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Our Probability and Statistics research groups have a long-standing reputation and experience of offering this one year, high quality taught course in areas of Statistics leading to the degree of MSc. Read more
Our Probability and Statistics research groups have a long-standing reputation and experience of offering this one year, high quality taught course in areas of Statistics leading to the degree of MSc.

This course offers a thorough professional training which prepares students to embark on statistical careers in a variety of areas. There is a shortage of statisticians trained to postgraduate level in the UK and the employment prospects for such people remain good. The course also provides a very good foundation for further study at PhD level.

Our newly revised MSc programme in Statistics allows students to take one of two different MSc degrees, depending on their interests and career aspirations. There is the main programme in Statistics and an associated pathway in Financial Statistics. Each is built around a common core of five units and then students study an additional set of three specialist units to make a total of eight in all.

Main Statistics pathway

Semester one
•Linear Models and Nonparametric Regression
•Statistical Computing
•Statistical Inference
•Multivariate Statistics

Semester two
•Generalized Linear Models and Survival Analysis
•Longitudinal Data Analysis
•Markov Chain Monte Carlo (MCMC)
•Design and Analysis of Experiments

This degree is accredited by the Royal Statistical Society.

Financial Statistics pathway

This comprises a core of five course units which are common to the main course, plus three specialist course units in financial statistics.

Semester one
•Linear Models and Nonparametric Regression
•Statistical Computing
•Statistical Modelling in Finance
•Extreme Values and Financial Risk

Semester two
•Generalized Linear Models and Survival Analysis
•Longitudinal Data Analysis
•Markov Chain Monte Carlo (MCMC)
•Time Series Analysis and Financial Forecasting

This degree is accredited by the Royal Statistical Society.

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This programme provides an exciting opportunity to gain intensive training in the psychology of individual differences by a large team of world-class researchers. Read more

Programme description

This programme provides an exciting opportunity to gain intensive training in the psychology of individual differences by a large team of world-class researchers.

It provides advanced graduate-level study in the field of the psychology of individual differences and psychological research skills, and forms a strong basis for further (typically PhD) study.

There are two key subdivisions in the study of human individual differences: personality and mental abilities. Psychology at Edinburgh has a uniquely large number of world-class researchers in both subdivisions.

The programme covers psychometric research methods, the foundations and correlates of human individual differences (including approaches involving information processing, brain-imaging, molecular genetics and biometric models), and the application of individual differences in personality to health. No prior experience of the psychology of individual differences is assumed.

Programme structure

This programme comprises two semesters of taught courses, followed by a research-based dissertation supervised by a member of staff with similar research interests.

Compulsory courses:

Seminar in Cognitive Ability or Cognitive Ageing and Cognitive Epidemiology
Current Topics in Psychological Research
Multivariate Statistics and Methodology Using R
Professional and Generic Psychological Research Concepts and Research Design
Psychological Research Skills
Univariate Statistics and Methodology using R
Seminar in Personality

Option courses may include:

Advanced Statistical Methods: Categorical and Survival Data
Brain Imaging in Neuropsychology
Clinical Neuropsychology
Emotional Intelligence
Evolutionary Psychology
Human Genetics
Bioinformatics
Working with Specialist Psychological Data

Learning outcomes

The programme is aimed primarily at students who are considering advanced research in the area. Students who follow this programme will gain:

-an in-depth understanding of current research issues, research and methodology in the psychology of individuals
-the ability to formulate research questions and apply appropriate research methods to increase understanding of individual differences in human personality and human mental abilities
-advanced understanding of seminal and recent scientific findings relating to the study of human individual differences and the ways in which individual differences are currently being studied or applied
-skills in research management, including managing data and disseminating research in ways consistent with professional practice in the field of individual differences and the normal principles of research ethics
-advanced knowledge of the basic principles of multivariate statistical data analysis techniques (including multiple regression, factor analysis and structural equation modelling) and epidemiological techniques (including logistic regression and survival analyses), and the ability to carry out data analysis on different data sets using appropriate statistical packages
-a firm basis for subsequent advanced specialised research within the psychology of individual differences
-a broad understanding and awareness of issues and findings in the psychology of individual differences through application to other disciplines such as human cognitive neuropsychology, molecular genetics, evolutionary psychology, epidemiology and health psychology

Career opportunities

This programme has been designed to help you progress your research career and offers a firm basis for further postgraduate study.

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International Master's in Statistics - MSc. https://www.kent.ac.uk/courses/postgraduate/163/international-masters-statistics. Read more
International Master's in Statistics - MSc: https://www.kent.ac.uk/courses/postgraduate/163/international-masters-statistics

Overview

The International Master’s in Statistics develops your practical, statistical and computing skills to prepare you for a professional career in statistics or as a solid basis for further research in the area.

The programme has been designed to provide a deep understanding of the modern statistical methods required to model and analyse data. You will benefit from a thorough grounding in the ideas underlying these methods and develop your skills in key areas such as practical data analysis and data modelling.

It has been accredited by the Royal Statistical Society (RSS) and equips aspiring professional statisticians with the skills they need for posts in industry, government, research and teaching. It also enables you to develop a range of transferable skills that are attractive to employers within the public and private sectors.

Students whose mathematical and statistical background is insufficient for direct entry on to the appropriate programme, may apply for this course. The first year of the programme gives you a strong background in statistics, including its mathematical aspects, equivalent to the Graduate Diploma in Statistics. This is followed by the MSc in Statistics.

International Master's in Statistics with Finance - MSc: https://www.kent.ac.uk/courses/postgraduate/164/international-masters-statistics-finance

Overview

This programme, accredited by the Royal Statistical Society (RSS), equips aspiring professional statisticians with the skills they will need for posts in industry, government, research and teaching. It is suitable preparation too for careers in other fields requiring a strong statistical background.

Students whose mathematical and statistical background is insufficient for direct entry on to the appropriate programme, may apply for this course. The first year of the programme gives you a strong background in statistics, including its mathematical aspects, equivalent to the Graduate Diploma in Statistics. This is followed by the MSc in Statistics with Finance.

About the School of Mathematics, Statistics and Actuarial Science (SMSAS)

The School has a strong reputation for world-class research and a well-established system of support and training, with a high level of contact between staff and research students. Postgraduate students develop analytical, communication and research skills. Developing computational skills and applying them to mathematical problems forms a significant part of the postgraduate training in the School. We encourage all postgraduate statistics students to take part in statistics seminars and to help in tutorial classes.

