Optimal time division multiplexing schemes for DOA estimation of a moving target using a colocated MIMO radar

A Multiple-Input-Multiple-Output (MIMO) radar can achieve a higher accuracy in direction of arrival (DOA) estimation compared to a corresponding Single-Input-Multiple-Output (SIMO) radar due to its larger virtual aperture. If the target is moving relative to the radar, an additional phase shift is introduced into the baseband signal because of the Doppler effect. Hence the Doppler frequency has to be estimated in addition to the DOA. In general, this decreases the DOA estimation accuracy. We investigate MIMO radars using time division multiplexing (TDM). We derive the Cramer-Rao bound (CRB) for a moving target and a general TDM scheme and compare it to other radar systems. Moreover we derive optimal TDM schemes which minimize the CRB under different constraints.

[1]  Jian Li,et al.  MIMO Radar with Colocated Antennas , 2007, IEEE Signal Processing Magazine.

[2]  Yoram Bresler,et al.  A compact Cramer-Rao bound expression for parametric estimation of superimposed signals , 1992, IEEE Trans. Signal Process..

[3]  J. Tabrikian,et al.  Target Detection and Localization Using MIMO Radars and Sonars , 2006, IEEE Transactions on Signal Processing.

[4]  D.W. Bliss,et al.  Waveform Correlation and Optimization Issues for MIMO Radar , 2005, Conference Record of the Thirty-Ninth Asilomar Conference onSignals, Systems and Computers, 2005..

[5]  Bin Yang,et al.  Direction of Arrival estimation of two moving targets using a time division multiplexed colocated MIMO radar , 2014, 2014 IEEE Radar Conference.

[6]  Bin Yang,et al.  Colocated MIMO radar: Cramer-Rao bound and optimal time division multiplexing for DOA estimation of moving targets , 2013, 2013 IEEE International Conference on Acoustics, Speech and Signal Processing.