Title :
Signal processor retrofit for air search radar
Author_Institution :
TRW Space & Defense, Redondo Beach, CA, USA
Abstract :
An approach for improving the performance of existing air search radars by retrofitting the signal processor while leaving the RF hardware and digital data processor (DDP) essentially unchanged is proposed. By using improved algorithms and computational accuracy, the 1.7-dB reduction in processing losses described by C.S. Miller et al. (1990) can be achieved and an additional 3-dB improvement in signal-to-clutter noise ratio is provided by doubling the bandwidth. By using a smooth sensitivity time control (STC) function to replace the 6- and 12-dB steps, the worst-case 0.6-dB loss suffered by the present system is reduced to zero. A 12-dB gain in dynamic range can be obtained by replacing the 12-b A/D converters with 14-b devices. Other improvements mentioned involved the use of multiple moving target indicator (MIT) filters to provide a means of sorting the target detections according to a coarse estimate of the target velocity, and the use of a clutter map and modern thresholding algorithms.<>
Keywords :
analogue-digital conversion; military equipment; radar clutter; radar equipment; signal processing; signal processing equipment; RF hardware; air search radar; clutter map; coarse estimate; digital data processor; filters; multiple moving target indicator; retrofitting; signal processor; signal-to-clutter noise ratio; smooth sensitivity time control; target detections; target velocity; thresholding algorithms; Bandwidth; Control systems; Dynamic range; Hardware; RF signals; Radar signal processing; Radio frequency; Signal processing; Signal processing algorithms; Signal to noise ratio;
Conference_Titel :
Aerospace Applications Conference, 1992. Digest., 1992 IEEE
Conference_Location :
Snowmass, CO, USA
Print_ISBN :
0-7803-0225-7
DOI :
10.1109/AERO.1992.200377
