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Masters Degrees (Imperial College London)

We have 193 Masters Degrees (Imperial College London)

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MRes in Cancer Biology. Imperial College London. Dept of Histopathology. COURSE CODE. A3CB. http://www1.imperial.ac.uk/medicine/teaching/postgraduate/taughtcourses/mrescancerbiology/. Read more
MRes in Cancer Biology
Imperial College London
Dept of Histopathology
COURSE CODE: A3CB
http://www1.imperial.ac.uk/medicine/teaching/postgraduate/taughtcourses/mrescancerbiology/

Imperial College is ranked in the top five universities of the world, according to the 2007 Times Higher Education Supplement league tables.

This MRes is a 1-year full-time postgraduate course run by the Faculty of Medicine, Dept of Oncology at the Hammersmith Hospital Campus of Imperial College London.

This course is designed both for BSc graduates with a suitable first degree in subjects such as Life Sciences or Biomedical Sciences and clinicians specializing in cancer related fields including medical or clinical oncology wishing to undertake a research degree to further their career in academic medicine.

Course objectives:
1) To provide science or medical graduates with an excellent introduction to the cellular and molecular biological basis of cancer.
2) To enable students to experience some of the most technologically advanced and diverse approaches currently being applied in the broad field of cancer biology through two independent 19-week research projects within the Faculty of Medicine, Imperial College.
3) To introduce students to the research environment, develop the experimental expertise required to embark on an independent research career and provide training in key transferable skills including bioinformatics, and grant writing.
4) To facilitate interactions between clinical and non-clinical scientists, enabling the cross-fertilisation of ideas and approaches bringing about greater understanding and future productive collaboration between scientists with differing backgrounds.

Structure of the MRes in Cancer Biology:
The course comprises an initial eight week taught component in which the cellular and molecular basis of cancer biology are covered plus an introduction to the clinical and pathological aspects of carcinogenesis. Within this period will also be a series of workshops covering key transferable skills such as statistics, bioinformatics and grant writing. This is followed by two separate 19-week research placements in the Faculty of Medicine, Imperial College London.


Career opportunities:
The course is primarily designed to prepare students for an academic or industrial research career, with those students successfully completing the course ideally placed to apply for fellowships and register for a Ph.D.

Entrance requirements:
Applications are welcomed from candidates with a first degree in an appropriate medical or science subject. Candidates are normally expected to hold a good first degree (upper second class or better) from a UK university or an equivalent qualification if obtained outside the UK. In line with Imperial College policy, students for whom English is not their first language will be expected to pass the British council IELTS test at grade 6.0 or above, with a score of 5 or above I each component. An alternative is the TOEFL Internet Based Test (minimal score of 90 overall, with required scores of 20 in Speaking and 24 in Writing).

To apply for a place, go to
https://apply.embark.com/grad/imperial/
For application forms & information regarding course fees:
The Registry, Sherfield Building, Imperial College London, London SW7 2AZ

Places are extremely limited

For informal enquiries please see the course website below or contact the Course Organizer Dr Ernesto Yague at

http://www1.imperial.ac.uk/medicine/teaching/postgraduate/taughtcourses/mrescancerbiology/

Valuing diversity and committed to equality of opportunity
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Home, EU and Overseas applicants hoping to start this course in October 2014 are eligible to apply for the Imperial Faculty of Medicine Master’s Degree Scholarships. This scheme offers a variety of awards, including full tuition payment and a generous stipend. For more information, please visit our website: http://www1.imperial.ac.uk/medicine/prospectivestudents/mastersdegreescholarships/

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Global Innovation Design (GID) is a joint Master's programme between the Royal College of Art and Imperial College London. It is a unique, transnational Master’s design initiative that brings together three major centres of design, culture, enterprise and industry. Read more

Global Innovation Design (GID) is a joint Master's programme between the Royal College of Art and Imperial College London. It is a unique, transnational Master’s design initiative that brings together three major centres of design, culture, enterprise and industry: Europe, North America and Asia. 

GID is a multidisciplinary, multicultural and multinational design programme awarding both an MA from the Royal College of Art and an MSc from Imperial College London to graduates. GID offers an engaging global curriculum and provides powerful cultural experiences crafted to nurture innovators and designers who are prepared to take on the changing needs of enterprise in the twenty-first century. 

GID international partners include Pratt Institute (New York), Keio University (Tokyo), Nanyang Technological University (Singapore) and Tsinghua University (Beijing). Each of these distinctive institutions brings unique expertise and complementary approaches to design, engineering, business and cultural sensitivity, within the context of internationally oriented design innovation. 

The GID vision is to foster a transformative postgraduate experience that is unparalleled in the world, one that cultivates internationally oriented innovation and design leaders who can tackle complex problems and deliver positive social, environmental, economic and cultural change.

The GID ethos is to cultivate activated people, designers and leaders who are capable of making change in the world. Designers on the Global Innovation Design Master's programme will be expected to generate creative directions that other designers and innovators will follow.

The programme is full time and runs over a period of two calendar years. GID Master's candidates on the joint RCA/Imperial College programme begin their course in London for two terms developing their visions and a body of work which will be thematically and regionally developed throughout the next year and a half.

They have the opportunity to study on the New York/Tokyo route or the Beijing/Singapore route during their first and second years. They then return to London for the final two terms of their graduation year. Graduates from the programme are expected to be central to innovation leadership in the twenty-first century. 

Philosophically, GID challenges designers to ask who they are and what is most important to them; as authors of material culture they are asked what kind of world do they wish to create, and what contributions will they make. Global Innovation Designers create transformational culture. At the centre of the programme is the knowledge that transformational culture is engendered by objects and experiences that are the embodiment of the robustly beautiful and the exquisitely functional combined.

