Abstracts are not currently available in GtR for all funded research. This is normally because the abstract was not required at the time of proposal submission, but may be because it included sensitive information such as personal details.

Abstracts are not currently available in GtR for all funded research. This is normally because the abstract was not required at the time of proposal submission, but may be because it included sensitive information such as personal details.

This project aims to bring together motion capture technology with established movement practices which cultivate attention on bodily awareness, and in particular Skinner Releasing Technique (SRT), to explore how sensorial awareness can be captured and what visualisations might emerge. SRT is a pioneering approach to dance which has evolved from the simple principle that when we are letting go of habitual holding patterns we can move more freely, articulately and powerfully. Joan Skinner, the American choreographer, dance improvisation pioneer and former dancer with the Martha Graham and Merce Cunningham companies, created the technique from early experiments in the 1960s. SRT utilizes image-guided floorwork to ease tension and promote an effortless kind of moving, integrated with alignment of the whole self. Tactile exercises (partner 'graphics') are used to give the imagery immediate kinaesthetic effect: spontaneous movement is evoked by imagery and guided movement studies. Motion capture is a generic name for the techniques which obtain motion data from human performers for a wide range of applications including biomechanics, sports science, ergonomics, advertising, TV and 3D computer games. Regarded as a significant component of the film and games industries, motion capture is also incorporated into arts events but it demands a level of expertise to use it effectively that is not readily achieved by artists.\n\nThe project will explore how the methods and principles which characterise the practice of SRT and related practices can 'translate' to the production of visualisations for virtual environments, to shed light on contemporary ideas of interface design and display methods, and to understand more about SRT as a movement discipline. The aim is to enhance the interaction experience for audiences to produce new art experiences which are intellectually and socially engaging and can, through a re-engagement with the complexity of the moving body, generate new understandings about our relationship with our own body within the world. The project is therefore unique in that it will map a specific dance practice, embed this mapping within a game engine and test a variety of avatar visualisations in real time allowing audiences to interact and be directly involved in the process. Finally this interaction will be augmented by using these findings to immerse the player/performer into the action to create new performance spaces and experiences.\n

The PSIBS Doctoral Training Centre (DTC) will focus on the development of the physical sciences of imaging and the computational analysis of image data to address key problems in the biological and biomedical sciences.The importance of Imaging to Bioscience and Medicine has been highlighted both by the N111 and the UK research councils.There is art apparent and growing need for people with these skills within UK industries with diverse business focuses (proposal section 3). This is reflected by their involvement in this PSIBS DTC and their contributions to the training.Two key benefits of training cohorts of students rather than individually funded students are: (1) The PSIBS multi-disciplinary taught programme that will upgrade the skill- and knowledge-base of traditional UK bachelors-level single-discipline graduates to underpin and enable cross-disciplinary PhD research. (ii) The students will develop extensive and cross-disciplinary links and networks, both with other PSIBS students and the many PSIBS academics, which will persist throughout their future research careers.Imaging technology is evolving faster than the standard grant turnaround time and dynamic, responsive PhD research within a critical mass of experts will enable (a) rapid response and (b) cutting edge research against our overseas competitors (proposal section 4).

The Synthetic Biology CDT (SBCDT) will focus on the design and engineering of biologically based parts, novel devices and systems as well as the re-design of existing, natural biological systems across all scales from molecules to organisms. Its distinguishing feature will be breadth and depth: the SBCDT will build on the multi-disciplinary expertise offered by the research environment at the Universities of Oxford, Bristol and Warwick to provide training that covers all parts of this extremely broad remit, including not only individual cells but self-assembled biomimetic systems, engineered microbial communities and multicellular organisms, combining the multiple perspectives of engineering and the life and physical sciences. We believe that such coverage is vital in the emerging area of Synthetic Biology; but, equally, this is only currently possible through a collaborative effort across institutions such as ours. In close partnership with our industrial and other partners, with whom we have developed this bid, we will address the recommendation of the recently published Synthetic Biology Roadmap for a "skilled, energized and well-funded UK-wide Synthetic Biology community", which has "the opportunity to revolutionise major industries in bio-energy and bio-technology in the UK" (David Willetts, Minister for Universities and Science). The SBCDT will provide five annual 15-student strong cohorts with high-quality and highly practical training in Synthetic Biology that will fill this skills gap and deliver the next generation of internationally excellent researchers and industrial leaders. The training will be based on a varied and innovative programme that will range from classes and seminars to student-led group projects and exploratory and PhD research projects at the forefront of the development of Synthetic Biology. Ethical, Legal and Social considerations, public engagement, and the needs of industrial, academic and potential end users of Synthetic Biology will be integrated into the training programme from the start. We will engender within the cohort a sophisticated, multi-faceted appreciation of the opportunities and potential hazards of Synthetic Biology that is essential to Responsible Innovation. Training will be delivered by a team of world-leading researchers which, like the student intake, will be highly multidisciplinary. We will ensure that the SBCDT takes full advantage of the opportunities provided by the three Universities and will act as a catalyst for inter-university research initiatives underpinned by the unifying influence of a cohesive cohort of students. This will ensure development of Synthetic Biology across the UK and that the UK strengthens its global competitiveness in this very promising field.