Abstract
An optoelectronic architecture for morphological image processing is
presented. The architecture uses the pipelining principle, with its stages
being implemented by use of optical fiber-based programmable logic arrays.
These arrays are characterized by their high fan-in and fan-out factors, which
make them suitable for implementing morphological operations with large
structuring elements without decomposition. The pipeline has fewer stages and
clock skew can be avoided, thus making the use of higher clock speeds and
throughputs possible.
© 1997 Optical Society of America
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