Title :
Superimposed codes for the multiaccess binary adder channel
Author :
Fan, P.Z. ; Darnell, M. ; Honary, B.
Author_Institution :
Dept. of Electron. Eng., Hull Univ., UK
fDate :
7/1/1995 12:00:00 AM
Abstract :
Superimposed codes for multiple-access communication in a binary adder channel are analyzed. The superposition mechanism used in this correspondence is ordinary addition. Each user is assigned a codeword from a superimposed code. It is proved that every constant-weight code C of weight w and maximal correlation c corresponds to a subclass of a disjunctive code D of order m<w/c. Therefore, any m or less codewords in C which are used at the same time yield a uniquely decodable code combination at the output of the adder channel. In the noisy case, for each subset A⊆C of size |A|⩽m≪T the receiver is able to determine the number of active users and to distinguish between the active users if the weight of the error pattern e satisfies Wt(e)<min{w-c|A|, w/2}. Decoding algorithms for both the noiseless and the noisy cases are proposed
Keywords :
adders; channel coding; decoding; error correction codes; active users; code combination; codeword; constant-weight code; decoding algorithms; disjunctive code; error pattern; error-correcting codes; maximal correlation; multiaccess binary adder channel; multiple-access communication; noiseless case; noisy case; ordinary addition; superimposed codes; superposition mechanism; Active noise reduction; Binary codes; Conferences; Decoding; Error correction codes; Information retrieval; Information theory; Multiaccess communication;
Journal_Title :
Information Theory, IEEE Transactions on
