Experimental demonstration of the hybrid opto-electronic correlator for target recognition
Author:
Funder
Air Force Office of Scientific Research (AFOSR)
Publisher
The Optical Society
Reference22 articles.
1. Shift-invariant real-time edge-enhanced VanderLugt correlator using video-rate compatible photorefractive polymer
2. Translation-invariant object recognition system using an optical correlator and a super-parallel holographic random access memory
3. Demonstration of a simple technique for determining the M/# of a holographic substrate by use of a single exposure
4. Shared-hardware alternating operation of a super-parallel holographic optical correlator and a super-parallel holographic random access memory
5. Superparallel holographic correlator for ultrafast database searches
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