Track Assembly And Background Suppression Using An Array Processor And Neighborhood Coding

Oscar Firschein; Herbert E. Rauch; Walter G. Eppler

doi:10.1117/12.959253

24 December 1980 Track Assembly And Background Suppression Using An Array Processor And Neighborhood Coding

Oscar Firschein, Herbert E. Rauch, Walter G. Eppler

Proceedings Volume 0241, Real-Time Signal Processing III; (1980) https://doi.org/10.1117/12.959253
Event: 24th Annual Technical Symposium, 1980, San Diego, United States

Abstract

A novel method for real time track assembly is presented which identifies new tracks, assigns measurements to existing tracks, and eliminates false tracks. The method utilizes a sequence of two-dimensional frames of binary data from an infrared sensor where binary 1 in a picture element indicates target or noise above threshold and binary 0 is below threshold. Successive sets of two-dimensional frames are combined and then screened using a three-by-three pixel window. The track assembly is based upon neighborhood coding and "track scoring" which uses the binary configuration in the three-by-three window to distinguish between target tracks and noise. The method makes use of successive levels of data processing, and in a cluttered environment (noise in 3% of the pixels) it may be necessary to use three or more levels to eliminate false tracks due to noise. A special coding technique is developed for the Floating Point System AP-120B off-the-shelf array processor to allow processing of 160,000 pixels per second independent of the number of targets. This paper explains the coding scheme and the array processor mechanization.

Citation Download Citation

Oscar Firschein, Herbert E. Rauch, and Walter G. Eppler "Track Assembly And Background Suppression Using An Array Processor And Neighborhood Coding", Proc. SPIE 0241, Real-Time Signal Processing III, (24 December 1980); https://doi.org/10.1117/12.959253

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KEYWORDS

Binary data

Array processing

Image processing

Signal processing

Infrared sensors

Computing systems

Sensors

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