Title :
Nonuniform Frequency Diverse Array for Range-Angle Imaging of Targets
Author :
Wen-Qin Wang ; So, Hing Cheung ; Huaizong Shao
Author_Institution :
Dept. of Electron. Eng., City Univ. of Hong Kong, Hong Kong, China
Abstract :
Although phased-array antennas are widely used in communication, radar, and navigation systems, its beampattern is a function of angle only and thus there is no range information. To circumvent this limitation, we design a frequency diverse array (FDA) antenna system for range-angle imaging of targets. Our approach exploits the nonuniform FDA as the transmitter to provide range-dependent beampattern and the uniform phased-array as the receiver which results in angle-dependent beampattern. Range-angle imaging of targets is achieved from the cooperative transmit-receive beamforming. The imaging performance measures including spatial resolution and system processing gain are analyzed. In addition, several design specifications are discussed. The effectiveness of the proposed approach is verified by simulation results.
Keywords :
antenna phased arrays; array signal processing; radar antennas; radar imaging; radar receivers; radar target recognition; radar transmitters; FDA antenna system; angle-dependent beampattern; communication systems; cooperative transmit-receive beamforming; navigation systems; nonuniform frequency diverse array; phased-array antennas; radar systems; range-angle imaging; range-dependent beampattern; spatial resolution; system processing gain; Approximation methods; Arrays; Imaging; OFDM; Radar imaging; Receivers; 2-D imaging; FDA radar; Frequency diverse array (FDA); angle estimation; array processing; beamforming; range estimation; two-dimensional imaging;
Journal_Title :
Sensors Journal, IEEE
DOI :
10.1109/JSEN.2014.2304720
