Abstract :
Detecting matrices are a class of combinatorial objects originated from the coin weighing problem of Soderberg and Shapiro in the early 1960s. In this paper, various known recursive construction techniques for binary, bipolar, and ternary detecting matrices are reexamined in a unifying framework. New, general recursive constructions of detecting matrices, which include previous recursive constructions as special cases, are derived. Such matrices find applications in multiuser coding since they are equivalent to a certain class of uniquely decodable multiuser codes for the binary adder channel. Interestingly, it is found that among the three kinds of detecting matrices, ternary detecting matrices are of fundamental significance from the combinatorial theoretic, as well as from the multiuser coding application, point of view.
Keywords :
channel coding; combinatorial mathematics; decoding; matrix algebra; multiuser channels; binary adder channel; coin weighing problem; combinatorial objects; decodable multiuser codes; detecting matrices; multiuser coding; recursive constructions; Africa; Codes; Councils; Decoding; Information theory; Materials science and technology; Milling machines; Binary adder channels; coin weighing; detecting matrices; multiuser codes; unique decodability;
