The same technology used by the entertainment industry to animate characters, such as Gollum in “The Lord of The Rings” films, will be used to help train elite athletes, for medical diagnosis and even to help improve prosthetic limb development, according to researchers at a new facility at the University of Bath in the U.K.
Motion capture technology was first developed by the biomechanics field to help train elite athletes by studying their gait and movement and was later applied by the entertainment industry to make computer animation in films and games more realistic. The new research facility aims to develop technology that captures information from every pixel, without the need for markers or special suits.
The new £5 million ($7.3 million) Centre for the Analysis of Motion, Entertainment Research & Applications (CAMERA) now plans to take the technology full circle in applying it to training elite athletes to rehabilitating injured service personnel.
The motion capture techniques currently used by the film and gaming industries to animate non-human characters require actors to wear a special spotted motion capture suit. The movement of the spots on the close-fitting suit are tracked by a series of high resolution cameras as the performer moves, transferring the movement of the actor onto the animation.
Researchers at CAMERA will be working in partnership with top visual effects companies including The Imaginarium and The Foundry to develop the technology so that actors no longer have to wear motion capture suits.
One project the team is currently working on is software to translate an actor’s movement to different physiologies, for example a four-legged animal character.
“It’s very difficult to portray emotion in an animated character in a biomechanically authentic way – currently this is very time-consuming,”according to Cosker. “We’re aiming to automate the process of animating a non-human creature using input from a human actor. But it’s not just about making films and computer games more realistic; the same technology can also be used to track and analyze a person’s gait. This can be used to enhance the performance of elite athletes and help develop assistive technologies such as designing better fitting prosthetic limbs.”
“CAMERA is a really exciting venture as it brings together researchers and industry partners to apply fundamental research to commercial problems, which will in turn throw up new research questions to feed back into our work,” Cosker added. “This unique approach will speed up the application of research into the marketplace.”
The team is collaborating with top visual effects companies and will also work in partnership with BMT Defence Services, British Skeleton, The Ministry of Defence, Bath & North East Somerset Council, the West of England Local Enterprise Partnership and the Bath Innovation Centre to develop the technology alongside a range of users from elite athletes to injured servicemen.
The new facility, funded by the Engineering & Physical Sciences Research Council, will also be used by the Centre for Digital Entertainment (CDE), a doctoral training center based at the University of Bath in partnership with Bournemouth University.