The Statistics Group is forward-thinking, with varied research, and received consistently high rankings in the last two Research Assessment Exercises.

Statistics at Kent provides:

- a programme that gives you the opportunity to develop practical, mathematical and computing skills in statistics, while working on challenging and important problems relevant to a broad range of potential employers

- teaching and supervision by staff who are research-active, with established reputations and who are accessible, supportive and genuinely interested in your work

- advanced and accessible computing and other facilities

- a congenial work atmosphere with pleasant surroundings, where you can socialise and discuss issues with a community of other students.

Research areas

Biometry and ecological statistics
Specific interests are in biometry, cluster analysis, stochastic population processes, analysis of discrete data, analysis of quantal assay data, overdispersion, and we enjoy good links within the University, including the School of Biosciences and the Durrell Institute of Conservation and Ecology. A recent major joint research project involves modelling the behaviour of yeast prions and builds upon previous work in this area. We also work in collaboration with many external institutions.

Bayesian statistics
Current work includes non-parametric Bayes, inference robustness, modelling with non-normal distributions, model uncertainty, variable selection and functional data analysis.
Bioinformatics, statistical genetics and medical statistics
Research covers bioinformatics (eg DNA microarray data), involving collaboration with the School of Biosciences. Other interests include population genetics, clinical trials and survival analysis.

Nonparametric statistics
Research focuses on empirical likelihood, high-dimensional data analysis, nonlinear dynamic analysis, semi-parametric modelling, survival analysis, risk insurance, functional data analysis, spatial data analysis, longitudinal data analysis, feature selection and wavelets.

Careers

Students often go into careers as professional statisticians in industry, government, research and teaching but our programmes also prepare you for careers in other fields requiring a strong statistical background. You have the opportunity to attend careers talks from professional statisticians working in industry and to attend networking meetings with employers.

Recent graduates have started careers in diverse areas such as the pharmaceutical industry, financial services and sports betting.

Professional recognition

The taught programmes in Statistics and Statistics with Finance provide exemption from the professional examinations of the Royal Statistical Society and qualification for Graduate Statistician status.

Find out how to apply here - https://www.kent.ac.uk/courses/postgraduate/apply/

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These programmes offers the opportunity to begin or consolidate your research career under the guidance of internationally renowned researchers and professionals in the School of Mathematics, Statistics and Actuarial Science (SMSAS). Read more
These programmes offers the opportunity to begin or consolidate your research career under the guidance of internationally renowned researchers and professionals in the School of Mathematics, Statistics and Actuarial Science (SMSAS).

Research interests are diverse and include: Bayesian statistics; bioinformatics; biometry; ecological statistics; epidemic modelling; medical statistics; nonparametric statistics and semi-parametric modelling; risk and queueing theory; shape statistics.

Visit the website https://www.kent.ac.uk/courses/postgraduate/169/statistics

About the School of Mathematics, Statistics and Actuarial Science (SMSAS):

The School has a strong reputation for world-class research and a well-established system of support and training, with a high level of contact between staff and research students. Postgraduate students develop analytical, communication and research skills. Developing computational skills and applying them to mathematical problems forms a significant part of the postgraduate training in the School. We encourage all postgraduate statistics students to take part in statistics seminars and to help in tutorial classes.

The Statistics Group is forward-thinking, with varied research, and received consistently high rankings in the last two Research Assessment Exercises.

Statistics at Kent provides:

- a programme that gives you the opportunity to develop practical, mathematical and computing skills in statistics, while working on challenging and important problems relevant to a broad range of potential employers

- teaching and supervision by staff who are research-active, with established reputations and who are accessible, supportive and genuinely interested in your work

- advanced and accessible computing and other facilities

- a congenial work atmosphere with pleasant surroundings, where you can socialise and discuss issues with a community of other students.

Course structure

The research interests of the group are in line with the mainstream of statistics, with emphasis on both theoretical and applied subjects.

There are strong connections with a number of prestigious research universities such as Texas A&M University, the University of Texas, the University of Otago, the University of Sydney and other research institutions at home and abroad.

The group regularly receives research grants. The EPSRC has awarded two major grants, which support the National Centre for Statistical Ecology (NCSE), a joint venture between several institutions. A BBSRC grant supports stochastic modelling in bioscience.

Research areas

- Biometry and ecological statistics

Specific interests are in biometry, cluster analysis, stochastic population processes, analysis of discrete data, analysis of quantal assay data, overdispersion, and we enjoy good links within the University, including the School of Biosciences and the Durrell Institute of Conservation and Ecology. A recent major joint research project involves modelling the behaviour of yeast prions and builds upon previous work in this area. We also work in collaboration with many external institutions.

- Bayesian statistics

Current work includes non-parametric Bayes, inference robustness, modelling with non-normal distributions, model uncertainty, variable selection and functional data analysis.

- Bioinformatics, statistical genetics and medical statistics

Research covers bioinformatics (eg DNA microarray data), involving collaboration with the School of Biosciences. Other interests include population genetics, clinical trials and survival analysis.

- Nonparametric statistics

Research focuses on empirical likelihood, high-dimensional data analysis, nonlinear dynamic analysis, semi-parametric modelling, survival analysis, risk insurance, functional data analysis, spatial data analysis, longitudinal data analysis, feature selection and wavelets.

Careers

Students often go into careers as professional statisticians in industry, government, research and teaching but our programmes also prepare you for careers in other fields requiring a strong statistical background. You have the opportunity to attend careers talks from professional statisticians working in industry and to attend networking meetings with employers.

Recent graduates have started careers in diverse areas such as the pharmaceutical industry, financial services and sports betting.

Find out how to apply here - https://www.kent.ac.uk/courses/postgraduate/apply/

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Joining the Department as a postgraduate is certainly a good move. The Department maintains strong research in both pure and applied mathematics, as well as the traditional core of a mathematics department. Read more
Joining the Department as a postgraduate is certainly a good move. The Department maintains strong research in both pure and applied mathematics, as well as the traditional core of a mathematics department. What makes our Department different is the equally strong research in fluid mechanics, scientific computation and statistics.

The quality of research at the postgraduate level is reflected in the scholarly achievements of faculty members, many of whom are recognized as leading authorities in their fields. Research programs often involve collaboration with scholars at an international level, especially in the European, North American and Chinese universities. Renowned academics also take part in the Department's regular colloquia and seminars. The faculty comprises several groups: Pure Mathematics, Applied Mathematics, Probability and Statistics.

Mathematics permeates almost every discipline of science and technology. We believe our comprehensive approach enables inspiring interaction among different faculty members and helps generate new mathematical tools to meet the scientific and technological challenges facing our fast-changing world.

The MPhil program seeks to strengthen students' general background in mathematics and mathematical sciences, and to expose students to the environment and scope of mathematical research. Submission and successful defense of a thesis based on original research are required.

Research Foci

Algebra and Number Theory
The theory of Lie groups, Lie algebras and their representations play an important role in many of the recent development in mathematics and in the interaction of mathematics with physics. Our research includes representation theory of reductive groups, Kac-Moody algebras, quantum groups, and conformal field theory. Number theory has a long and distinguished history, and the concepts and problems relating to the theory have been instrumental in the foundation of a large part of mathematics. Number theory has flourished in recent years, as made evident by the proof of Fermat's Last Theorem. Our research specializes in automorphic forms.

Analysis and Differential Equations
The analysis of real and complex functions plays a fundamental role in mathematics. This is a classical yet still vibrant subject that has a wide range of applications. Differential equations are used to describe many scientific, engineering and economic problems. The theoretical and numerical study of such equations is crucial in understanding and solving problems. Our research areas include complex analysis, exponential asymptotics, functional analysis, nonlinear equations and dynamical systems, and integrable systems.

Geometry and Topology
Geometry and topology provide an essential language describing all kinds of structures in Nature. The subject has been vastly enriched by close interaction with other mathematical fields and with fields of science such as physics, astronomy and mechanics. The result has led to great advances in the subject, as highlighted by the proof of the Poincaré conjecture. Active research areas in the Department include algebraic geometry, differential geometry, low-dimensional topology, equivariant topology, combinatorial topology, and geometrical structures in mathematical physics.

Numerical Analysis
The focus is on the development of advance algorithms and efficient computational schemes. Current research areas include: parallel algorithms, heterogeneous network computing, graph theory, image processing, computational fluid dynamics, singular problems, adaptive grid method, rarefied flow simulations.

Applied Sciences
The applications of mathematics to interdisciplinary science areas include: material science, multiscale modeling, mutliphase flows, evolutionary genetics, environmental science, numerical weather prediction, ocean and coastal modeling, astrophysics and space science.

Probability and Statistics
Statistics, the science of collecting, analyzing, interpreting, and presenting data, is an essential tool in a wide variety of academic disciplines as well as for business, government, medicine and industry. Our research is conducted in four categories. Time Series and Dependent Data: inference from nonstationarity, nonlinearity, long-memory behavior, and continuous time models. Resampling Methodology: block bootstrap, bootstrap for censored data, and Edgeworth and saddle point approximations. Stochastic Processes and Stochastic Analysis: filtering, diffusion and Markov processes, and stochastic approximation and control. Survival Analysis: survival function and errors in variables for general linear models. Probability current research includes limit theory.

Financial Mathematics
This is one of the fastest growing research fields in applied mathematics. International banking and financial firms around the globe are hiring science PhDs who can use advanced analytical and numerical techniques to price financial derivatives and manage portfolio risks. The trend has been accelerating in recent years on numerous fronts, driven both by substantial theoretical advances as well as by a practical need in the industry to develop effective methods to price and hedge increasingly complex financial instruments. Current research areas include pricing models for exotic options, the development of pricing algorithms for complex financial derivatives, credit derivatives, risk management, stochastic analysis of interest rates and related models.

Facilities

The Department enjoys a range of up-to-date facilities and equipment for teaching and research purposes. It has two computer laboratories and a Math Support Center equipped with 100 desktop computers for undergraduate and postgraduate students. The Department also provides an electronic homework system and a storage cloud system to enhance teaching and learning.

To assist computations that require a large amount of processing power in the research area of scientific computation, a High Performance Computing (HPC) laboratory equipped with more than 200 high-speed workstations and servers has been set up. With advanced parallel computing technologies, these powerful computers are capable of delivering 17.2 TFLOPS processing power to solve computationally intensive problems in our innovative research projects. Such equipment helps our faculty and postgraduate students to stay at the forefront of their fields. Research projects in areas such as astrophysics, computational fluid dynamics, financial mathematics, mathematical modeling and simulation in materials science, molecular simulation, numerical ocean modeling, numerical weather prediction and numerical methods for micromagnetics simulations all benefit from our powerful computing facilities.

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The course trains students from a variety of academic backgrounds to work as statisticians in various sectors including higher education, research institutions, the pharmaceutical industry, central government and national health services. Read more
The course trains students from a variety of academic backgrounds to work as statisticians in various sectors including higher education, research institutions, the pharmaceutical industry, central government and national health services. It provides training in the theory and practice of statistics with special reference to clinical trials, epidemiology and clinical or laboratory research.

The PSI Andrew Hewett Prize is founded in memory of Andrew Hewett, an alumnus of the School and awarded by the PSI (Statisticians in the Pharmaceutical Industry) to the best student on the course.
Duration: one year full-time or part-time over two years. Modes of study explained.

- Full programme specification (pdf) (http://www.lshtm.ac.uk/edu/qualityassurance/ms_progspec.pdf)

Visit the website http://www.lshtm.ac.uk/study/masters/msms.html

For the MSc Medical Statistics it is preferred that students should normally have obtained a mathematically-based first degree which includes some statistics. Graduates from other fields who have quantitative skills and some familiarity with statistical ideas may also apply.

Any student who does not meet the minimum entry requirement above but who has relevant professional experience may still be eligible for admission. Qualifications and experience will be assessed from the application.

Intercalating this course

(http://www.lshtm.ac.uk/study/intercalate)

Undergraduate medical students can take a year out either to pursue related studies or work. The School welcomes applications from medical students wishing to intercalate after their third year of study from any recognised university in the world.

Why intercalate with us?:
Reputation: The School has an outstanding international reputation in public health & tropical medicine and is at the forefront of global health research. It is highly rated in a number of world rankings including:

- World’s leading research-focused graduate school (Times Higher Education World Rankings, 2013)
- Third in the world for social science and public health (US News Best Global Universities Ranking, 2014)
- Second in UK for research impact (Research Exercise Framework 2014)
- Top in Europe for impact (Leiden Ranking, 2015)

Highly recognised qualification: possessing a Master's from the School will give you a focused understanding of health and disease, broaden your career prospects and allow you to be immersed in research in a field of your choice.

