Title :
Capacity achieving coding for the “OR” multiple access channel
Author_Institution :
Inst. for Exp. Math., Essen Univ., Germany
Abstract :
We discuss a particular method of random access communications for asynchronous multiple access. We first compare the classical synchronous capacity with the respective asynchronous capacities for three different types of multiuser channels: the OR; the OR with intensity information and the XOR. We assume that the number of active users (inputs) T is large. In particular, we show that for instance, for M-ary input asynchronous access, multiple user interference reduces the capacity for the OR channel, from (M-1) to (ln2)(M-1) bits per transmission. However, for the OR with intensity information the channel capacity reduces from log2(T+1) to 0.83 bits per transmission. For the binary input XOR, the capacity reduces from 1 to 0.32 bits per transmission. We conclude with a capacity achieving transmission method for the M-ary input OR channel and compare the presented method with earlier results
Keywords :
Boolean functions; channel capacity; channel coding; frequency shift keying; multi-access systems; multiuser channels; FSK; M-ary input OR channel; M-ary input asynchronous access; OR multiple access channel; active users; asynchronous capacity; asynchronous multiple access; binary input XOR; capacity achieving transmission method; channel capacity; intensity information; multiple access communications; multiple user interference; multiuser channels; random access communications; synchronous capacity; Artificial intelligence; Capacity planning; Channel capacity; Decoding; Entropy; Frequency shift keying; Information theory; Interference; Throughput; Viterbi algorithm;
Conference_Titel :
Information Theory Workshop, 1998
Conference_Location :
Killarney
Print_ISBN :
0-7803-4408-1
DOI :
10.1109/ITW.1998.706470
