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Issue No.06 - November/December (2004 vol.21)
pp: 544-551
Glenn H. Chapman , Simon Fraser University
Sunjaya Djaja , Simon Fraser University
Desmond Y.H. Cheung , Simon Fraser University
Yves Audet , Ecole Polytechnique, Montreal
Israel Koren , University of Massachusetts, Amherst
Zahava Koren , University of Massachusetts, Amherst
ABSTRACT
<it>Editors' note:</it> Active pixel sensor (APS) CMOS technology reduces the cost and power consumption of digital imaging applications. This article presents a highly reliable system for the production of high-quality images in harsh environments. The system is based on a fault-tolerant architecture that effectively combines hardware redundancy in the APS cells and software correction techniques. <it>—Yervant Zorian, Virage Logic; and Dimitris Gizopoulos, University of Piraeus</it>
CITATION
Glenn H. Chapman, Sunjaya Djaja, Desmond Y.H. Cheung, Yves Audet, Israel Koren, Zahava Koren, "A Self-Correcting Active Pixel Sensor Using Hardware and Software Correction", IEEE Design & Test of Computers, vol.21, no. 6, pp. 544-551, November/December 2004, doi:10.1109/MDT.2004.74
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