Valuable skills: you will undertake an independent research project (summer project) in your chosen topic, equipping you with research skills that will distinguish you in a clinical environment. While your medical qualification will give you a breadth of knowledge; undertaking an intercalated degree will allow you to explore your main area of interest in greater depth.

Alumni network: the School has a strong international and diverse alumni community, with more than 20,000 alumni in over 180 countries.

MSc vs. BSc: undertaking an MSc is an excellent opportunity to develop in-depth specialist knowledge in your chosen topic and enhance your skills in scientific research. Postgraduate qualifications are increasingly sought after by clinicians and possessing a Masters qualification can assist you in your future career progression.

Objectives

By the end of this course students should be able to:

- select appropriate study designs to address questions of medical relevance

- select and apply appropriate statistical techniques for managing common types of medical data

- use various software packages for statistical analysis and data management

- interpret the results of statistical analyses and critically evaluate the use of statistics in the medical literature

- communicate effectively with statisticians and the wider medical community, in writing and orally through presentation of results of statistical analyses

- explore current and anticipated developments in medical statistics

Structure

Term 1:
All students take five compulsory modules:
- Foundations of Medical Statistics
- Introduction to Statistical Computing (Stata/SAS/R)
- Clinical Trials
- Basic Epidemiology
- Robust Statistical Methods

Terms 2 and 3:
Students take a total of five modules, one from each timetable slot (Slot 1, Slot 2 etc.). The list below shows recommended modules. There are other modules which can only be taken after consultation with the course director.

*Recommended modules

- Slot 1:
Generalised Linear Models (compulsory)

- Slot 2:
Statistical Methods in Epidemiology (compulsory)

- Slot 3:
Analysis of Hierarchical & Other Dependent Data*
Epidemiology of Non-Communicable Diseases
Modelling & the Dynamics of Infectious Diseases
Social Epidemiology

- Slot 4:
Survival Analysis and Bayesian Statistics (compulsory)

- Slot 5:
Advanced Statistical Modelling*
Advanced Statistical Methods in Epidemiology*

Further details for the course modules - http://www.lshtm.ac.uk/study/currentstudents/studentinformation/msc_module_handbook/section2_coursedescriptions/tmst.html

Project Report

During the summer months (July - August), students complete a research project, for submission by early September. This usually consists of analysing a set of data and writing a report, but methodological research can also be undertaken.

Find out how to apply here - http://www.lshtm.ac.uk/study/masters/msms.html#sixth

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This course develops the careers of doctors whose interest is the practice of medicine in tropical and low- and middle-income countries. Read more
This course develops the careers of doctors whose interest is the practice of medicine in tropical and low- and middle-income countries. The course offers a wide choice of modules and provides training in clinical tropical medicine at the Hospital for Tropical Diseases.

The Diploma in Tropical Medicine & Hygiene (DTM&H):
All students going on the MSc will take the Diploma in Tropical Medicine & Hygiene. Students with a prior DTM&H, or holding 60 Masters level credits from the East African Diploma in Tropical Medicine & Hygiene may apply for exemption from Term 1 via accreditation of prior learning.

Careers

Graduates from this course have taken a wide variety of career paths including further research in epidemiology, parasite immunology; field research programmes or international organisations concerned with health care delivery in conflict settings or humanitarian crises; or returned to academic or medical positions in low- and middle-income countries.

Awards

The Frederick Murgatroyd Award is awarded each year for the best student of the year. Donated by Mrs Murgatroyd in memory of her husband, who held the Wellcome Chair of Clinical Tropical Medicine in 1950 and 1951.

- Full programme specification (pdf) (http://www.lshtm.ac.uk/edu/qualityassurance/tmih_progspec.pdf)

Visit the website http://www.lshtm.ac.uk/study/masters/mstmih.html

Objectives

By the end of this course students should be able to:

- understand and describe the causation, pathogenesis, clinical features, diagnosis, management, and control of the major parasitic, bacterial, and viral diseases of developing countries

- demonstrate knowledge and skills in diagnostic parasitology and other simple laboratory methods

- understand and apply basic epidemiological principles, including selecting appropriate study designs

- apply and interpret basic statistical tests for the analysis of quantitative data

- critically evaluate published literature in order to make appropriate clinical decisions

- communicate relevant medical knowledge to patients, health care professionals, colleagues and other groups

- understand the basic sciences underlying clinical and public health practice

Structure

Term 1:
All students follow the course for the DTM&H. Term 1 consists entirely of the DTM&H lectures, seminars, laboratory practical and clinical sessions, and is examined through the DTM&H examination and resulting in the award of the Diploma and 60 Master's level credits at the end of Term 1.

Terms 2 and 3:
Students take a total of five study modules, one from each timetable slot (Slot 1, Slot 2 etc.). Recognising that students have diverse backgrounds and experience, the course director considers requests to take any module within the School's portfolio, provided that this is appropriate for the student.

*Recommended modules

- Slot 1:
Clinical Infectious Diseases 1: Bacterial & Viral Diseases & Community Health in Developing Countries*
Clinical Virology*
Epidemiology & Control of Malaria*
Advanced Immunology 1
Childhood Eye Disease and Ocular Infection
Designing Disease Control Programmes in Developing Countries
Drugs, Alcohol and Tobacco
Economic Evaluation
Generalised Liner Models
Health Care Evaluation
Health Promotion Approaches and Methods
Maternal & Child Nutrition
Molecular Biology & Recombinant DNA Techniques
Research Design & Analysis
Sociological Approaches to Health
Study Design: Writing a Proposal

- Slot 2:
Clinical Infectious Diseases 2: Parasitic Diseases & Clinical Medicine*
Conflict and Health*
Design & Analysis of Epidemiological Studies*
Advanced Diagnostic Parasitology
Advanced Immunology 2
Clinical Bacteriology 1
Family Planning Programmes
Health Systems; History & Health
Molecular Virology; Non Communicable Eye Disease
Population, Poverty and Environment
Qualitative Methodologies
Statistical Methods in Epidemiology

- Slot 3:
Clinical Infectious Diseases 3: Bacterial & Viral Diseases & Community Health in Developing Countries*
Control of Sexually Transmitted Infections*
Advanced Training in Molecular Biology
Applied Communicable Disease Control
Clinical Immunology
Current Issues in Safe Motherhood & Perinatal Health
Epidemiology of Non-Communicable Diseases
Implementing Eye Care: Skills and Resources
Medical Anthropology and Public Health
Modelling & the Dynamics of Infectious Diseases
Nutrition in Emergencies
Organisational Management
Social Epidemiology
Spatial Epidemiology in Public Health
Tropical Environmental Health
Vector Sampling, Identification & Incrimination