The GID Master's programme offers:

  • a double Master's: MA Royal College of Art and MSc Imperial College London – students are fully enrolled at both institutions
  • programme includes study at world renowned institutions: route one, Keio University in Tokyo and the Pratt Institute in New York, and route 2, Tsinghua University in Beijing and Nanyang Technical University in Singapore
  • the first two terms of the first year are in London, where designers participate in the GID London Core
  • a diverse and international mix of students
  • teaching staff who are highly experienced practitioners and work professionally in their field
  • potential enterprise and commercialisation support through the InnovationRCA incubator
  • leadership skills for design-related enterprises operating in international environments
  • high-level graduate destinations: RCA and Imperial alumni work in international corporations, global consultancies as well as new self-started commercial enterprises

London – Tokyo – New York

Study on the Tokyo/New York route route gives access to Keio University, well known for physical computing and social design interventions, as well as Pratt Institute, renowned for a tradition of excellence in industrial design. 

London – Beijing – Singapore

Study on the Beijing/Singapore route gives access to Tsinghua University, China's number one institution with world class design labs and studios, as well as Nanyang Technical University's School of Art, Design, and Media whose cutting edge programmes in new media and cultural and social design innovation situate it as a leader in emerging Asian and Global design.

At Tsinghua University, London-based students will benefit from studying at the top University in China, gaining first-hand experience of the culture of China and designing with both new and traditional materials in the context of emerging Asian design.

At Nanyang Technical University, London-based students will be exposed to a rich and varied Pan-Asian community. NTU offers world-class communication and video production instruction with cultural understanding at the core. NTU is expert in the practice of “value transmigration”, how to translate a culturally specific artefact into a viable product-service-system in a new cultural context.



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The MRes in Biomedical Research. Bacterial Pathogenesis and Infection is a 12 month postgraduate course providing exemplary academic and research training. Read more
The MRes in Biomedical Research: Bacterial Pathogenesis and Infection is a 12 month postgraduate course providing exemplary academic and research training. The Bacterial Pathogenesis and Infection stream is a specialised stream on a larger course (the MRes in Biomedical Research). This programme will provide research training in fundamental aspects of bacterial pathogenesis, host immunity and antibiotic resistance, with particular attention to the scientific, technical and professional acumen required to establish research independence. The emphasis will be on molecular approaches to understanding bacterial infection biology, as a function of bacterial pathogenic strategy and physiology, as well as resistance to host defences and antibiotic therapy, and is comprised of two 20-week research projects embedded within research-intensive groups and a series of lectures, seminars, tutorials and technical workshops.

Based in the MRC Centre for Molecular Bacteriology and Infection, the course provides an opportunity to learn directly from internationally-respected scientists through sustained interaction for the duration of the course. This programme will deliver training in: Molecular microbiology, including integration of molecular and cellular information to understand the genetic basis of virulence; modelling host and microbial aspects of infection to help characterise the host-pathogen interaction and immunity; functionality and physiological relevance of microbial virulence factors; mechanisms of antibiotic resistance and persistence; derivation of mechanistic approaches to problem-solving in molecular and cellular biomedical science.

Course Objectives
The emphasis is on molecular approaches to understanding infection as a function of bacterial pathogenic strategy and physiology. This research-oriented approach to training in biomedical science will comprise both theoretical and practical elements. The course will expose students to the latest developments in the field through two mini-research projects and a series of technical workshops. Students will gain experience in applying technologically advanced approaches to biomedical research questions.

Specifically the course will deliver research training in:

• Molecular bacteriology, integrating molecular and cellular information to understand the genetic basis of microbial virulence.
• Modelling host and microbial aspects of infection to help characterise the host-pathogen interaction and immunity.
• By experimentation, understanding the biochemical functions and physiological relevance of microbial virulence factors and antibiotic resistance.
• Derivation of mechanistic approaches to problem-solving in molecular and cellular biomedical science.

Individuals who successfully complete the course will have developed the ability to:

• Demonstrate practical dexterity in the commonly employed and more advanced practical techniques of molecular and cellular microbiology
• Exercise theoretical and practical knowledge and competence required for employment in a variety of biomedical environments
• Identify appropriate methodology during experimental planning
• Interpret and present scientific data
• Interrogate relevant scientific literature and develop research plans
• Recognise the importance of justifying expenditure (cost and time) during experimental planning
• Recognise potential methodological failings and strategise accordingly
• Perform novel laboratory-based research, and exercise critical scientific thought in the interpretation of findings
• Write and defend research reports, which appraise the results of laboratory based scientific study
• Communicate effectively through writing, oral presentations and IT to facilitate further study or employment in molecular, cellular and physiological science
• Exercise a range of transferable skills

This will be achieved by providing:

• A course of lectures, seminars, tutorials and technical workshops. The programme is underpinned by the breadth and depth of scientific expertise in the participating department.
• Hands-on experience of a wide repertoire of scientific methods
• Two research projects
• Training in core transferable skills

The MRC Centre for Molecular Bacteriology and Infection (Departments of Medicine and Life Science) is located at the South Kensington Campus of Imperial College London. http://www.imperial.ac.uk/mrc-centre-for-molecular-bacteriology-and-infection

Candidates are expected to hold a good first degree (upper second class or better) from a UK university or an equivalent qualification if obtained outside the UK.

Please visit the course website for more information about how to apply, and for more information about the various streams of specialism which run within the course.

Early application is strongly advised. Please note that while applications can be considered after receipt of one recent reference, two will be required as standard for confirmation of acceptance by College.

