Title :
Enumeration and criteria for cyclically shift-distinct GMW sequences
Author :
Gong, Guang ; Dai, Zong Duo ; Golomb, Solomon W.
Author_Institution :
Dept. of Combinatorics & Optimization, Waterloo Univ., Ont., Canada
fDate :
3/1/2000 12:00:00 AM
Abstract :
Gordon-Mills-Welch (GMW) sequences (also called cascaded GMW sequences) have two-level autocorrelations. This property makes them widely used in various communication and cryptographic systems. The generation of q-ary GMW sequences of period qn-1 involves three types of parameters. To determine whether GMW sequences are cyclically shift-distinct for differing parameters has remained an open question until now. In this paper, we completely solve this problem for varying all three types of parameters. We find a criterion for cyclically shift-distinct q-ary GMW sequences of period qn-1, and obtain the number of such sequences. For the special case of q=2, this solution facilitates counting the number of cyclic Hadamard difference sets which correspond to binary GMW sequences of period 2n-1
Keywords :
correlation theory; sequences; Gordon-Mills-Welch sequences; cascaded GMW sequences; communication systems; cryptographic systems; cyclic Hadamard difference sets; cyclically shift-distinct GMW sequences; cyclically shift-distinct q-ary GMW sequences; period; q-ary GMW sequences; two-level autocorrelations; Autocorrelation; Boolean functions; Combinatorial mathematics; Communication system security; Communication systems; Cryptography; Laboratories; Radar applications; Signal detection; Wireless communication;
Journal_Title :
Information Theory, IEEE Transactions on