- Slot 4:
Clinical Infectious Diseases 4: Parasitic Diseases & Clinical Medicine*
Epidemiology & Control of Communicable Diseases*
Ethics, Public Health & Human Rights*
Global Disability and Health*
Immunology of Parasitic Infection: Principles*
Analytical Models for Decision Making
Clinical Bacteriology 2
Design & Evaluation of Mental Health Programmes
Environmental Epidemiology
Evaluation of Public Health Interventions
Genetic Epidemiology
Globalisation & Health
Molecular Biology Research Progress & Applications
Nutrition Related Chronic Diseases
Population Dynamics & Projections
Reviewing the Literature
Sexual Health
Survival Analysis and Bayesian Statistics
Vector Biology & Vector Parasite Interactions

- Slot 5:
AIDS*
Antimicrobial Chemotherapy*
Mycology*
Advanced Statistical Methods in Epidemiology
Analysing Survey & Population Data
Applying Public Health Principles in Developing Countries
Environmental Health Policy
Integrated Vector Management
Integrating Module: Health Promotion
Molecular Cell Biology & Infection
Nutrition Programme Planning
Pathogen Genomics
Principles and Practice of Public Health

Further details for the course modules - http://www.lshtm.ac.uk/study/currentstudents/studentinformation/msc_module_handbook/section2_coursedescriptions/ttmi.html

Project Report:
During the summer months (July - August), students complete a research project in a subject of their choice, for submission by early September. Projects may involve writing up and analysing work carried out before coming to the School, a literature review, or a research study proposal. Some students gather data overseas or in the UK for analysis within the project. Such projects require early planning.

Students undertaking projects overseas will require additional funding of up to £1,500 to cover costs involved. The majority of students who undertake projects abroad receive financial support for flights from the School's trust funds set up for this purpose.

Find out how to apply here - http://www.lshtm.ac.uk/study/masters/mstmih.html#sixth

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Overview. The MRes courses are designed to provide students with intensive laboratory-based training in research methods, supported by in-depth understanding. Read more
Overview
The MRes courses are designed to provide students with intensive laboratory-based training in research methods, supported by in-depth understanding. The aim is to prepare graduates to make contributions, as individuals and members of a team, to research-oriented activities in the biomedical industries and related service sectors, or academia. The courses are also well-suited to students wishing to upgrade a first degree, change field, or gain valuable laboratory experience before employment or a PhD. The Strathclyde Institute of Pharmacy and Biomedical Sciences represents the largest Pharmacy research group in the UK, with 55% of its staff rated as either world-leading or internationally excellent in terms of originality, significance and rigour (data: Research Assessment Exercise 2008). The University of Strathclyde has invested £30M in a world-class, pioneering centre for biomedical and pharmaceutical sciences teaching and research, opened Aug 2010. Students will find themselves in stimulating, unique environment on account of the strongly multidisciplinary nature of the Institute. Combining fundamental and applied research across the areas of bioscience and pharmacy, SIPBS builds on its record of success in drug and vaccine discovery and development. The Institute engages with industry and the health services, ensuring that its excellent fundamental research is translated into products that are of benefit to health and society. For more information on SIPBS go to http://www.strath.ac.uk/sipbs

Course outline

An MRes degree is focussed on research and students will spend 8 months undertaking a laboratory-based project.
To support their chosen research project, students choose advanced-level taught courses in a named specialisation, from the following areas:

Taught classes delivered through lectures, workshops and practical classes in four areas:
1. Transferable skills training in data mining, interpretation and presentation; experimental planning, personal effectiveness, ethics in research
2. Commercialisation and entrepreneurship
3. MRes-specific classes relevant to subject area

Biomedical Sciences

Example research projects:
1. Antileishmanial activity of extracts and compounds from Monodora myristica
2. Imaging and modelling of cancer development
3. Endothelial progenitor cell expression and differentiation
4. Targeted radiotherapy for cancer
5. The involvement of pulmonary veins in atrial fibrillation: electrical properties
6. Reducing bacterial resistance to antibiotics
7. Development of neural stem cells with increased levels of the autophagy cell survival pathway
8. Investigating the role of Sigma 54 in Pseudomonas aeruginosa virulence
9. Transcriptional network analysis of the Escherichia coli core stress response.
10. Identification of novel anti-microbial compounds targeted at biofilm formation

Drug Delivery systems

Example research projects
1. Nanoparticulate formulations of insulin and their analysis
2. Mesoporous silicas for oral delivery of cyclosporine
3. Bioprocessing of biopharmaceuticals
4. Modified and time-delayed oral solid-dose release formulations
5. Nasal formulations of poorly soluble compounds
6. Reducing bacterial resistance to antibiotics: establishing, optimising and implementing a high throughput assay to discover natural product derived inhibitors of metallo beta-lactamase.
7. Imaging of dermal formulations using Raman microscopy techniques
8. Antileishmanial activity of extracts and compounds from Monodora myristica
9. Anti-trypanosomal active triterpenoids from some African Propolis
10. Investigation into the potential therapeutic properties of marine organisms
11. Photo-triggered adhesion of mammalian cells

Drug Discovery

Projects in the areas of :
1. Drug Delivery
2. Molecular Biology
3. Pharmacology
4. Pharmaceutical Materials and Formulation
5. Toxicology

Neuroscience

Projects in the areas of:
1. Electrophysiology
2. Stem cell biology for regenerative purposes
3. Cell biology
4. Inflammation
5. In vitro culture systems
6. Functional genetics

How to Apply
Applicants should apply through the University of Strathclyde on-line application form: http://pgr.strath.ac.uk indicating "Masters by Research", and named specialisation as appropriate. Applicants are not required to submit a detailed research proposal at this stage.

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MA IN URBAN HISTORY AT THE CENTRE FOR URBAN HISTORY. GENERAL INFORMATION. This course, designed by leading academics in the field, is an exciting and challenging programme, unique in Britain and abroad. Read more
MA IN URBAN HISTORY AT THE CENTRE FOR URBAN HISTORY

GENERAL INFORMATION
This course, designed by leading academics in the field, is an exciting and challenging programme, unique in Britain and abroad. It offers a broad, interdisciplinary introduction to the study of the city from classical antiquity to modern times, enabling students to concentrate on specialist fields including urban archaeology, the history of English towns, Victorian cities, urban topography, the development of town planning, and modern urban problems. The MA uses the unifying theme of the city to explore the social, cultural, political and economic changes brought about by urban growth.

