Coventry University is a diverse and exciting place to work and we share the enthusiasm of our staff and students to be the best at whatever they choose to do. As one of the City’s biggest employers, we offer some impressive benefits for our staff and are committed to delivering the very best opportunities. We have a comprehensive training, personal and professional development programme that provides our employees with the skills to enhance their performance in the workplace and grow in their careers. There are pension schemes, a generous holiday allowance and flexible working opportunities as well as lifestyle benefits including childcare vouchers, discounted membership to the £4 million sports and recreation centre and schemes such as Cycle to Work and the CU Car Share initiative.
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The biomechanics team at Coventry University are applying engineering principles to analyse the most complex mechanism known to man – and that mechanism is “man” (and woman).
The team has developed the Biomechanics of Bodies (BoB) musculoskeletal modelling system in the MATLAB environment which consists of a human skeleton, the joints which connect the bones and over 600 of the major locomotor muscles. Additionally BoB contains inverse dynamics code to calculate anatomical trajectories, muscle loads, joint contact forces, ground reaction forces and a graphics engine to display multi-subject graphics as images and videos.
BoB has been used by research universities and by commercial organisation around the world for applications as diverse as medical devices optimisation, sports technology development, automotive design, ergonomics, patient rehabilitation and sports performance.
BoB has also been used to analyse the injury risks of ballet and Irish dancers. During these studies loads as high as 14 times body weight were found to be occurring within the dancers’ ankle joints which has significant implications for dancers’ long term health and the responsibility of choreographs to minimise injury risks. This research has attracted interest from the Royal Ballet and the Institute of Physics who invited Dr. James Shippen to present his findings at a sell-out seminar in the Royal Opera House.
To develop a novel process to deposit and attach silver nanoparticles on to fibres enabling the selective metallisation of fabrics.
METRIC maps regional transport innovation capacity and identifies the competitive advantage of regions.
Reducing the temperatures and process times of electroless and immersion plating processes using ultrasound.
METPEX is a research project funded in the context of the 7th Framework Programme of the EU, aiming to develop and evaluate a standardised tool to measure passenger experience across whole journeys.
Developing new pilot-centred interface technologies to improve situation awareness, decision making and improve the availability of aircraft in adverse weather.