Title :
Bistatic variants of space-based radar
Author :
Ogrodnik, Robert F. ; Wolf, William E. ; Schneible, Richard ; McNamara, John ; Clancy, John ; Tomlinson, Phil G.
Author_Institution :
AF Rome Lab., NY, USA
Abstract :
This paper addresses nonmonostatic approaches for Space-based Radar (SBR) which can provide greater flexibility in system deployment, surveillance performance and operations, as well as potential benefits in deployment costs. The paper has two focused themes. The first theme addresses the potential benefits, new complexities and possible disadvantages of these bistatic variants with the goal of putting into a proper perspective the merits and limitations of these variants for SBR. The second theme addresses a specific system design and its projected performance. The overall goal of this paper is to aid the SBR technical community in its search for enhancements in wide area surveillance, to address the SBR technical needs and required developments, and, to provide a potential simplification in otherwise complex and high cost monostatic system deployments
Keywords :
radar clutter; radar signal processing; radar tracking; search radar; spaceborne radar; surveillance; target tracking; bistatic variants; complexities; cost; cruise missile; deployment costs; flexibility; space-based radar; surveillance performance; target surveillance; wide area surveillance; Frequency; Intelligent sensors; Laboratories; Monitoring; Signal processing; Signal sampling; Spaceborne radar; Surveillance; System testing; Velocity measurement;
Conference_Titel :
Aerospace Conference, 1997. Proceedings., IEEE
Conference_Location :
Snowmass at Aspen, CO
Print_ISBN :
0-7803-3741-7
DOI :
10.1109/AERO.1997.577632