If you have any questions, please contact:

Kylie Glasgow
Manager, Centre for Molecular Bacteriology and Infection
Imperial College London
London, SW7 2AZ
E-mail

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Home, EU and Overseas applicants hoping to start this course in October 2017 will be eligible to apply for the Faculty of Medicine Dean's Master’s Scholarships. This scheme offers a variety of awards, including full tuition payment and a generous stipend. For more information, please visit http://www.imperial.ac.uk/medicine/study/postgraduate/deans-masters-scholarships/. Applications for 2017 are not yet open (do check the website again early in the new year).

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The intercollegiate Transport with Sustainable Development MSc, offered in conjunction with Imperial College London, brings together the transport research and training capabilities of the civil engineering departments of the two universities. Read more
The intercollegiate Transport with Sustainable Development MSc, offered in conjunction with Imperial College London, brings together the transport research and training capabilities of the civil engineering departments of the two universities. Students benefit from the multi-disciplinary expertise of both departments and their 45 years' experience as leaders in this field.

See the website http://www.ucl.ac.uk/prospective-students/graduate/taught/degrees/transport-sustainable-development-msc

Key Information

- Application dates
All applicants:
Open: 5 October 2015
Close: 29 July 2016
Fees note: Fees set by Imperial College London

English Language Requirements

If your education has not been conducted in the English language, you will be expected to demonstrate evidence of an adequate level of English proficiency.
The English language level for this programme is: Set by Imperial College London
Further information can be found on http://www.ucl.ac.uk/prospective-students/graduate/life/international/english-requirements .

International students

Country-specific information, including details of when UCL representatives are visiting your part of the world, can be obtained from http://www.ucl.ac.uk/prospective-students/international .

Degree Information

Students gain the skills necessary to incorporate the concepts of sustainable development in all stages of an engineering project's development, together with a systematic understanding of the causes, motivations and means of personal travel and goods movement, and techniques for analysing transport problems and evaluating projects, plans and policies.

Students undertake modules to the value of 90 ECTS Credits.

- Core Modules
Transport and its Context
Quantitative Methods
Transport Economics
Transport Demand and its Modelling
The Concept of Sustainable Development
Sustainable Development and Engineering Innovation
Applying the Principles of Sustainable Development

- Options
Options may include the following:
Highway Engineering
Road Traffic Theory and its Application
Public Transport
Transport Safety and Risk Management
Quantitative Techniques for Transport Engineering and Planning
Advanced Transport Modelling
Understanding and Modelling Travel Behaviour
Transport and the Environment
Intelligent Transport Systems
Design of Accessible Transport Systems
Freight Transport
Air Traffic Management
Ports and Maritime Transport
Urban Street Planning and Design
Roads and Underground Infrastructure: Design, Construction and Maintenance

- Dissertation/report
All students undertake an independent research project which culminates in a special project of 12,000 words.

Teaching and Learning

The programme is delivered through a combination of lectures, seminars, computer-based work and coursework. Assessment is through unseen written examinations, coursework, an individual literature review, presentations and the dissertation focussing on the final project.

Further information on modules and degree structure available on the department web site Transport with Sustainable Development MSc http://www.cege.ucl.ac.uk/teaching/Pages/Postgraduate/Transport.aspx

Funding

This programme offers a number of bursaries, including awards from the Engineering and Physical Sciences Research Council, the Rees Jeffreys Road Fund and the Brian Large Fund.
For further information please visit: www3.imperial.ac.uk/cts/teaching.
Scholarships relevant to this department are displayed (where available) below. For a comprehensive list of the funding opportunities available at UCL, including funding relevant to your nationality, please visit the Scholarships and Funding website http://www.ucl.ac.uk/prospective-students/scholarships .

- Brown Family Bursary - NOW CLOSED FOR 2015/16 ENTRY
Value: £15,000 (1 year)
Eligibility: UK students
Criteria: Based on both academic merit and financial need

- Commonwealth Shared Scholarship Scheme (CSSS)
Value: Full fees, flights, stipend, and other allowances (1 year)
Eligibility: Overseas students
Criteria: Based on both academic merit and financial need

- SPDC Niger Delta Postgraduate Scholarship - NOW CLOSED FOR 2015/16 ENTRY
Value: Tuition fees, plus stipend, flights and allowances. (1 year)
Eligibility: Overseas students
Criteria: Based on academic merit

More scholarships are listed on the Scholarships and Funding website http://www.ucl.ac.uk/prospective-students/scholarships

Careers

Transport graduates find employment with transport operators, consultancies, local and central governments in various countries, and in supranational organisations. Many graduates are employed by companies involved in the manufacture of instrumentation, and in companies specialising in software and other services for the engineering industry.

- Employability
Successful completion of this MSc meets the academic requirements for corporate membership of the Chartered Institute of Logistics and Transport. The programme is accredited by the Chartered Institution of Highways and Transportation. The programme is also accredited by the Institution of Civil Engineers as meeting the regulations of the Engineering Council's scheme for enabling graduates without an accredited Bachelor's degree in Civil Engineering to be considered for corporate membership and registration.

Why study this degree at UCL?

The Centre for Transport Studies is an energetic and exciting environment. Students benefit from engaging with the teaching staff who are actively involved in internationally leading research, and advising local, national and international transport agencies.

Both universities are located in the centre of one of the world's most exciting cities, near to relevant professional institutions and transport agencies. London provides a living laboratory in which students can observe many of the problems that they are studying, analyse the success or failure of current approaches to design, and operate and manage them.

Student / staff ratios › 95 staff including 43 postdocs › 200 taught students › 170 research students

Application and next steps

- Applications
Students are advised to apply as early as possible due to competition for places. Those applying for scholarship funding (particularly overseas applicants) should take note of application deadlines.

- Who can apply?
The Transport with Sustainable Development pathway is suitable for students who wish to direct their career towards issues of transport development and redevelopment, especially in the provision of infrastructure, and its renovation and renewal.

