Future Autonomous Robotic Systems - FARSCOPE (EPSRC Centre for Doctoral Training)

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Run by Faculty of Engineering
Awards available PhD
Programme length Four years full-time
Part-time study available No, full-time only
Open to international students No
The FARSCOPE CDT programme has no funding for students outside of the EU, but any applications received from self-funded international students will be considered.
Number of places 12
Start date September 2016

Programme overview

FARSCOPE aims to train the next generation of innovators in the growing field of Robotics and Autonomous Systems (RAS), identified as one of the UK’s Eight Great Technologies for future growth. Our four-year programme leads to the award of a joint PhD degree from both the University of Bristol and the University of the West of England. A PhD is a uniquely challenging and rewarding endeavour, especially in a cutting edge field like RAS.

We have enhanced the standard individual PhD in various ways to give you the best possible start on your RAS research and innovation career:

  • Specialist taught modules in a wide variety of RAS technologies to equip you for research
  • Exposure to a diverse range of industry and academic RAS topics to give you a broad view of the potential and context of RAS
  • Cohort-based skills training including enterprise, public engagement, communication and research methods
  • Group projects and industry study workshops to foster creativity, practical skills and integration

You'll have your choice of specialist topics from over 50 academic supervisors.  The centre is based at the Bristol Robotics Lab, the largest specialist robotics laboratory in the UK, plus you'll have access to all the combined facilities of both partner Universities.

NB: If you are applying for this programme please select "Robotics and Autonomous Systems" when completing your online application form.

Fees for 2016/17

Full time fees

UK/EU
£4,121
Overseas
£18,100

Fees quoted are provisional, per annum and subject to annual increase.

Funding for 2016/17

The FARSCOPE CDT programme has funds to support up to ten UK/EU students per year including fees, stipend (at standard RCUK rates), research and travel expenses. The programme has no internal funding for non-EU students, but any applications received from self-funded international students will be considered.

Further information on funding for prospective UK, EU and international postgraduate students.

Programme structure

Year 1

  • Research methods training
  • Seminars in modern robotics methods
  • Robotics, mechanics and programming
  • Robotics context and applications (industry delivered)
  • Robot intelligence and systems
  • Specialist robotics topics (chosen from list of options)
  • Group robot project (eg IMAV contest, robot soccer or Mars rover field test)
  • Initial research project
  • Communications training and research presentation

Year 2

  • PhD research
  • Industry study workshop
  • Innovation and entrepreneurship
  • Complementary skills training

Year 3

  • PhD research
  • Industry study workshop
  • Partner placement (optional: opportunities at partner universities in Europe, Asia, North America or partner companies in the UK and Japan)
  • Public engagement training and group activity

Year 4

  • PhD research
  • Complementary skills training (including thesis preparation)
  • FARSCOPE conference presentation

Dissertation

You will start working on your initial research project in your second semester, leading to a dissertation completed at the end of your first year. You then progress to your major PhD research project, for which you may choose to continue your initial project or to pursue a new topic.

Entry requirements

An upper second-class honours degree in an Engineering, Physics, Mathematics or related subject. Other disciplines will be considered on a case-by-case basis. 

Students who have completed our MSc in Robotics may be considered, on a case-by-case basis, for direct entry into Year Two of the FARSCOPE programme. This will be subject to interview including a qualifying presentation on research.

See international equivalent qualifications on the International Office website.

Selection process Online application form and interview
English language requirements Profile E
Further information about English language requirements
Admissions statement Read the programme admissions statement for important information on entry requirements, the application process and supporting documents required.
How to apply
Application deadline:

The first round of applications will be considered in December 2015. Shortlisted applicants will be invited for interviews in February 2016. Any applications received after February will still be considered.

Research groups

Research themes at Bristol Robotics Laboratory

The Bristol Robotics Laboratory is involved in a wide range of robotics research projects both nationally and internationally. Our research portfolio spans over a number of different themes as follows:

Aerial Robots: Research into intelligent aircraft, including autonomous Micro Air Vehicles, specializing in their guidance and control.

Assisted Living: Research into interactive assistive robots and smart sensor systems to realise person-focused innovative assistive care solutions for supporting independent living.

Bioenergy & Self Sustainable Systems: Research into overcoming the energy barrier to deployment of autonomous robots in remote areas utilising microbial fuel cells.

