Title :
Search radar detection and track with the Hough transform. III. Detection performance with binary integration
Author :
Carlson, B.D. ; Evans, E.D. ; Wilson, S.L.
Author_Institution :
Lincoln Lab., MIT, Lexington, MA, USA
fDate :
1/1/1994 12:00:00 AM
Abstract :
For pt.II see ibid., vol. 30, no 1, (Jan. 1994). This paper considers how well a Hough transform detector with binary integration improves the performance of a typical surveillance radar. For Hough transform detection, binary integration offers some advantages over noncoherent integration when multiple targets appear in range-time space or when the detector receives signals with a wide range of power. We derive expressions for PF and PD for a Hough transform binary integrator and apply the expressions to a typical surveillance radar. The results show that for the case considered, the binary Hough integrator improves the power budget of the radar by about 3 dB for a nonfluctuating target and 1 dB for a highly fluctuating target
Keywords :
Hough transforms; image processing; integration; probability; radar theory; signal detection; tracking systems; Hough transform; binary integration; detection performance; fluctuating target; multiple targets; nonfluctuating target; power budget; range-time space; search radar detection; surveillance radar; track; Detectors; Laboratories; Object detection; Power distribution; Radar detection; Radar tracking; Signal detection; Spaceborne radar; Surveillance; Target recognition; Trajectory;
Journal_Title :
Aerospace and Electronic Systems, IEEE Transactions on
