Real Time Optical Computation Of The Ambiguity Function

Poohsan N. Tamura; Joseph J. Rebholz; O.Theodore Daehlin; Tzuo-Chang Lee

doi:10.1117/12.959233

24 December 1980 Real Time Optical Computation Of The Ambiguity Function

Poohsan N. Tamura, Joseph J. Rebholz, O.Theodore Daehlin, Tzuo-Chang Lee

Proceedings Volume 0241, Real-Time Signal Processing III; (1980) https://doi.org/10.1117/12.959233
Event: 24th Annual Technical Symposium, 1980, San Diego, United States

Abstract

Real time optical computing of the two dimensional ambiguity function based on the use of one dimensional Bragg cells as input transducers and the use of unique coherent optical systems as the computing architectures will be presented. Two techniques using optical spatial integration have been invented and demonstrated to be suitable for ambiguity processing. Their key feature lies in the utilization of optics to transform the two one dimensional spatial functions into the associated two dimensional ambiguity function.

Citation Download Citation

Poohsan N. Tamura, Joseph J. Rebholz, O.Theodore Daehlin, and Tzuo-Chang Lee "Real Time Optical Computation Of The Ambiguity Function", Proc. SPIE 0241, Real-Time Signal Processing III, (24 December 1980); https://doi.org/10.1117/12.959233

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