Title :
Chaotic phase code for radar pulse compression
Author :
Wu, Xin ; Liu, Weixian ; Zhao, Lei ; Fu, Jeffrey S.
Author_Institution :
Radar Lab., Nanyang Technol. Univ., Singapore
Abstract :
This paper presents a novel binary phase coding scheme for radar pulse compression, which is derived from the logistic-map equation in the chaotic theory. The proposed logistic-map-based binary phase code (LMBPC) makes it feasible to achieve superior performance in detection range. The logistic-map equation in the chaotic theory is range resolution and Doppler tolerance simultaneously. The properties of LMBPC, including autocorrelation function, ambiguity diagram, performance under various noisy backgrounds, and the maximum Doppler tolerance, have been analyzed and compared to those of the conventional schemes, such as linear FM. The properties of LMBPC are very similar to those of the random binary codes. However, the generation of LMBPC is much simpler, and the available LMBPC is virtually infinite and not limited by the length of code. A parallel correlator structure for the pulse compression filter has also been introduced, which serves to improve the Doppler tolerance
Keywords :
Doppler radar; binary codes; chaos; correlation methods; filters; phase coding; pulse compression; radar detection; radar resolution; radar theory; Doppler tolerance; ambiguity diagram; autocorrelation function; binary phase coding; chaotic phase code; detection range; logistic-map equation; parallel correlator structure; performance; pulse compression filter; radar pulse compression; range resolution; Autocorrelation; Binary codes; Chaos; Doppler radar; Equations; Performance analysis; Phase detection; Pulse compression methods; Radar detection; Radar theory;
Conference_Titel :
Radar Conference, 2001. Proceedings of the 2001 IEEE
Conference_Location :
Atlanta, GA
Print_ISBN :
0-7803-6707-3
DOI :
10.1109/NRC.2001.922991
