We report the design and implementation of a low cost, image capture board for an IBM type personal computer. The board is particularly suited to computer vision education. The board provides: image capture at video rate, random access to xy addressable image data, and options for on-board image processing hardware.
Get full access to this article
View all access options for this article.
References
1.
SmoG., HamerM. P. R., HillsM. T., Telecommunications: A Systems Approach George Allen and Unwin pp 147–195 (1984)
2.
Brooktree Bt261 Monolithic HSYNC Line Lock ControllerBrooktree Corp.San Diego CA.92121–2790
BurtP. J. ‘Smart Sensing within a Pyramid Vision Machine’ Proc IEEE, 76, No. 8, (August 1988)
5.
NuddG. R. and FrancisN. D., ‘Architectures for image analysis’ IEE Third International Conference on Image ProcessingUniversity of Warwick pp 445–571 (18–29 July1989)
6.
WangG., RenshawD., DenyerP. B., and LuM., ‘CMOS video cameras‘ Proceedings of the IEEE Conference: Euro ASIC '91
7.
RenshawD., and DenyerP. B. ‘ASIC Vision’, Proceedings of the IEEE 1990 Custom Integrated Circuits Conference San Diego, California.
8.
DenyerP. B., RenshawD. ‘On chip CMOS sensorsfor VLSI imaging systems‘ Proceedings of the IFIP TC 10/WG 10.5 International Conference on Very Large Scale Integration, Halaas and Denyer, ed. p4b.l (1991)
9.
DickinsonK. D., and WanC. ‘Road Traffic Monitoring using TRIP II System’ IEE Second International Conference on Road Traffic Monitoring pp 56–60
10.
ThompsonM. S., WanC. L., BinnieT. D. ‘Development of Real Time Image Analysis System for Traffic Monitoring Applications‘ Proceedings Civil Comp ‘93 Heriot Watt University pp 189–195 (1993)
11.
View Logic Systems, Inc. 293 Boston Post Road West, Massachusettes 01752–4615
