Title :
On the capacity of the asynchronous T-user M-frequency noiseless multiple-access channel without intensity information
Author :
Vinck, A. J Han ; Keuning, K. Jeroen
Author_Institution :
Inst. for Exp. Math., Essen Univ., Germany
fDate :
11/1/1996 12:00:00 AM
Abstract :
We discuss an achievable rate region for the asynchronous T-user M-frequency multiple-access channel without intensity information. The problem is formulated in terms of frequencies, but the results are also applicable to pulse position modulation (PPM) schemes. It is shown that the achievable sum rate for T users reduces from (M-1) bits per channel use in the synchronous multiple-access situation to at least (M-1)·ln (2) bits per channel use in the asynchronous situation. In particular, the result shows that for instance, for multitone M-ary frequency shift keying multiple access, in asynchronous operation, multiple user interference reduces the capacity maximally by a factor ln(2)=0.693 relative to the ideal TDMA system
Keywords :
channel capacity; frequency shift keying; interference (signal); multi-access systems; pulse position modulation; synchronisation; PPM; achievable rate region; achievable sum rate; asynchronous T-user M-frequency noiseless multiple-access channel; asynchronous operation; asynchronous situation; capacity; frequencies; intensity information; multiple user interference; multitone M-ary frequency shift keying multiple access; pulse position modulation; synchronous multiple-access situation; Channel capacity; Digital communication; Frequency shift keying; H infinity control; Interference; Mathematics; Pulse modulation; Signal processing; Time division multiple access; Viterbi algorithm;
Journal_Title :
Information Theory, IEEE Transactions on
