Title :
Bounds on partial correlations of sequences
Author :
Paterson, Kenneth G. ; Lothian, Paul J G
fDate :
5/1/1998 12:00:00 AM
Abstract :
Two approaches to bounding the partial auto- and crosscorrelations of binary sequences are considered. The first approach uses the discrete Fourier transform and bounds for character sums to obtain bounds on partial autocorrelations of m-sequences and on the partial auto- and crosscorrelations for the small Kasami sets and dual-BCH families of sequences. The second approach applies to binary sequences obtained by interleaving m-sequences. A bound on the peak partial correlation of such sequences is derived in terms of the peak partial autocorrelation of the underlying m-sequences. The bound is applied to GMW, No (1987), and other families of sequences for particular parameters. A comparison of the two approaches shows that the elementary method gives generally weaker results but is more widely applicable. On the other hand, both methods show that well-known sequence families can have favorable partial correlation characteristics, making them useful in certain spread-spectrum applications
Keywords :
BCH codes; binary sequences; code division multiple access; correlation methods; spread spectrum communication; CDMA; GMW sequences; No sequences; binary sequences; bounds; discrete Fourier transform; dual-BCH families; interleaving; m-sequences; partial crosscorrelation; peak partial autocorrelation; peak partial correlation; small Kasami sets; spread-spectrum applications; Autocorrelation; Binary sequences; Communication systems; Discrete Fourier transforms; Helium; Interleaved codes; Mathematics; Multiaccess communication; Random sequences; Spread spectrum communication;
Journal_Title :
Information Theory, IEEE Transactions on