Biomimetic and Neuro-robotics: Developing robots that can operate in challenging environments, beyond the limitations of conventional sensory devices.

Medical Robotics: Robotic technology is able to provide precise and accurate sensing and movement capabilities, thus improving patient and surgeon experience.

Non-linear Robotics: Research towards bringing future generations of humans and humanoid robots together, which requires safe interaction of humans with robots.

Robot Vision: Developing robots that are able to view, analyse what they see and make decisions in response to instructions by humans.

Safe Human-Robot Interaction: Investigating the aspect of physical and behavioural safety, to enable safe human-robot Interaction, thus ensuring a robot is capable of performing cooperative tasks with humans.

Self-Repairing Robotic Systems: Self-healing cellular architectures for biologically-inspired highly reliable electronic systems. Drawing inspiration from nature in how it deals with complex versus unreliable issues.

Smart Automation: Research into the next generation of advanced robotics engineering systems. Robots that can make human-like decisions whilst carrying out manufacturing process.

Soft Robotics: Soft robotics seeks to make robots that are soft, flexible and compliant, just like biological organisms.

Swarm Robotics: A combination of environmental, social and internal cues could result at the group level in components believed to be important in the emergence of self-organised behaviour.

Unconventional Computation in Robots: Drawing inspiration from nature to address the issues of distributed manipulation in the micro-scale.

Verification and Validation for Safety in Robots: Investigating all aspects of safety for verification and validation purposes and to enable safe human-robot Interaction in cooperative tasks.

Careers

Students graduating from this programme will be suited to careers in industry, as ambassadors for robotics across many different sectors, or starting their own enterprises.

Staff profiles

Yuying Xia, (Senior Lecturer, Aerospace, UWE)

Professor Andrew Adamatzky, (Professor in Unconventional Computing, University of the West of England, Bristol, UWE), Chemical robotics; living controller for robots; unconventional computing.

Dr Kazem Alemzadeh, (Senior Lecturer), Mechatronics and robotics.

Dr Tareq Assaf, (Research Fellow, Environment and Technology, UWE), Soft Robotics.

Dr Gary Atkinson, (Senior Lecturer Engineering, Design and Mathematics, UWE), Machine vision.

Dr Lucy Berthoud, (Senior Teaching Fellow), Spacecraft systems engineering.

Mr Paul Bremner, (Research Fellow)

Professor David Bull, (Professor), Vision.

Professor Stuart Burgess, (Professor), Bio-inspired design and robotics.

Dr Tilo Burghardt, (Lecturer), Applied computer vision; visual animal biometrics.

Dr Jeremy Burn, (Reader), Biomechanics and locomotion.

Dr Steve Burrow , (Reader), Energy harvesting.

Dr Praminda Caleb-Solly, (Senior Lecturer), User experience design.

Dr Andrew Calway, (Reader), Energy harvesting.

Mr Andrew Charlesworth, (Reader), Law and IT.

Dr Andrew Conn, (Lecturer), Flapping wing vehicles; soft robotics.

Professor Ian Craddock, (Professor), Communications.

Mr Farid Dailami, (Senior Lecturer in Engineering Design & Mathematics, UWE), Mechatronics.

Dr Dima Damen, (Lecturer), Activity analysis; mobile vision.

Professor Mario Di Bernardo, (Professor), Nonlinear systems and control.

Dr Sanja Dogramadzi, (Reader), Medical robotics.

Dr David Drury, (Senior Lecturer), Electronics and control.

Dr Kerstin Eder, (Reader), Design automation and verification.

Dr Khemraj Emrith, (Reseach Associate, Engineering, Design and Mathematics, UWE), Machine vision.

Dr Appolinaire Etoundi, (Lecturer), Electromechanical Systems.

Professor Charl Faul, (Professor), Materials Chemistry.

Dr Luca Giuggioli, (Senior Lecturer), Dynamics of multiagent behaviour.

Professor John Greenman, (Professor), Microbial fuel cells.

Dr Thilo Gross, (Reader), Networks and multi-agent systems.

Dr Ian Hales, (Research Associate), Machine Vision.

Dr Sabine Hauert, (Lecturer, Engineering Maths), Swarming nanobots for biomedical applications.

Dr Helmut Hauser, (Lecturer)

Dr Guido Herrmann, (Reader), Nonlinear control.

