Title :
Airborne MTI via digital filtering
Author :
Ender, J. ; Klemm, R.
Author_Institution :
Fgan-ffm, Wachtberg-Werthhoven, West Germany
fDate :
2/1/1989 12:00:00 AM
Abstract :
Clutter suppression for radar on moving platforms such as aircraft is basically a two-dimensional filtering problem. As target echo signals are a function of two parameters (azimuth and Doppler frequency), a clutter filter should operate in both of these dimensions. Klemm (see ibid., vol.34, no.3, p.269, 1987) proposed a suboptimum approximation to the maximum-likelihood test, based on the space-time covariance matrix between the sensors of an array antenna and all the received echo pulses. This method works for arbitrary sensor configurations and staggered pulses. In this paper, a new method based on an equispaced linear array in the flight direction is discussed. The special properties of such a line array lead to a very simple but efficient clutter filter with real-time capability. The inverse clutter filter can be used as an output for SAR imaging with increased SNR. In conclusion, a radar receiver with combined AMTI and SAR performance is suggested.
Keywords :
filtering and prediction theory; interference suppression; radar clutter; radar receivers; 2D filtering; AMTI; Doppler frequency; SAR imaging; SNR; airborne MTI; aircraft; array antenna; azimuth; clutter filter; clutter suppression; digital filtering; equispaced linear array; inverse clutter filter; maximum-likelihood test; radar receiver; received echo pulses; sensors; space-time covariance matrix; suboptimum approximation; target echo signals;
Journal_Title :
Radar and Signal Processing, IEE Proceedings F