For more information see the Applications page http://www3.imperial.ac.uk/cts/teaching .

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INSPIRE (the Innovative Scheme for Postgraduates In Research and Education) is for people with a strong research background who want to qualify as teachers. Read more

INSPIRE (the Innovative Scheme for Postgraduates In Research and Education) is for people with a strong research background who want to qualify as teachers. It's an intensive 10-month PGCE, designed to bridge the gap between STEM research and school science and mathematics by recruiting able researchers who are good communicators, and to develop the relationship between schools and Imperial College London.

As well as gaining a PGCE teaching qualification, participants are involved in INSPIRE activities which they develop with support from academic supervisors at Imperial College London. These activities allow schoolchildren to experience university level research activities, to participate in workshops, clubs and competitions, and to see cutting edge STEM in action with the aim of inspiring them to take their science and mathematics education to the next level.

With very competitive benefits this course will allow you to qualify as a teacher, and begin to address the shortages of science specialists. As a participant, you'll engage with Master’s level research in educational theory and policy. This opens up your potential to go on to hugely influence the educational system within the UK and beyond by linking universities, schools and government bodies in understanding the role science education can play in our society.

Visit the website: https://www.canterbury.ac.uk/study-here/courses/postgraduate/inspire-pgce.aspx

Course detail

• An intensive induction programme throughout September followed by University-based sessions in half-terms and between placements in February.

• Two placements of school practice within two different partner schools allowing rapid development towards the PGCE qualification.

• Integrated INSPIRE activities such as science clubs, competitions, trips, presentations and much more during the first seven months.

• A total of 4 weeks off-timetable in December, National Science Week in March and May-June, delivering outreach in partner schools.

• Master’s level tasks tailored to allow post-grads to analyse how best to bring their scientific expertise into the school context.

• INSPIRE activities are counted as school experience allowing the programme to finish at the end of May. This increases employment opportunities for those that complete the course.

Benefits

Personalised face-to-face support of tutors from Canterbury Christ Church University and mentors within placement schools will allow you to develop effective teaching skills quickly.

A supervisor from Imperial College London will support you in developing activities and partnerships to inspire young minds.

As a member of the programme you'll gain access to a strong network of colleagues within schools and universities – people who will help shape the future of science education

Assessment

Through a portfolio of evidence and academic assignments.

How to apply

For information on how to apply, please follow this link: https://www.canterbury.ac.uk/study-here/how-to-apply/how-to-apply.aspx

Fees and Funding

See our Teacher Education Funding page to discover the scholarships and bursaries available.

View http://www.canterbury.ac.uk/study-here/fees-and-funding/teacher-education-funding.aspx



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The. MSc in Epidemiology at Imperial College London. offers training in the methodology, design, conduct and interpretation of epidemiological studies on chronic and infectious diseases. Read more

The MSc in Epidemiology at Imperial College London offers training in the methodology, design, conduct and interpretation of epidemiological studies on chronic and infectious diseases. The course is based within the School of Public Health.

Epidemiology is the study of the distribution, causes, and possible prevention and control, of diseases in populations.

The MSc in Epidemiology offers training in the methodology, design, conduct and interpretation of epidemiological studies on chronic and infectious diseases. It is particularly suitable for students who wish to acquire skills in epidemiology and biostatistics, and to get involved with research projects.

  • In the first term, all students follow a common core pathway covering epidemiological methods, biostatistics, and infectious and chronic disease epidemiology.
  • Term two modules aim to reflect areas of emerging research as well as providing extended tutoring in core epidemiological and statistical concepts and skills, building upon the knowledge, insight and skills gained in term one.
  • The third term consists of a four-month research project carried out under supervision, possibly in collaboration with other universities and research institutions.

Upon completion of this course, students usually develop an academic career by beginning a PhD, or move on to work for public health organisations, pharmaceutical companies or non-governmental agencies.

Core modules:

INTRODUCTION TO INFECTIOUS DISEASE MODELLING

This module provides an overview of infectious disease modelling and develops skills in designing and analysing infectious disease models for public health policy. Students will be taught how to represent the characteristics of an infectious disease using a mathematical model, how to simulate that model using a computer, and how to analyse that model. Students will also learn how models have been applied in public health policy, and how models are designed to address a research question. Module leader: Dr Nim Pathy.

PRINCIPLES AND METHODS OF EPIDEMIOLOGY

This module ensures students will be familiar with the core concepts of epidemiology and acquire the skills necessary to describe, analyse, interpret and appraise epidemiological studies. Further modules and projects require such knowledge, and a good grasp of these basics is thus essential for successful completion of the degree. Module leaders: Dr Amanda Cross and Dr Filippos Filippidis.

DISEASE MASTERCLASS

This module aims to provide students with an overview of core health challenges and lines of epidemiological research being undertaken, across a range of infectious and non-communicable diseases. Module leader: Professor Tim Hallett.

INTRODUCTION TO STATISTICAL THINKING AND DATA ANALYSIS

The aim of this module is to give students an understanding of the importance of statistical thinking in epidemiology, randomised trials and public health, to enable them to critically evaluate the results of standard statistical analyses published in journal articles and to carry out a range of statistical analyses using R. Module leaders: Dr Victoria Cornelius and Hilary Watt.

Visit the course page to find out more about optional modules and the individual research project.

Course Directors:

Professor Tim Hallett - Professor of Global Health

Dr Amanda Cross - Reader in Cancer Epidemiology



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Statistics is the study of the collection, analysis, interpretation, presentation and organisation of data. Read more

About the course

Statistics is the study of the collection, analysis, interpretation, presentation and organisation of data. Statistical analysis and data analytics is listed as one of the highly desirable skills employers are looking for, and with data becoming an ever increasing part of modern life, the talent to extract information and value from complex data is scarce.