The course will have a strong appeal to historians, archaeologists, local historians, geographers, art historians and all those with an interest in the study of the city and of individual communities.

The MA offers you the opportunity to:
· Study the history of urban society in depth using a multi-disciplinary approach
· Gain training in research methods
· Work with leading researchers in the field of urban history
· Enhance your historical understanding and encourage you to develop your own area of expertise

The skills acquired in research and in presentation are invaluable in many career fields.

DURATION
One year full-time study or two years part-time.

ENTRY REQUIREMENTS
A minimum of a second class honours degree or its equivalent.

COURSE STRUCTURE
Semester 1:
Students take four common courses including a comprehensive survey of European urbanisation - ‘Ancient to Modern European Urban Historiography’, Economic Theory for Historians; and training in research methods and archival research.

Semester 2:
Students take one common module – ‘Introduction to Social Theory’ and two optional modules which (subject to availability)include:


· Victorian Cities looks at some of the following themes: strategies for survival in the city; social segregation, the role of the town council, neighbourhood and community, culture in the city, architecture and decoration, knowledge and power in the city. It makes use of various on-line data sets and involves field trips and a suburban walk.

· Images and Realities: Urban Topography 1540-1840: This module surveys the changing ways in which towns have been depicted and represented through a variety of media such as maps, engravings, travel literature. The course includes a field trip to Bath.

· Vices and Virtues: Behaving and Misbehaving in British Society: This module looks at changing attitudes towards behaviour between 1880 and 1980. It covers a number of vices and virtues including drinking, smoking, cleanliness and manners. A variety of sources are consulted during the course, in particular oral history and autobiography.

· Planning the City – Domesticating the Urban Environment in Europe 1840-1914 explores the major stages by which urban planning developed to regulate and order urban growth, to domesticate the city as a human environment.

· Colonial Cities in British Asia and Africa 1850-1950 focuses on the economic, political and cultural forces that shaped urban life in colonial cities of.
In focusing on the making of urban modernity in the colonial context, it seeks to draw out the comparative dimension of historical processes and ideas that may have originated in Europe but became truly global in reach and scope during the age of empire.


Modules are complemented by field trips to relevant historic sites.

For Further information on the modules see http://www.le.ac.uk/urbanhist/courses.html


DISSERTATION
You will also produce a dissertation. This is an important opportunity for students to develop their own research expertise while working on an approved topic under the direction of a supervisor. The dissertation consists of a maximum of 20,000 words.


TEACHING AND ASSESSMENT
Teaching at the Centre for Urban History is innovative and high quality and conducted by enthusiastic and experienced staff. Each of the course modules is taught primarily in small group seminars. Assessment for modules varies between options. Some are assessed by coursework alone and others by a mixture of coursework and written ‘open’ examination.

FUNDING
The Centre has again received confirmation of its excellence in research training from the Economic and Social Research Council (ESRC) which means that
students can apply for an ESRC 1+3 studentship.
These awards fees plus maintenance for eligible students to undertake a one-year MA degree followed by a PhD. Students may also apply for studentships from the AHRC which operate on a similar basis.

OTHER MA DEGREES OFFERED BY THE CENTRE
The Centre for Urban History also offers a part-time MA in Social History and a full-time MA in European Urbanisation which involves a semester abroad in an European University.

FURTHER INFORMATION
More information about the Centre for Urban History, its facilities and resources, the postgraduate environment and the broad range of workshops, seminars, field trips and summer schools can be seen at http://www.le.ac.uk/urbanhist/
For application forms contact Kate Crispin

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This award-winning programme combines the expertise of anthropologists and biologists to examine primate conservation biology in a broad context, with particular emphasis on the relationships between humans and wildlife in forest and woodland environments. Read more
This award-winning programme combines the expertise of anthropologists and biologists to examine primate conservation biology in a broad context, with particular emphasis on the relationships between humans and wildlife in forest and woodland environments. It provides an international and multidisciplinary forum to help understand the issues and promote effective action.

Whether working in the lab, with local conservation groups (including zoos and NGOs), or in the field, you will find yourself in a collaborative and supportive environment, working with international scholars in primate conservation and gaining first-hand experience to enact positive change.

See the website http://www.brookes.ac.uk/courses/postgraduate/primate-conservation/

Why choose this course?

- A pioneering programme providing scientific, professional training and accreditation to conservation scientists

- Awarded the Queen's Anniversary Prize in 2008

- Opportunity to work alongside leading academics for example Professor Anna Nekaris, Professor Vincent Nijman and Dr Kate Hill

- Excellent learning resources both at Brookes and through Oxford’s museums and libraries including the Bodleian Library, the Radcliffe Science Library, and the Museum of Natural History

- Links with conservation organisations and NGOs, both internationally and closer to home, including Fauna and Flora International, TRAFFIC and Conservation International

- Field trips for MSc students to Apenheul Primate Park in the Netherlands as well as to sanctuaries and zoos in the UK

- A dynamic community of research scholars undertaking internationally recognised and world leading research.

Teaching and learning

Teaching is through a combination of lectures, research seminars, training workshops, tutorials, case studies, seminar presentations, site visits, computer-aided learning, independent reading and supervised research.

Each of the six modules is assessed by means of coursework assignments that reflect the individual interests and strengths of each student. Coursework assignments for six taught modules are completed and handed in at the end of the semester, and written feedback is given before the start of the following semester. A seventh module, the final project, must be handed in before the start of the first semester of the next academic year. It will be assessed during this semester with an examinations meeting at the beginning of February, after which students receive their final marks.

An important feature of the course is the contribution by each student towards an outreach project that brings primate conservation issues into a public arena. Examples include a poster, display or presentation at a scientific meeting, university society or school. Students may also choose to write their dissertation specifically for scientific publication.

Round-table discussions form a regular aspect of the course and enable closer examination of conservation issues through a sharing of perspectives by the whole group.

Careers

This unique postgraduate programme trains new generations of anthropologists, conservation biologists, captive care givers and educators concerned with the serious plight of non-human primates who seek practical solutions to their continuing survival. It provides the skills, knowledge and confidence to enable you to contribute to arresting and reversing the current devastating destruction of our tropical forests and the loss of the species that live in them.

