Unification of automatic target tracking and automatic target recognition

Bruce J. Schachter

doi:10.1117/12.2048595

13 June 2014 Unification of automatic target tracking and automatic target recognition

Bruce J. Schachter

Proceedings Volume 9090, Automatic Target Recognition XXIV; 909002 (2014) https://doi.org/10.1117/12.2048595
Event: SPIE Defense + Security, 2014, Baltimore, MD, United States

Abstract

The subject being addressed is how an automatic target tracker (ATT) and an automatic target recognizer (ATR) can be fused together so tightly and so well that their distinctiveness becomes lost in the merger. This has historically not been the case outside of biology and a few academic papers. The biological model of ATT∪ATR arises from dynamic patterns of activity distributed across many neural circuits and structures (including retina). The information that the brain receives from the eyes is “old news” at the time that it receives it. The eyes and brain forecast a tracked object’s future position, rather than relying on received retinal position. Anticipation of the next moment – building up a consistent perception – is accomplished under difficult conditions: motion (eyes, head, body, scene background, target) and processing limitations (neural noise, delays, eye jitter, distractions). Not only does the human vision system surmount these problems, but it has innate mechanisms to exploit motion in support of target detection and classification. Biological vision doesn’t normally operate on snapshots. Feature extraction, detection and recognition are spatiotemporal. When vision is viewed as a spatiotemporal process, target detection, recognition, tracking, event detection and activity recognition, do not seem as distinct as they are in current ATT and ATR designs. They appear as similar mechanism taking place at varying time scales. A framework is provided for unifying ATT and ATR.

Citation Download Citation

Bruce J. Schachter "Unification of automatic target tracking and automatic target recognition", Proc. SPIE 9090, Automatic Target Recognition XXIV, 909002 (13 June 2014); https://doi.org/10.1117/12.2048595

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