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A modular low-cost raster-scan colour visual system

Published online by Cambridge University Press:  04 July 2016

P. J. Willis*
Affiliation:
School of Mathematics, University of Bath

Extract

The author and colleagues at the University of Sussex have been investigating technical problems related to the production of moving colour pictures representing real scenes in real-time. The object is to produce a visual system suitable for vehicle simulation. Flight simulation is generally the most difficult to achieve because of the need for freedom of movement and orientation in three-dimensional space coupled with a rapidly changing scene.

Such a system must therefore show smooth motion and reasonable realism. These factors imply a picture update rate of around 25 frames per second, the use of a wide range of colours and textures, a large terrain model, a picture generator capable of representing surfaces and a good mathematical aircraft performance model.

Type
SYMPOSIUM ON “Is Flight simulation of academic interest?”
Copyright
Copyright © Royal Aeronautical Society 1980 

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References

1. Willis, P. J., Grimsdale, R. L., and Hadjiaslanis, A. A Zone management processor: a module for generating surfaces in raster-scan colour displays. IEE Journal on Computers and Digital Techniques, Vol 2, No 1, pp 2125, 1979.Google Scholar
2. Grimsdale, R. L., Willis, P. J., and Hadjiaslanis, A. A. Improvements in apparatus for controlling raster-scan displays. UK Patent Specification 1-532-275, 1978.Google Scholar
3. Akinde, A. D., Grimsdale, R. L., Hadjiaslanis, A. A., Willis, P. J., and Woollons, D. J. Use of a surface oriented colour raster display in computer generation of images for flight simulators. IEE Conference Publication 150. IEE International Conference on ‘Displays for man-machine systems', April 1977.Google Scholar
4. Willis, P. J. Proximity techniques for hidden-surface removal. IEE Journal on Computers and Digital Techniques, Vol 1, No 4, pp 171178, 1978.Google Scholar
5. Willis, P. J. A real time hidden surface technique. Computer Journal, Vol 20, No 4, pp 335339.Google Scholar
6. Tomlinson, D. J. DPhil Thesis, University of Sussex, 1979.Google Scholar
7. Hadjiaslanis, A. A. DPhil Thesis, University of Sussex, 1978.Google Scholar
8. Akinde, A. D. DPhil Thesis, University of Sussex, 1978.Google Scholar
9. Willis, P. J. DPhil Thesis, University of Sussex, 1976.Google Scholar