The new Statistics and Data Analytics MSc is designed to train the next generation of statisticians with a focus on the field of data analytics. Employers expect skills in both statistics and computing. This master’s programme will provide a unique and coherent blend of modern statistical methods together with the associated computational skills that are essential for handling large quantities of unstructured data. This programme offers training in modern statistical methodology, computational statistics and data analysis from a wide variety of fields, including financial and health sectors.

Aims

Statistics is the study of the collection, analysis, interpretation, presentation, and organization of data. The aim of the MSc Statistics and Data Analytics is to produce graduates that:

- Are equipped with a range of advanced statistical methods and the associated computational skills for handling large quantities of unstructured data
- Have developed a critical awareness of the underlying needs of industry and commerce through relevant case studies
- Are able to analyse real-world data and to communicate the output of sophisticated statistical models in order to inform decision making processes
- Have the necessary computational skills to build and analyse simple/appropriate solutions using statistical Big Data technologies

Course Content

Compulsory modules:

Quantitative Data Analysis
Research Methods and Case Studies
Computer Intensive Statistical Methods
Modern Regression and Classification
Data Visualisation
Big Data Analytics
Time Series Modelling
Network Models
Dissertation

Statistics with Data Analytics Dissertation
Towards the end of the Spring Term, students will choose a topic for an individual research project, which will lead to the preparation and submission of an MSc dissertation. The project supervisor will usually be a member of the Brunel Statistics or Financial Mathematics group. In some cases the project may be overseen by an external supervisor based in industry or another academic institution..

Teaching

You’ll be taught using a range of teaching methods, including lectures, computer labs and discussion groups. Lectures are supplemented by computer labs and seminars/exercise classes and small group discussions. The seminars will be useful for you to carry out numerical data analysis, raise questions arising from the lectures, exercise sheets, or self-studies in an interactive environment.

The first term provides a thorough grounding in core programming, statistical and data analysis skills. In addition to acquiring relevant statistical and computational methods, students are encouraged to engage with real commercial and/or industrial problems through a series of inspiring case studies delivered by guest speakers. Support for academic and personal growth is provided through a range of workshops covering topics such as data protection, critical thinking, presentation skills and technical writing skills.

You’ll also complete an individual student project supervised by a relevant academic on your chosen topic.

Assessment

The assessment of all learning outcomes is achieved by a balance of coursework and examinations. Assessments range from written reports/essays, group work, presentations through to conceptual/statistical modelling and programming exercises, according to the demands of particular modular blocks. Additionally, class tests are used to assess a range of knowledge, including a range of specific technical subjects.

Special Features

The Statistics Group is a growing, highly-research active group, with collaborations across industry and academia, including engineering and pharmaceutical companies, Cambridge University and Imperial College London

Brunel’s Mathematics department is a member of the London Graduate School in Mathematical Finance. This consortium of mathematical finance groups comprises Birkbeck College, Brunel University London, Imperial College London, King’s College London, London School of Economics and Political Science and University College London. 

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If you're looking for a career in the fight against cancer - this is the course for you. This full-time MRes offers two research projects to give your future career in cancer biology a boost. Read more

Access advanced technology and approaches being used in cancer biology

If you're looking for a career in the fight against cancer - this is the course for you. This full-time MRes offers two research projects to give your future career in cancer biology a boost. With two streams on offer – Cancer Biology, and Cancer Informatics – we have the options available for you to choose the best way for you to use your life-sciences degree to meet your objective. We will provide you with a broad-training in research as well as theoretical and practical skills to help you take the next step in your career.

Streams

There are two streams available:

•Cancer Biology - http://www.imperial.ac.uk/medicine/study/postgraduate/masters-programmes/mres-cancer-biology/
•Cancer Informatics - http://www.imperial.ac.uk/medicine/study/postgraduate/masters-programmes/mres-cancer-biology-cancer-informatics/

Is this programme for you?

You will perform novel laboratory-based research, accumulate experimental findings and exercise critical scientific thought in the interpretation of those findings.

The course comprises both theoretical and practical elements, embracing cutting-edge developments in the field. You will experience some of the most technologically advanced approaches currently being applied to the broad field of cancer research.

As the taught component of the MRes is short, you will be expected to have sufficient lab experience in order to be able you to hit the ground running when you enter the lab.

You will need to be an independent person, who is looking for a challenge. If you're not afraid of hard work then we would welcome an application from you!

Application

Decisions on applications are made in batches, with the following deadlines for each batch:
•09:00 GMT (UTC) Tuesday, 31 January 2017
•09:00 BST (UTC+1) Wednesday, 26 April 2017
•09:00 BST (UTC+1) Monday, 31 July 2017

You will receive notification of a conditional offer or rejection in the weeks following these deadlines. If you do not hear from us, it is because you have been placed on the waiting list. We withhold the right to close application early, so ensure that you submit your application sooner, rather than later.

Please note that we are unable to consider your application without at least one academic reference from your most recent institution.

Programme structure

The course comprises an initial four/five week taught component in which the cellular and molecular basis of cancer biology are covered, plus an introduction to the clinical and pathological aspects of carcinogenesis. This information is contained within the lectures which will partly be on the lecturer's own research, making use of the excellent researchers we have within Imperial College London. Within this period will also be a series of workshops covering key transferable skills such as oral presentation of scientific data and grant writing.

This is followed by two separate research placements of roughly 20 weeks each within the recently created Imperial College Cancer Research UK Centre, the Faculty of Medicine at the Hammersmith Hospital campus of Imperial College, and other collaborating institutes across London (e.g. Institute of Clinical Sciences, The Francis Crick Institute).

