Title :
Joint frequency-hopping waveform design for MIMO radar estimation using game theory
Author :
Keyong Han ; Nehorai, Arye
Author_Institution :
Preston M. Green Dept. of Electr. & Syst. Eng., Washington Univ. in St. Louis, St. Louis, MO, USA
fDate :
April 29 2013-May 3 2013
Abstract :
Using a colocated Multiple Input Multiple Output (MIMO) radar system, we consider the problem of joint design of amplitudes and frequency-hopping codes for frequency-hopping waveforms. First, we present the MIMO radar signal model and the sparse representation. Then, we formulate a novel game model and propose two joint design algorithms, one applying a non-cooperative scheme, and the other applying a cooperative scheme. Owing to the extremely large size of the feasible set of the discrete code, we propose to use these algorithms to obtain the ε-approximate Nash equilibrium (ε-ANE). We demonstrate the improvement of the resulting codes and amplitudes through numerical examples.
Keywords :
MIMO radar; estimation theory; game theory; radar signal processing; spread spectrum radar; ε-ANE; ε-approximate Nash equilibrium; MIMO radar estimation; MIMO radar signal model; colocated multiple input multiple output radar system; discrete code; game theory; joint amplitude-frequency-hopping code design; joint frequency-hopping waveform design; noncooperative scheme; sparse representation; Cost function; Game theory; Joints; MIMO radar; Transmitters; Vectors; ε-approximate Nash equilibrium (ε-ANE); MIMO radar; frequency-hopping codes; game theory; multiple objectives; optimal design; sparse modeling;
Conference_Titel :
Radar Conference (RADAR), 2013 IEEE
Conference_Location :
Ottawa, ON
Print_ISBN :
978-1-4673-5792-0
DOI :
10.1109/RADAR.2013.6586041
