Abstract
In this work, we investigate a three-user cognitive communication network where a primary two-user multiple access channel suffers interference from a secondary point-to-point channel, sharing the same medium. While the point-to-point channel transmitter—transmitter 3—causes an interference at the primary multiple access channel receiver, we assume that the primary channel transmitters—transmitters 1 and 2—do not cause any interference at the point-to-point receiver. It is assumed that one of the multiple access channel transmitters has cognitive capabilities and cribs causally from the other multiple access channel transmitter. Furthermore, we assume that the cognitive transmitter knows the message of transmitter 3 in a non-causal manner, thus introducing the three-user multiple access cognitive Z-interference channel. We obtain inner and outer bounds on the capacity region of the this channel for both causal and strictly causal cribbing cognitive encoders. We further investigate different variations and aspects of the channel, referring to some previously studied cases. Attempting to better characterize the capacity region we look at the vertex points of the capacity region where each one of the transmitters tries to achieve its maximal rate. Moreover, we find the capacity region of a special case of a certain kind of more-capable multiple access cognitive Z-interference channels. In addition, we study the case of full unidirectional cooperation between the 2 multiple access channel encoders. Finally, since direct cribbing allows us full cognition in the case of continuous input alphabets, we study the case of partial cribbing, i.e., when the cribbing is performed via a deterministic function.
Highlights
Two of the most fundamental multi-terminal communication channels are the Multiple-AccessChannel (MAC) and the Interference Channel (IFC)
We focus on aspects of cognition in terms of the ability to recognize the primary user and adapt its communication strategy to minimize the interference that it generates, while maximizing its own Quality of Service (QoS)
We introduce Multiple Access Cognitive Z-Interference Channel (MA-CZIC) which consists of three transmitters and two receivers; two-user MAC as a primary network and a point-to-point channel as a secondary channel
Summary
Two of the most fundamental multi-terminal communication channels are the Multiple-Access. Cognition stands for awareness of system paramters, such as operative frequencies, time schedules, space directivity, and actual transmission The latter refers to transmitted messages of interfering transmitters, which are either monitored by receiving the interfering signals (cribbing), or on a network scale (a-priori available transmitted messages). We study a common wireless scenario in which a Multiple Access Channel (MAC) suffers interferences from a point-to-point (P2P) channel sharing the same medium. We introduce Multiple Access Cognitive Z-Interference Channel (MA-CZIC) which consists of three transmitters and two receivers; two-user MAC as a primary. The cognition of the P2P signal may model the fact that the same user produced a P2P message to another point, and naturally it is cognizant of the message W3 This channel model generalizes several previously studied setups: without Encoder 3, the system reduces to a MAC with a cribbing encoder as in [26].
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