You will be joining a supportive global network of former students working across all areas of conservation in organisations from the BBC Natural History Unit through to the International Union for Conservation of Nature and in roles from keeper and education officer in zoos across the UK and North America to paid researcher at institutes of higher education. Some of our students have even gone on to run their own conservation-related NGOs.

Free language courses for students - the Open Module

Free language courses are available to full-time undergraduate and postgraduate students on many of our courses, and can be taken as a credit on some courses.

Please note that the free language courses are not available if you are:
- studying at a Brookes partner college
- studying on any of our teacher education courses or postgraduate education courses.

Research highlights

Our vibrant research culture is driven by a thriving and collaborative community of academic staff and doctoral students. In the most recent Research Assessment Exercise (RAE) 70% of our work was judged to be of international quality in terms of originality, significance and rigour, with 5% "world leading".

Our strong performance in the RAE, along with our expanding consultancy activities, have enabled us to attract high quality staff and students and helped to generate funding for research projects.

Conservation Environment and Development, comprising several research clusters.

The Nocturnal Primate Research Group specialises in mapping the diversity of the nocturnal primates of Africa, Asia, Madagascar and Latin America through multidisciplinary teamwork that includes comparative studies of anatomy, physiology, behaviour, ecology and genetics. Field studies are helping to determine the origins and distribution of these neglected species, as well as indicating the conservation status of declining forests and woodlands. The NPRG has developed a widespread network of collaborative links with biologists, game wardens, forestry officers, wildlife societies, museums and zoos/sanctuaries.

The Human Interactions With and Constructions of the Environment Research Group develops and trains an interdisciplinary team of researchers to investigate priorities within conservation research - using an interdisciplinary framework in anthropology, primatology, rural development studies, and conservation biology.

The Oxford Wildlife Trade Research Group (OWTRG) aims to quantify all aspects of the trade in wild animals through multidisciplinary teamwork including anthropology, social sciences, natural resource management, biodiversity conservation, environmental economics, and legislation. Their strong focus is on wildlife trade in tropical countries –as this is where most of the world's biodiversity resides and where the impacts of the wildlife trade are arguably the greatest. Recognizing that the wildlife trade is a truly global enterprise they also focus on the role of consumer countries.

The Europe Japan Research Centre (EJRC) organises and disseminates the research of all Brookes staff working on Japan as well as a large number of affiliated Research Fellows.

The Human Origins and Palaeo Environments Research Cluster carries out ground-breaking interdisciplinary research, focussed on evolutionary anthropology and environmental reconstruction and change. The study published in the journal Science reports findings from an eight-year archaeological excavation at a site called Jebel Faya in the United Arab Emirates. Palaeolithic stone tools found at the Jebel Faya were similar to tools produced by early modern humans in east Africa, but very different from those produced to the north, in the Levant and the mountains of Iran. This suggested early modern humans migrated into Arabia directly from Africa and not via the Nile Valley and the Near East as is usually suggested. The new findings will reinvigorate the debate about human origins and how we became a global species.

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This programme is designed to kick-start your career as an actuary, preparing you to take a leading role in managing risk in financial institutions worldwide. Read more
This programme is designed to kick-start your career as an actuary, preparing you to take a leading role in managing risk in financial institutions worldwide. Ranked top job in 2013 (as reported by Wall Street Journal), actuaries are in high demand in light of the need for sound decision making in the ever-changing financial markets. The rewards in terms of job satisfaction and earning potential make this an excellent career choice.

Established in 1972, we were the first UK university to introduce a dedicated programme in Actuarial Science, and have since evolved to become highly renowned as a world-leading centre in actuarial and financial teaching and research.
Exemptions

The programme is fully accredited by the UK Institute and Faculty of Actuaries, offering a valuable opportunity to gain exemptions from the Core Technical (CT1-CT8) examinations. There are 12 courses available which correspond in total to CT1-CT8 of the actuarial professional syllabus. To meet university award requirements you must pass at least 8 of the 12 listed below. To achieve exemption from all of CT1-CT8 you must pass all 12 courses.

Financial Mathematics - CT1
Finance and Financial Reporting - CT2
Economics - CT7
Statistical Methods - CT3
Life Insurance Maths 1 & 2 - CT5
Stochastic Modelling/Survival Models - CT4
Risk Theory/Time Series Analysis - CT6
Financial Economics 1 & 2 - CT8

Our expert staff, many of whom are qualified actuaries, will guide and support you throughout your studies. You will benefit from their extensive business knowledge and research expertise, whilst gaining hands-on experience of solving real-life financial problems through interactive lectures, tutorial sessions and practical coursework. The MSc summer project gives you the opportunity to explore in greater depth the hot topics currently facing business, such as Solvency II and pensions autoenrolment. Our close links to industry through the Scottish Financial Risk Academy also creates the potential for undertaking a summer placement within Edinburgh's thriving financial sector.

We have an excellent record of preparing students for successful careers - recent statistics show that around 90% of our postgraduate students were either in full-time employment or further study within 6 months of graduation. Our students consistently rate us highly - the Sunday Times University Guide 2013 named us "UK University of the Year for Student Experience" as well as "Scottish University of the Year" for the second year running.

We are very proud of our award-winning Students' Actuarial Society which is entirely managed, enthusiastically and professionally, by our students. As well as arranging a series of topical presentations by industry professionals, and popular social events, the Society's highly anticipated Annual Actuarial Conference attracts speakers and attendees from around the world.

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This course provides a broad grounding in advanced statistical methods, with a focus on applications in research, the NHS and the pharmaceutical industry; the course structure also allows mathematicians with some statistical experience to move into this field. Read more

Summary

This course provides a broad grounding in advanced statistical methods, with a focus on applications in research, the NHS and the pharmaceutical industry; the course structure also allows mathematicians with some statistical experience to move into this field.

Modules

Analysis of repeated measures; bayesian methods; biological assay; clinical trials; communications and research skills; computer-intensive statistical methods; design and analysis of experiments; epidemiological studies; generalised linear models; multi-level modelling; multivariate distribution theory and inference; statistical computing; statistical genetics; survival analysis; univariate theory and inference; dissertation.

Visit our website for further information...



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People are at the heart of any organisation, so the ability to manage and develop employees, ensure their welfare and understand changing employment legislation is essential to business survival. Read more
People are at the heart of any organisation, so the ability to manage and develop employees, ensure their welfare and understand changing employment legislation is essential to business survival. The course aims to produce well-rounded human resources practitioners with exemplary knowledge and relevant hands-on experience.

