This paper investigates the theoretical placement of receivers in an Commensal Radar (CR), Doppler only tracking system with a single transmitter multiple receiver configuration. Theory, based on the Fisher Information matrix (FIM), is developed to derive the theoretical achievable bound for a given receiver configuration and used as a basis to select the optimal receiver placement. Theoretical concepts such as Shannon entropy and Cramer-Rao analysis are explained and used in the selection process of receiver positions. Further, we show that time history information of a target can cumulatively be used together with FIM that will improve the Cramer-Rao bound. Lastly, we use the theory developed to evaluate receiver placement combinations by means of a simulation and provide insight on the method of selecting receivers that would minimise the error performance of a Doppler only tracking system. The demonstrations used here are typical of a CR using FM Broadcast emissions.
Reference:
Maasdorp, FDV, Nadjiasngar, R, and Inggs, MR. 2014. A Cramer Rao analysis on receiver placement in a FM band commensal radar system based on doppler only measurements. In: 2014 International Radar Conference, Lille, France 13-17 October 2014, 6pp
Maasdorp, F., Nadjiasngar, R., & Inggs, M. (2014). A Cramer Rao analysis on receiver placement in a FM band commensal radar system based on doppler only measurements. http://hdl.handle.net/10204/8166
Maasdorp, FDV, R Nadjiasngar, and MR Inggs. "A Cramer Rao analysis on receiver placement in a FM band commensal radar system based on doppler only measurements." (2014): http://hdl.handle.net/10204/8166
Maasdorp F, Nadjiasngar R, Inggs M, A Cramer Rao analysis on receiver placement in a FM band commensal radar system based on doppler only measurements; 2014. http://hdl.handle.net/10204/8166 .
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