Title :
Doppler compensation for passive coherent location
Author :
Xiaoming, Tang ; You, He ; Shijia, Dong ; Jinlin, Ni
Author_Institution :
Naval Aeronaut. Eng. Inst., Yantai, China
Abstract :
For target movement without velocity information in a passive coherent location system, the unknown Doppler shift between the direct signal and the target echo results in a decrease of the highest peak output value and the occurrence of some false peaks. Several Doppler compensation methods are compared in terms of the Doppler decorrelation loss factor. The Doppler decorrelation loss from the different inherent correlation times of signals and the different overlap times in the cross-correlator is analyzed. Simultaneously, the rationality of two stage processing is explained. In order to reduce the computational burden much more, an FFT pruning algorithm is introduced into segment Doppler compensation. The results of simulations are in close agreement with theory predictions.
Keywords :
Doppler shift; decorrelation; fast Fourier transforms; search radar; Doppler compensation; Doppler decorrelation loss factor; Doppler shift; FFT pruning algorithm; broad area surveillance; computational burden; cross-correlator; inherent correlation time; overlap time; passive coherent location system; target movement; Aerospace engineering; Computational modeling; Decorrelation; Doppler shift; Frequency; Helium; Signal analysis; Signal processing; Signal to noise ratio; Surveillance;
Conference_Titel :
Signal Processing, 2002 6th International Conference on
Print_ISBN :
0-7803-7488-6
DOI :
10.1109/ICOSP.2002.1180068