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If you're looking for a career in the fight against cancer - this is the course for you. This full-time MRes offers two research projects to give your future career in cancer biology a boost. Read more

Research training at the computational/clinical translational science interface

If you're looking for a career in the fight against cancer - this is the course for you. This full-time MRes offers two research projects to give your future career in cancer biology a boost. With two streams on offer – Cancer Biology, and Cancer Informatics – we have the options available for you to choose the best way for you to use your life-sciences degree to meet your objective. We will provide you with a broad-training in research as well as theoretical and practical skills to help you take the next step in your career.

Streams

There are two streams available:

•Cancer Biology - http://www.imperial.ac.uk/medicine/study/postgraduate/masters-programmes/mres-cancer-biology/
•Cancer Informatics - http://www.imperial.ac.uk/medicine/study/postgraduate/masters-programmes/mres-cancer-biology-cancer-informatics/

Is this programme for you?

You will engage with both theoretical and practical elements. The theoretical elements will include why particular methods are used, assumptions they are based on and understanding the technical limitations and quality control of different data types. The practical elements will include data handling and the computational method employed for each data type.

When you enter your projects, you will perform novel bioinformatics-based research, accumulate experimental findings and exercise critical scientific thought in the interpretation of those findings. The research projects may also include a smaller component of wet-lab experiments to provide some validation of the findings from the bioinformatics research.

You will need to be an independent person, who is looking for a challenge. If you're not afraid of hard work, then we would welcome an application from you.

Application

Decisions on applications are made in batches, with the following deadlines for each batch:
•09:00 GMT (UTC) Tuesday, 31 January 2017
•09:00 BST (UTC+1) Wednesday, 26 April 2017
•09:00 BST (UTC+1) Monday, 31 July 2017

You will receive notification of a conditional offer or rejection in the weeks following these deadlines. If you do not hear from us, it is because you have been placed on the waiting list. We withhold the right to close application early, so ensure that you submit your application sooner, rather than later.

Please note that we are unable to consider your application without at least one academic reference from your most recent institution.

Programme structure

The course comprises an initial four/five week taught component in which the cellular and molecular basis of cancer biology are covered, plus an introduction to the clinical and pathological aspects of carcinogenesis. This information is contained within the lectures which will partly be on the lecturer's own research, making use of the excellent researchers we have within Imperial College London. Within this period will also be a series of workshops covering key transferable skills such as oral presentation of scientific data and grant writing. This is shared with the Cancer Biology stream.

While the Cancer Biology stream move into their first project, you will receive three weeks of specialist training in informatics which is comprised of lectures and workshops. You will then complete an initial assignment before beginning your first research placement of roughly 16 weeks, and then a second project of roughly 20 weeks. These will be within the recently created Imperial College Cancer Research UK Centre, the Faculty of Medicine at the Hammersmith Hospital campus of Imperial College, and other collaborating institutes across London (e.g. Institute of Clinical Sciences, The Francis Crick Institute).

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This MSc is designed for graduates from the physical sciences and relevant engineering disciplines who wish to develop skills in this new and exciting area. Read more

This MSc is designed for graduates from the physical sciences and relevant engineering disciplines who wish to develop skills in this new and exciting area. Nanotechnology is rapidly establishing itself as a key technology, in industries ranging from microelectronics to healthcare, with a consequent demand for appropriately trained graduates.

About this degree

The programme introduces students to and provides training in the skills essential for almost all fields of nanotechnology research, including key laboratory skills and techniques in planning, building devices, analysis, and results comparison. The core lecture programme covers essential topics in physics, electrical and electronic engineering, and biology.

Students undertake modules to the value of 180 credits.

The programme consists of six core modules (75 credits), three optional modules (45 credits) and a research project (60 credits).

A Postgraduate Diploma (120 credits) is offered. The diploma consists of six core modules (75 credits) and three optional modules (45 credits).

Core modules

  • Physical Science for Nanotechnology
  • Nanoscale Processing and Characterisation for Advanced Devices
  • Experimental Techniques for Nanotechnology
  • Nanotechnology and Society
  • Electrical Transport in Nanosystems
  • Photonics in Nanosystems

Optional modules

  • Quantum Computation and Communication
  • Order and Excitations in Condensed Matter
  • Molecular Biophysics
  • Molecular Physics
  • Entrepreneurship: Theory and Practice
  • Bioprocess Microfluidics
  • Physics and Optics of Nano-Structures
  • Materials and Nanomaterials
  • Innovation Practices
  • Physics of Advanced Materials

Dissertation/report

All students undertake an extensive research project on an experimental or theoretical topic which is assessed through an interim report, dissertation and oral examination.

Teaching and learning

The programme is delivered through a combination of lectures, laboratory classes, tutorials and seminars. Student performance is assessed through coursework, laboratory notebooks, case studies, written examination, a dissertation, and written and oral presentations.

Further information on modules and degree structure is available on the department website: Nanotechnology MSc

Careers

Recent graduates have gone on to work as engineers for companies including EDF Energy and Intel, as analysts and consultants for firms including Standard Bank PLC and DN Capital, or to undertake PhD study at the Universities of Oxford, Bath and Glasgow.

Recent career destinations for this degree

  • Business Analyst, Efficio
  • EngD in Molecular Modelling and Materials Science, UCL
  • PhD in Diamond Electronics, UCL
  • Researcher, SCS (Sensor Coating Systems) and studying PhD in Materials, Imperial College London
  • Junior Electronics Engineer, Samsung

Employability

This MSc programme provides a broad and comprehensive coverage of the technological and scientific foundations of nanotechnology, from the basis of the fabrication of nanostructures for advanced device applications, to fundamental quantum information and molecular biophysics, from nanotechnology in life science to nanotechnology in healthcare, and from experimental technology to theoretical modelling. Nanotechnology MSc graduates are expertly equipped either to pursue PhD study or become consultants or engineers in a wide range of nanotechnology fields.

