Wei Chongyu, Xu Shanjia, Wang Dongjin. A NEW METHOD FOR DETERMINING THE LOCATION AND LENGTH OF A THIN CYLINDRICAL TARGET WITH RANGE DIFFERENCE FROM A MULTISTATIC RADAR SYSTEM[J]. Journal of Electronics & Information Technology, 1999, 21(6): 765-770.
Citation:
Wei Chongyu, Xu Shanjia, Wang Dongjin. A NEW METHOD FOR DETERMINING THE LOCATION AND LENGTH OF A THIN CYLINDRICAL TARGET WITH RANGE DIFFERENCE FROM A MULTISTATIC RADAR SYSTEM[J]. Journal of Electronics & Information Technology, 1999, 21(6): 765-770.
Wei Chongyu, Xu Shanjia, Wang Dongjin. A NEW METHOD FOR DETERMINING THE LOCATION AND LENGTH OF A THIN CYLINDRICAL TARGET WITH RANGE DIFFERENCE FROM A MULTISTATIC RADAR SYSTEM[J]. Journal of Electronics & Information Technology, 1999, 21(6): 765-770.
Citation:
Wei Chongyu, Xu Shanjia, Wang Dongjin. A NEW METHOD FOR DETERMINING THE LOCATION AND LENGTH OF A THIN CYLINDRICAL TARGET WITH RANGE DIFFERENCE FROM A MULTISTATIC RADAR SYSTEM[J]. Journal of Electronics & Information Technology, 1999, 21(6): 765-770.
This paper describes a short range target location system based on the range difference of T-R4 multistatic radar system with FMCW signal. A new method is proposed to determine the location and length of a thin cylindrical target making use of the high resolution of wide band FMCW signal and the spectrum characteristics of the target echo. Formulae are derived for target location and its length estimation being independent of the transmitter position. System performances are simulated with the proposed algorithm and the results are given for various situations
Manolakis D E. Efficient solution and performance analysis of 3-D position estimation by trilateration. IEEE Trans. on AES, 1996, AES-32(4): 1239-1247.[2]孙仲慷,周一宇,何黎星著. 单多基地有源无源定位系统. 北京: 国防工业出版社,1996, 143-160.[3]Schau H C, Robinson A Z. Passive source localization employing intersecting spherical surfaces from time-of-arrival differences. IEEE Trans. on ASSP, 1987, ASSP-35(8): 1223-1225.
DownLoad: