Title :
Multiple-access channels with memory with and without frame synchronism
Author_Institution :
Dept. of Electr. Eng., Princeton Univ., NJ, USA
fDate :
5/1/1989 12:00:00 AM
Abstract :
The capacity region of frame-synchronous and frame-asynchronous, discrete, two-user multiple-access channels with finite memory is obtained. Frame synchronism refers to the ability of the transmitters to send their code words in unison. The absence of frame synchronism in memoryless multiple-access channels is known to result in the removal of the convex hull operation from the expression of the capacity region. It is shown that when the channel has memory, frame asynchronism rules out nonstationary inputs to achieve any point in the capacity region, thereby allowing only coding strategies that involve cooperation in the frequency domain but not in the time domain. This restriction drastically reduces the capacity region of some multiple-access channels with memory, and in particular the total capacity of the channel, which is invariant to frame asynchronism for memoryless channels
Keywords :
channel capacity; encoding; information theory; multi-access systems; telecommunication channels; capacity region; coding strategies; convex hull operation; discrete channels; finite memory; frame asynchronism; frame asynchronous channels; frame synchronism; frame synchronous channels; frequency domain; memoryless channels; two-user multiple-access channels; Channel capacity; Decoding; Frequency domain analysis; Frequency synchronization; Helium; Information theory; Memoryless systems; Timing; Transmitters; Upper bound;
Journal_Title :
Information Theory, IEEE Transactions on
