Map 1  Unemployment rate by province and territory, April 2024

Unemployment rate in Canada continues to trend higher than in the United States

By adjusting Canadian data to US concepts, comparisons can be made between the labour market situation in Canada and in the United States. For more information, see " Measuring Employment and Unemployment in Canada and the United States – A comparison ."

The unemployment rate, adjusted to US concepts, was 5.1% in Canada in April, 1.2 percentage points higher than in the United States (3.9%). On a year-over-year basis, the unemployment rate increased 1.0 percentage points in Canada, while in the United States it rose 0.5 percentage points.

Also adjusted to US concepts, the employment rate was 62.0% in Canada and 60.2% in the United States in April. The employment rate, defined as employment as a percentage of the working-age population, has historically been higher in Canada, but the gap has narrowed in the past year. From April 2023 to April 2024, the employment rate, adjusted to US concepts, fell by 0.8 percentage points in Canada while it was little changed in the United States over the same period.

In the spotlight: More than one in four workers have to come into work, or connect to a work device at short notice at least several times a month

Working time and work-life balance are key dimensions of quality of employment that can impact workers' health, well-being and quality of life.

Some scheduling arrangements, such as flexible start and finishing times , can support the balancing of work and family commitments, while other schedules, such as long working hours , can be more challenging to navigate. An additional dimension of working tim e—t he need to come into work or connect to a work device at short notice to address work demand s—c an put pressure on workers and affect work-life balance.

In April 2024, more than one in four workers (28.4%; population aged 15 to 69) indicated that they had to come into work or connect to a work device at short notice at least several times a month. Proportionally more men (30.5%) reported having to do so than women (26.2%).

Self-employed workers can have a greater ability to choose when they work. However, in April, they were more likely than employees to have to work or connect to a work device at short notice several times a month or more (43.8% compared with 26.3%).

Workers in management occupations, including legislative and senior managers (59.8%) and specialized middle management occupations in health care (55.9%), were particularly likely to have to go into work or connect to a work device at short notice at least several times a month.

In health care occupations, more workers may be expected to physically travel to their work site when called upon to work at short notice. In April, 39.2% of health treating and consultation services professional s—w hich includes physicians and dentist s—h ad to come into work or connect to a work device at short notice several times a month or more. Among paid employees, 30.3% of registered nurses had to come to work or connect to a work device at short notice at least several times a month, a proportion higher than the average for all employees (26.3%).

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Sustainable Development Goals

On January 1, 2016, the world officially began implementation of the 2030 Agenda for Sustainable Development —the United Nations' transformative plan of action that addresses urgent global challenges over the next 15 years. The plan is based on 17 specific sustainable development goals.

The Labour Force Survey is an example of how Statistics Canada supports the reporting on the Global Goals for Sustainable Development. This release will be used in helping to measure the following goals:

  Note to readers

The Labour Force Survey ( LFS ) estimates for April are for the week of April 14 to 20, 2024.

The LFS estimates are based on a sample and are therefore subject to sampling variability. As a result, monthly estimates will show more variability than trends observed over longer time periods. For more information, see " Interpreting Monthly Changes in Employment from the Labour Force Survey ."

This analysis focuses on differences between estimates that are statistically significant at the 68% confidence level.

LFS estimates at the Canada level do not include the territories.

The LFS estimates are the first in a series of labour market indicators released by Statistics Canada, which includes indicators from programs such as the Survey of Employment, Payrolls and Hours ( SEPH ); Employment Insurance Statistics; and the Job Vacancy and Wage Survey. For more information on the conceptual differences between employment measures from the LFS and those from the SEPH , refer to section 8 of the Guide to the Labour Force Survey ( Catalogue number 71-543-G ).

Face-to-face personal interviewing resumed in November 2022. Telephone interviews continued to be conducted by interviewers working from their homes rather than Statistics Canada's call centres, as they have since March 2020. About 50,100 interviews were completed in April 2024 and in-depth data quality evaluations conducted each month confirm that the LFS continues to produce an accurate portrait of Canada's labour market.

