Title :
Fast PN sequence correlation by using FWT
Author_Institution :
Inst. of Appl. Phys., Beograd
Abstract :
A simple relation between Walsh functions and PN (pseudonoise) sequences is derived. It is shown that by using a suitable permutation a set of discrete Walsh functions-sequences can be transformed into the set of different phase shifts of a single PN sequence. A matched filter-correlator based on the fast Walsh transform (FWT) which exploits this property is proposed. This correlator can be efficiently applied to continuous wave radar signal compression and direct-sequence spread-spectrum code acquisition. This method is shown to be much more efficient than the method based on the FFT (fast Fourier transform), which includes two FFTs and an array multiplication. As opposed to the FFT-based algorithm, the proposed method has no multiplications and the total number of operations is approximately five times smaller. As the number of operations per input samples is small, the proposed algorithm is adequate for LSI implementation even for high bit rates and for long sequences
Keywords :
Walsh functions; correlators; filtering and prediction theory; matched filters; signal processing; FFT; LSI; PN sequence correlation; Walsh functions; continuous wave radar signal compression; different phase shifts; direct-sequence spread-spectrum code acquisition; fast Fourier transform; fast Walsh transform; high bit rates; matched filter-correlator; pseudonoise sequence; Binary sequences; Correlators; Equations; Feedback; Gaussian noise; Matched filters; Phase modulation; Pulse compression methods; Shift registers; Spread spectrum radar;
Conference_Titel :
Electrotechnical Conference, 1989. Proceedings. 'Integrating Research, Industry and Education in Energy and Communication Engineering', MELECON '89., Mediterranean
Conference_Location :
Lisbon
DOI :
10.1109/MELCON.1989.50094
