State-of-the-art computer models could soon help tennis players and other sportsmen and women improve their tactics and gain a competitive edge over opponents.
In a world-leading initiative, new models are being developed that can assess the effectiveness of sporting tactics more accurately than conventional video techniques.
From Engineering and Physical Sciences Research Council :
Tactics technology could produce tomorrow’s tennis champions
State-of-the-art computer models could soon help tennis players and other sportsmen and women improve their tactics and gain a competitive edge over opponents.
In a world-leading initiative, new models are being developed that can assess the effectiveness of sporting tactics more accurately than conventional video techniques. Computer scientists at Kingston University are carrying out the research, with funding from the Engineering and Physical Sciences Research Council (EPSRC).
Players and coaches spend a lot of time analysing the advantages and drawbacks of alternative positions, formations and player movements. This project aims to enable particular tactics or styles of play (e.g. those of Roger Federer or Serena Williams) to be programmed into computerised players. A computerised player with an ”attacking profile”, for example, might run to the net more often than normal. The system would then allow the user to explore the best tactics to employ against them.
As well as offering the potential for much more sophisticated analysis of players than can be achieved observing video footage alone, computer models are also much quicker to use. They avoid the need to edit and hunt through huge volumes of tape, and include search software that can rapidly scan for examples of specific tactics or patterns of play.
In the past, developing this kind of computer model has been difficult because sporting tactics involve a lot of co-ordination between players. The project will tackle this by harnessing models specially designed to handle situations where the movements of two or more co-ordinated objects need to be tracked at the same time.
The research will start by focusing on tennis singles and doubles and then look at more complex sports such as football and basketball.
Dr Ahmed Shihab of the School of Computing & Information Systems is leading the project. Dr Shihab says: ”As well as helping specialised sports training, the technology we are developing could have benefits in fields such as realistic computer gaming, virtual reality and surveillance, which also involve co-ordinated human activity.”