Accredited by the Chartered Institute of Personnel and Development (CIPD), the course is designed to
-Develop a critical appreciation of the theoretical foundations and empirical practice of HRM and IR
-Expose you to a wide variety of organisational practices by use of teaching materials based on high quality contemporary research conducted by lecturers and their own research for an independent individual dissertation
-Enable you to develop practical skills in the subject area to equip you for a career in or further study of the HR/IR field and gives you a grounding in research methods which you can apply appropriately either in the business world or in academic research
-Provide you with the opportunity to gain graduate membership of the CIPD (Chartered Institute of Personnel and Development) which is extremely advantageous in securing a career in HRM.

You have the opportunity to attend skills development workshops run by expert HR practitioners to acquire practical HR skills, to attend a live employment tribunal case, and to undertake a group project in an organisation to develop teamworking and practical HR and research skills.

CIPD Course recognition
This course is approved to the new equivalent advanced level postgraduate standard and you can enhance your studies by taking additional CIPD components that prepare you for CIPD membership. If you decide to do so, you can attend a series of skills workshops, hear from guest speakers, and complete a range of activities enabling you to develop practical HR skills.

You will join CIPD as a student member and on passing all of the modules of the Masters degree (including the dissertation) and the CIPD components, your CIPD membership will be automatically updated to Associate Member. Once you have applied your knowledge in the workplace, you can apply for Chartered membership.

Please note: There is a £450 administrative fee payable to Alliance Manchester Business School on arrival if you choose to register with the CIPD, plus you join the CIPD for two years - the year of your course, and the year of graduation. The current fee to join the CIPD is £178 for the 1st year and £138 for the 2nd year.

If you are particularly interested in international human resource management and /or comparative industrial relations you might like to consider our MSc International Human Resource Management and Comparative Industrial Relations.

Special features

The Business School presents three prizes associated with the CIPD programme. One is for best Portfolio, one for best Management Research Report and one for overall best student. Further details of the prizes will be available during the programme.

Coursework and assessment

Assessment across the course units varies, and includes a combination of examinations, essays, course work, assignment, report and group presentations. A dissertation of between 12,000 and 15,000 words is also normally undertaken.

Course unit details

The course consists of both compulsory and optional taught units. Compulsory course units include:
-Human Resource Management: Strategy and Practice
-Industrial Relations
-Multinationals and Comparative Employment Systems
-Research Methods for Organisations
-Employment Law
-Employment Policy and Practice
-Human Resource Management: Context and Organisation

Optional course units include:
-Comparative Industrial Relations
-Human Resource Management in Asia
-International Human Resource Management
-International Labour Law and Regulation

Career opportunities

Graduates from the programme have gone on to a wide variety of careers and further study, mostly, but not exclusively, in related fields. These include HR consultancy at PwC, HR roles at BP, Deloitte, Tesco, the NHS, Marks and Spencer, Fujitsu Services, Halliwell LLP, local government, Co-operative Insurance, employment law consultancy and lecturing/research.

Accrediting organisations

This Masters is accredited to the new equivalent advanced level postgraduate standard. You will join CIPD as a student member and on completion of the Masters and CIPD components you will have achieved the underpinning knowledge towards a level of professional membership.

Once you have applied your knowledge in the workplace you will be in a position to apply to CIPD for a membership upgrade.

Students wishing to gain CIPD membership attend a series of skills workshops with guests invited from a wide range of companies, to enable them to develop practical HR skills.

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In a world where organisations are under increasing public scrutiny, protecting a company's corporate reputation and sending out the right messages are vital for survival. Read more
In a world where organisations are under increasing public scrutiny, protecting a company's corporate reputation and sending out the right messages are vital for survival. Gain a career in corporate communications, public relations consultancy or in managing corporate brands.

From corporate social responsibility to crisis management, communication is becoming an increasingly major part of business strategy and a growing area of employment. Using the latest research and details of current best practice, you learn how to manage relationships with key stakeholders, including employees, and promote a positive corporate reputation.

Communication specialists who can take a strategic view of business are in high demand and those with a thorough understanding of current communication technology are in short supply. We help to meet that demand by giving you a unique experience combining advanced knowledge of up-to-the-minute communication skills and techniques with case studies and practical examples of best practice. You graduate equipped with analytical tools which can be used across all sectors and will give you a competitive edge in the marketplace.

We have worked to build a course that is tailored to enhance your ability in the job market. We specifically aim to develop an experience that comprises curriculum content, student interaction and building relationships with members of faculty to equip you with the analytical tools and instruments that will allow you to be at the forefront in the marketplace.

Course unit details

The course consists of both compulsory and optional taught units. Compulsory course units include:
-Corporate Communications
-Corporate Reputation Management
-Organisational Communication
-Marketing and Communications Professional Analytics

Optional course units include:
-Business-to-Business Marketing
-Consumer Behaviour
-Corporate Social Responsibility
-Crisis Management
-Customer Experience Management and Relationship Marketing
-Digital Technologies for Marketing
-International Marketing
-Integrated Marketing Communications and Advertising
-Relationship Marketing and Customer Experience Management
-Retail Marketing
-Services Marketing

Career opportunities

Typical areas within organisations and roles that you can aspire to are those related to the strategic management of communications, organisational reputation, public relations or crisis management. These skills are applicable in every sector of economic activity, from industry to service organisations, in the private and public sectors.

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This MSc has a strong theoretical and methodological component to supplement a focus on applications of statistics to real life scientific problems. Read more
This MSc has a strong theoretical and methodological component to supplement a focus on applications of statistics to real life scientific problems. You can opt to follow pathways in medical, pharmaceutical or environmental statistics, depending on your field of interest. Graduates tend to enter careers as practising statisticians, university research assistants or go on to study for a PhD.

For each pathway, you will follow a set of compulsory modules covering core theory and methods, applied statistical modelling and practical skills in topics such as statistical computing, scientific writing, presentation and consultancy. You will also study optional modules tailored to your research interests and career aspirations. Your studies are completed with a supervised, in-depth, dissertation aimed at solving a substantive research question.

Modules
Compulsory modules:
• Statistics in Practice
• Likelihood Inference
• Generalised Linear Models
• Bayesian Inference
• Computational Intensive Methods

Optional modules (choose five from):
• Extreme Value Theory
• Clinical Trials
• Principles of Epidemiology
• Statistical Genetics and Genomics
• Longitudinal Data Analysis
• Pharmacological Modelling
• Survival and Event History Analysis
• Adaptive/Bayesian Methods in Clinical Research
• Environmental Epidemiology

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