Title :
Generalized pairwise complementary codes with set-wise uniform interference-free windows
Author :
Chen, Hsiao-Hwa ; Yeh, Yu-Ching ; Zhang, Xi ; Huang, Aiping ; Yang, Yang ; Li, Jie ; Xiao, Yang ; Sharif, Hamid R. ; Vinck, A. J Han
Author_Institution :
Inst. of Commun. Eng., Nat. Sun Yat-Sen Univ., Kaohsiung, Taiwan
Abstract :
This paper introduces an approach to generate generalized pairwise complementary (GPC) codes, which offer a uniform interference free windows (IFWs) across the entire code set. The GPC codes work in pairs and can fit extremely power efficient quadrature carrier modems. The characteristic features of the GPC codes include: the set size is 2K, the processing gain is 4NK, and the IFW´s width is 8N identically for all codes in a set, where K is the times to perform Walsh-Hadamard expansions and N is element code length of seed complementary codes. Therefore, by using different N, the IFW width of a GPC code set can be adjusted with its set size unchanged. Each GPC code set consists of two code groups, with each having K codes, and they have sparsely and uniformly distributed autocorrelation side lobes and cross-correlation levels outside the IFWs.
Keywords :
Hadamard codes; Walsh functions; binary sequences; code division multiple access; correlation methods; interference (signal); modems; CDMA; GPC; Walsh-Hadamard expansion; autocorrelation side lobe; code-division multiple-access; cross-correlation level; generalized pairwise complementary code; quadrature carrier modem; set-wise IFW; uniform interference-free window; Autocorrelation; Engineering profession; Gold; Modems; Multiaccess communication; Multiple access interference; Performance gain; Radar applications; Stacking; Code-division multiple-access (CDMA); complementary sequences; interference-free window (IFW);
Journal_Title :
Selected Areas in Communications, IEEE Journal on
DOI :
10.1109/JSAC.2005.858878
