Title :
Comparison between monostatic and bistatic antenna configurations for STAP
Author_Institution :
FGAN-FFM, Wachtberg, Germany
fDate :
4/1/2000 12:00:00 AM
Abstract :
The unique characteristics of bistatic radar operation on the performance of airborne/spaceborne moving target indicator (MTI) radars that use space-time adaptive processing (STAP) are discussed. It has been shown that monostatic STAP radar has the following properties. 1) For a horizontal flight path and a planar Earth the curves of constant clutter Doppler (isodops) are hyperbolas. 2) For a sidelooking antenna geometry the clutter Doppler is range independent. 3) Clutter trajectories in the cosφ-F plane (F=normalized Doppler) are in general ellipses (or straight lines for a sidelooking array). We demonstrate that these well-known properties are distorted by the displacement between transmitter and receiver in a bistatic configuration. It is shown that even for the sidelooking array geometry the clutter Doppler is range-dependent which requires adaptation of the STAP processor for each individual range gate. Conclusions for the design of STAP processors are drawn
Keywords :
antenna phased arrays; radar antennas; radar clutter; radar tracking; space-time adaptive processing; target tracking; STAP; bistatic antenna configurations; bistatic configuration; clutter trajectories; constant clutter Doppler; horizontal flight path; hyperbolas; individual range gate; isodops; monostatic antenna configurations; moving target indicator radars; range independent clutter Doppler; sidelooking antenna geometry; sidelooking array; space-time adaptive processing; Airborne radar; Antenna arrays; Bistatic radar; Doppler radar; Earth; Geometry; Radar antennas; Radar clutter; Spaceborne radar; Transmitters;
Journal_Title :
Aerospace and Electronic Systems, IEEE Transactions on