The employment rate is the number of employed people as a percentage of the population aged 15 and older. The rate for a particular group (for example, youths aged 15 to 24) is the number employed in that group as a percentage of the population for that group.

The unemployment rate is the number of unemployed people as a percentage of the labour force (employed and unemployed).

The participation rate is the number of employed and unemployed people as a percentage of the population aged 15 and older.

Full-time employment consists of persons who usually work 30 hours or more per week at their main or only job.

Part-time employment consists of persons who usually work less than 30 hours per week at their main or only job.

Total hours worked refers to the number of hours actually worked at the main job by the respondent during the reference week, including paid and unpaid hours. These hours reflect temporary decreases or increases in work hours (for example, hours lost due to illness, vacation, holidays or weather; or more hours worked due to overtime).

In general, month-to-month or year-to-year changes in the number of people employed in an age group reflect the net effect of two factors: (1) the number of people who changed employment status between reference periods, and (2) the number of employed people who entered or left the age group (including through aging, death or migration) between reference periods.

Information on racialized groups

Data on " racialized groups " are derived from the "visible minority" variable. "Visible minority" refers to whether or not a person belongs to one of the visible minority groups defined by the Employment Equity Act . The Employment Equity Act defines visible minorities as "persons, other than Aboriginal peoples, who are non-Caucasian in race or non-white in colour." The visible minority population consists mainly of the following groups: South Asian, Chinese, Black, Filipino, Latin American, Arab, Southeast Asian, West Asian, Korean and Japanese.

Seasonal adjustment

Unless otherwise stated, this release presents seasonally adjusted estimates, which facilitate comparisons by removing the effects of seasonal variations. For more information on seasonal adjustment, see Seasonally adjusted data – Frequently asked questions .

Population growth in the Labour Force Survey

The LFS target population includes all persons aged 15 years and older whose usual place of residence is in Canada, with the exception of those living on reserves, full-time members of the regular Armed Forces and persons living in institutions (including inmates of penal institutions and patients in hospitals and nursing homes).

The LFS target population includes temporary resident s—t hat is, those with a valid work or study permit, their families, and refugee claimant s—a s well as permanent residents (landed immigrants) and the Canadian-born.

Information gathered from LFS respondents is weighted to represent the survey target population using population calibration totals. These totals are updated each month, using the most recently available information on population changes, including changes in the number of non-permanent residents. LFS population calibration totals are derived from Canada's official population estimates using similar sources and methods, with minor adjustments being made to reflect exclusions from the LFS target population.

Next release

The next release of the LFS will be on June 7. May data will reflect labour market conditions during the week of May 12 to 18.

More information about the concepts and use of the Labour Force Survey is available online in the Guide to the Labour Force Survey ( Catalogue number 71-543-G ).

The product " Labour Force Survey in brief: Interactive app " ( Catalogue number 14200001 ) is also available. This interactive visualization application provides seasonally adjusted estimates by province, sex, age group and industry.

The product " Labour Market Indicators, by province and census metropolitan area, seasonally adjusted " ( Catalogue number 71-607-X ) is also available. This interactive dashboard provides customizable access to key labour market indicators.

The product " Labour Market Indicators, by province, territory and economic region, unadjusted for seasonality " ( Catalogue number 71-607-X ) is also available. This dynamic web application provides access to labour market indicators for Canada, provinces, territories and economic regions.

The product Labour Force Survey: Public Use Microdata File ( Catalogue number 71M0001X ) is also available. This public use microdata file contains non-aggregated data for a wide variety of variables collected from the Labour Force Survey. The data have been modified to ensure that no individual or business is directly or indirectly identified. This product is for users who prefer to do their own analysis by focusing on specific subgroups in the population or by cross-classifying variables that are not in our catalogued products.

Contact information

For more information, or to enquire about the concepts, methods or data quality of this release, contact us (toll-free 1-800-263-1136 ; 514-283-8300 ; [email protected] ) or Media Relations ( [email protected] ).

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