Polarimetric MIMO radar target detection using game theory

Polarimetric radar systems allow the flexibility of transmitting arbitrarily polarized waveforms that match the scattering profiles of the target. Since different types of targets have varying profiles, the advantages of a polarimetric radar system can fully be exploited only when the type of target is accurately estimated. However, accurate estimation requires a significant amount of training data, which can be expensive. We propose a polarimetric design scheme for distributed Multiple Input Multiple Output (MIMO) radar target detection. We formulate the selection of transmit polarizations using a game theoretic framework by examining the impact of all possible transmit schemes on the detection performance with different available target profiles. This approach does not require training data, and we show a significant performance improvement due to the polarimetric design.

[1]  M. Dufwenberg Game theory. , 2011, Wiley interdisciplinary reviews. Cognitive science.

[2]  Sandeep Gogineni,et al.  Polarimetric MIMO Radar With Distributed Antennas for Target Detection , 2009, IEEE Transactions on Signal Processing.

[3]  D. Giuli,et al.  Polarization diversity in radars , 1986, Proceedings of the IEEE.

[4]  Arye Nehorai,et al.  Target Estimation, Detection, and Tracking , 2009, IEEE Signal Processing Magazine.

[5]  Sandeep Gogineni,et al.  Game theoretic design for polarimetric MIMO radar target detection , 2012, Signal Process..

[6]  J. Nash Equilibrium Points in N-Person Games. , 1950, Proceedings of the National Academy of Sciences of the United States of America.

[7]  Arye Nehorai,et al.  Polarimetric Detection of Targets in Heavy Inhomogeneous Clutter , 2008, IEEE Transactions on Signal Processing.

[8]  L.J. Cimini,et al.  MIMO Radar with Widely Separated Antennas , 2008, IEEE Signal Processing Magazine.

[9]  P. Stoica,et al.  MIMO Radar Signal Processing , 2008 .

[10]  J. Neumann,et al.  The Theory of Games and Economic Behaviour , 1944 .