Careers data is taken from the ‘Destinations of Leavers from Higher Education’ survey undertaken by HESA looking at the destinations of UK and EU students in the 2013–2015 graduating cohorts six months after graduation.

Why study this degree at UCL?

The London Centre for Nanotechnology (LCN) is a new UK-based multidisciplinary enterprise operating at the forefront of science and technology.

Forming a bridge between the physical and biomedical sciences, it brings together two of the world's leading institutions in nanotechnology, UCL (University College London) and Imperial College London.

The centre aims to provide leading-edge training in nanotechnology and students on this programme benefit from excellent new facilities, including a £14 million research building furnished with state-of-the art equipment, and a £1 million teaching facility in UCL Electronic & Electrical Engineering.

Accreditation

Accredited by the Institution of Engineering and Technology (IET) on behalf of the Engineering Council as meeting the requirements for Further Learning for registration as a Chartered Engineer. Candidates must hold a CEng accredited BEng/BSc (Hons) undergraduate first degree to comply with full CEng registration requirements.

Research Excellence Framework (REF)

The Research Excellence Framework, or REF, is the system for assessing the quality of research in UK higher education institutions. The 2014 REF was carried out by the UK's higher education funding bodies, and the results used to allocate research funding from 2015/16.

The following REF score was awarded to the department: Electronic & Electrical Engineering

97% rated 4* (‘world-leading’) or 3* (‘internationally excellent’)

Learn more about the scope of UCL's research, and browse case studies, on our Research Impact website.



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Overview. Our MSc in Sustainable Energy Futures aims to develop the next generation of leaders in the energy sector. This course provides a grounding in the major features of global energy issues, sustainable energy technologies, and their interactions with economics, the environment and policy. Read more

Overview

Our MSc in Sustainable Energy Futures aims to develop the next generation of leaders in the energy sector.

This course provides a grounding in the major features of global energy issues, sustainable energy technologies, and their interactions with economics, the environment and policy.

Taking a quantitative approach to the study of technology and systems, the MSc attracts students with engineering and physical science backgrounds, although not exclusively.

It will also appeal to those with post-degree experience who wish to gain a broader, more strategic perspective on energy issues.

The MSc in Sustainable Energy Futures is an internationally unique course. Throughout the year our students have lectures and guidance from experts across all research areas at Imperial College London, as well as leaders from the energy industry.

Combining the academic and industrial experience of the Faculty of Engineering with the Faculty of Natural Sciences and the Imperial College Business School, this course offers a unique multidisciplinary teaching programme.

Careers

The curriculum's focus on a multidisciplinary view of the energy sector means graduates are well placed to work in a diverse range of energy-related areas and are in high demand from employers.

As a graduate of the Sustainable Energy Future course, you will join a network of over 300 fellow Energy Futures Lab alumni who live and work in every corner of the world.

Over 90% of our MSc in Sustainable Energy Futures graduates currently work in the energy sector.

Further information

For full information on this course, including how to apply, see: http://www.imperial.ac.uk/study/pg/mechanical-engineering/sustainable-energy-futures/

If you have any enquiries you can contact our team at:



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Innovation Design Engineering (IDE) is a double Masters that has been run jointly with Imperial College London for over 35 years. It is a leading-edge, creative product development course that involves experimentation, design, engineering and enterprise activities. Read more

Innovation Design Engineering (IDE) is a double Masters that has been run jointly with Imperial College London for over 35 years. It is a leading-edge, creative product development course that involves experimentation, design, engineering and enterprise activities. In multidisciplinary teams or as individuals, participants work at the centre of complex, demanding projects with an emphasis on prototyping and proving propositions. The programme is external facing and encourages all to tackle important real-world issues involving advanced technical, design and social parameters. We believe that design is a verb not a noun.

The programme offers

  • a unique double Master's MA Royal College of Art/MSc Imperial College London (students are fully enrolled at both institutions)
  • a vibrant creative studio space for all MA/MSc students and a new research studio, both situated at the RCA with a diverse and international mix of students
  • teaching staff who are highly experienced practitioners and work professionally in their field
  • multiple commercial connections (recent projects have included Ford, Coca Cola, Airbus, BBC, Unilever, Vodafone (Future agenda), LG, Guzzini)
  • good links and involvement in enterprise and commercialisation teaching or support through Design London Fellowships and InnovationRCA incubator
  • student bursary support through The Royal Commission for the Exhibition of 1851 and the James Dyson Foundation
  • international exchanges, connections and student modules organised annually in different countries (recent visits include India, Japan, Thailand, China and Ghana)
  • graduate destinations, alumni working at high level in businesses such as Apple, Nokia, Philips and self-started commercial enterprises including Takram, Bare Conductive and Omlet.


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Nanotechnology represents a fundamental change in the way we interact with the natural world, and is set to deliver major scientific and technological advances. Read more

Nanotechnology represents a fundamental change in the way we interact with the natural world, and is set to deliver major scientific and technological advances. This flagship course intends to train the next generation of nanotechnologists.

The massive global investment in nanotechnology means that scientists who are trained to work effectively in an interdisciplinary environment that bridges the diverse fields of chemistry, physics, materials science, biology and engineering, will play a vital role in shaping the future.

Combining interdisciplinary teaching with cutting-edge research, this flagship course will train the next generation of nanotechnologists, and provide the background required for a career in industrial or academic research.

You are introduced to nanoscience from material science, physics, chemical and biological perspectives. The course is associated with the London Centre for Nanotechnology, a joint venture between Imperial College London and UCL, allowing a wider choice of collaborative opportunities.

