- Source: Kasami code
Kasami sequences are binary sequences of length 2N−1 where N is an even integer. Kasami sequences have good cross-correlation values approaching the Welch lower bound. There are two classes of Kasami sequences—the small set and the large set.
Kasami Set
The process of generating a Kasami sequence is initiated by generating a maximum length sequence a(n), where n = 1…2N−1. Maximum length sequences are periodic sequences with a period of exactly 2N−1. Next, a secondary sequence is derived from the initial sequence via cyclic decimation sampling as b(n) = a(q ⋅ n), where q = 2N/2+1. Modified sequences are then formed by adding a(n) and cyclically time shifted versions of b(n) using modulo-two arithmetic, which is also termed the exclusive or (xor) operation. Computing modified sequences from all 2N/2 unique time shifts of b(n) forms the Kasami set of code sequences.
See also
Gold sequence (aka Gold code)
JPL sequence (aka JPL code)
References
Kasami, Tadao (1966). Weight Distribution Formula for Some Class of Cyclic Codes (PDF) (Technical report). University of Illinois. hdl:2142/74439. R285.
Welch, Lloyd Richard (May 1974). "Lower Bounds on the Maximum Cross Correlation of Signals". IEEE Transactions on Information Theory. 20 (3): 397–399. doi:10.1109/TIT.1974.1055219.
Goiser, Alois M. J. (1998). "4.4 Kasami-Folgen" [Kasami sequences]. Handbuch der Spread-Spectrum Technik [Handbook of the spread-spectrum technique] (in German) (1 ed.). Vienna, Austria: Springer Verlag. ISBN 3-211-83080-4.
Kata Kunci Pencarian:
- Daftar acara Colors
- Kasami code
- Kasami
- Gold code
- Tadao Kasami
- Pseudorandom noise
- CKY
- Pulse compression
- JPL sequence
- Pseudorandom binary sequence
- Bent function