Dr Marc Holdereid, (Senior Lecturer, Biological Sciences), Ecology and behaviour of bats.

Dr Martin Homer, (Senior Lecturer), Applied nonlinear mathematics.

Dr Ioannis Ieropoulos, (Senior Research Fellow in Engineering Design & Mathematics, UWE), Energy autonomy; microbial fuel cells.

Dr Chris Kent, (Lecturer), Perceptual cognition.

Dr Tim Kovacs, (Senior Lecturer), Complex adaptive systems.

Professor Jonathan Lawry, (Professor), Uncertainty and risk.

Dr Alex Lenz, (Senior Lecturer, Robotics and Electronics, UWE), Safe human-robot interaction.

Dr Ute Leonards, (Reader), Human-robot interaction; visual perception.

Dr Nathan Lepora, (Lecturer), Biomimetics and perception; computational neuroscience.

Dr David Leslie, (Senior Lecturer in Mathematics), Distributed agents.

Dr Mark Lowenburg, (Reader), Control (aerospace systems).

Dr Andres Marcos, (Senior Lecturer), Robust control techniques.

Professor Trevor Martin, (Professor), Artificial intelligence and intelligent systems.

Professor David May, (Professor), Embedded computation.

Dr Walterio Mayol-Cuevas, (Reader), Vision.

Professor Chris Melhuish, (Professor), Autonomous robotics.

Professor Majid Mirmehdi, (Professor), Vision.

Dr Thomas Mitchell, (Senior Lecturer), Music and human machine interaction.

Dr Pritesh Narayan, (Lecturer), Aero/control.

Professor Ivana Partridge, (Professor), Composites processing.

Dr Martin Pearson, (Research Fellow in Engineering Design and Mathematics, UWE), Biometric robots.

Professor Angelika Peer, (Professor), Control; haptics; human-system interaction; robotics; teleoperation.

Professor Anthony Pipe, (Professor), Safe HRI and machine learning.

Professor Kevin Potter, (Professor), Composites and automated manufacture.

Dr Arthur Richards, (Reader), Autonomous flight.

Dr Thomas Richardson, (Senior Lecturer), Flight dynamics.

Professor Daniel Robert, (Reader), Biomimetics.

Dr Jonathan Rossiter, (Reader), Soft robotics and tactile interaction.

Dr Tom Scott, (Reader), Geochemistry and metallurgy of uranium.

Professor Melvyn Smith, (Professor), Machine vision.

Dr Matthew Studley, (Senior Lecturer), Machine learning: bio-inspired robotics.

Dr Charlie Sullivan, (Senior Lecturer), Finite element analysis & biochemical engineering.

Professor Ruud ter Meulen, (Professor), Ethics.

Dr Chris Toomer, (Principle Lecturer), Aerodynamics; Computational fluid dynamics.

Dr Peter Walters, (Research Fellow), 3D printing; fabrication.

Dr Carwyn Ward, (Lecturer), Composites design, processing and manufacture.

Dr James Whiting, (Research Fellow), Slime mould computing.

Professor Eddie Wilson, (Professor), Intelligent transport systems.

Dr Shane Windsor, (Lecturer), Bio-inspired flight.

Professor Alan Winfield, (Professor), Public engagement; swarm robotics.

Professor Yufeng Yao, (Professor), Modelling and stimulation.

Dr Vadim Zverovich, (Senior Lecturer), Operational research.

I chose Bristol because of its outstanding academic reputation. It's reassuring to be taught by people who truly love their subject - their passion becomes contagious.

Joyce

REF 2014 results

Please refer to the results of the relevant subject area(s) in the complete RAE listings for the University of Bristol 


Results are from the most recent UK-wide assessment of research quality, conducted by HEFCE. More about REF 2014 results.

Bristol Doctoral College

The Bristol Doctoral College facilitates and supports doctoral training and researcher development across the University.

Get in touch

Diane Benoit FARSCOPE CDT Co-ordinator Email: farscope-cdt@bristol.ac.uk

FARSCOPE Centre for Doctoral Training
Bristol Robotics Laboratory
University of the West of England
T Block, Frenchay Campus
Coldharbour Lane
Bristol, BS16 1QY
http://www.bristol.ac.uk/engineering/about/quen/ http://farscope.bris.ac.uk/home

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