Further information

For full information on this course, including how to apply, see: http://www.imperial.ac.uk/study/pg/chemistry/nanomaterials/

If you have any enquiries you can contact our team at:



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The. MSc in Health Data Analytics and Machine Learning. at Imperial College London is a one-year full-time course aimed at building a solid and common background in analysing health data. Read more

The MSc in Health Data Analytics and Machine Learning at Imperial College London is a one-year full-time course aimed at building a solid and common background in analysing health data.

Your main objective is to develop skills in using appropriate cutting edge quantitative methods to fully exploit complex and high dimensional data.

The course is delivered by the School of Public Health in collaboration with the Data Science Institute, with teaching from both the School and Institute undertaken by international experts with strong methodological background and expertise in the application of these approaches to large-scale medical and clinical data.

Each module and the six-month research project includes project-based work. Projects are based on real data and will address real scientific questions from research staff within School of Public Health, Data Science Institute and industrial partners.

The programme is a full-time 12 month taught Master’s course, which runs from October-September.

The course is divided between six core taught modules and one six-month research project.

In term one, you share your first two modules with MSc Epidemiology and Master of Public Health students, ensuring a common foundation in epidemiology. The third core module is specific to this course.

You will also set and agree a research project focus in your first term.

In term two, you turn your focus to statistical methods in the three remaining core modules, as well as continuing in-depth planning for your research project.

Your third term is predominantly made up of the research project.

Graduates of this course will have acquired the strong methodological background needed to perform in-depth analysis of medical and epidemiological high throughput datasets.

You will graduate prepared to pursue further study at doctoral level, become an expert analyst in industry, and join large data companies.



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Nanotechnology and Regenerative Medicine are rapidly expanding fields with the potential to revolutionise modern medicine. This cross-disciplinary programme provides students with a robust scientific understanding in these fields, combined with a "hands-on" practical and translational focus. Read more

Nanotechnology and Regenerative Medicine are rapidly expanding fields with the potential to revolutionise modern medicine. This cross-disciplinary programme provides students with a robust scientific understanding in these fields, combined with a "hands-on" practical and translational focus.

About this degree

This programme will equip students with a critical understanding of:

  • how nanotechnology can be harnessed for the improved detection and treatment of disease
  • the use of stem cells in medicine
  • tissue engineering strategies for tissue regeneration
  • improving biomaterials for directing cell behaviour
  • the regulatory, ethical and commercial hurdles for the translation of these emerging technologies.

Students undertake modules to the value of 180 credits.

The programme consists of five core modules (75 credits), one optional module (15 credits) and a research project (90 credits).

A PG Certificate (60 credits) is offered in Flexible/Modular study mode only, over a maximum two years. The programme consists of two core modules (30 credits) and two optional modules (30 credits).

Core modules

  • Nanotechnology in Medicine *
  • Applied Tissue Engineering *
  • Biomaterials
  • Research Methodologies
  • Practical Bio-Nanotechnology and Regenerative Medicine

*PG Cert - compulsory modules

Optional modules

Choose one of the following options; attendance at the other module is possible but will not be assessed.

  • Stem Cells in Medicine and their Applications in Surgery
  • Translation of Nanotechnology and Regenerative Medicine

Dissertation/report

All students undertake an extensive laboratory-based (90 credits) research project which culminates in a dissertation of c.15,000 words and an individual viva voce.

Teaching and learning

The programme is delivered through a combination of lectures, tutorials, workshops, group discussions, practical sessions, and demonstrations. Assessment is through presentations, problem-solving workshops, written practical reports, coursework, unseen written examinations and the dissertation.

Further information on modules and degree structure is available on the department website: Nanotechnology and Regenerative Medicine MSc

Funding

For a comprehensive list of the funding opportunities available at UCL, including funding relevant to your nationality, please visit the Scholarships and Funding website.

Careers

Student career options and progression during and following the completion of the degree are considered to be of the utmost importance. Personal tutors will offer individual advice and seminars are arranged on a variety of career competencies including CV writing, writing research proposals and positive personal presentation.

Networking with world-leading scientists, new biotechnology CEO's and clinicians is encouraged and enabled throughout the programme. Research output in terms of publishing papers and presenting at conferences is also promoted. 

Recent career destinations include:

  • Studying PhDs or Medicine at UCL, Imperial College London and Universities of Oxford and Cambridge
  • Clinical PhD training programmes
  • NHS hospitals in the UK
  • EU and overseas hospitals and research facilities

Recent career destinations for this degree

  • Data Integrity Analyst, IMS Health
  • Medical Device Analyst, GlobalData
  • Tissue Processing Specialist Consultant, UCL
  • PhD in Applied Engineering, Universidad de Navarra (University of Navarra)
  • PhD in Bioengineering, Imperial College London

Employability

Graduates of the programme gain the transferable laboratory, critical and soft skills, such as science communication, necessary to pursue a scientific or clinical research career in the fields of nanomedicine and regenerative medicine.

Careers data is taken from the ‘Destinations of Leavers from Higher Education’ survey undertaken by HESA looking at the destinations of UK and EU students in the 2013–2015 graduating cohorts six months after graduation.

Why study this degree at UCL?

Based within the world-leading medical research environment of the UCL Division of Surgery & Interventional Science this MSc retains a clinical focus and addresses real medicine needs. Students learn about the route of translation from research ideas into actual products which can benefit patients.

An in-depth laboratory-based research project is an integral component of the programme; expert support allows students to investigate cutting-edge projects and thereby open up opportunities for further research and publications.

Students are embedded within the vibrant research community of the Faculty of Medical Sciences which provides students - through research seminars, symposia and eminent guest lecturers - outstanding networking opportunities within the research, clinical and translational science communities.



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