DocumentCode
3230681
Title
Interference networks with local view: A distributed optimization approach
Author
Xiao, Jun ; Aggarwal, Vaneet ; Sabharwal, Ashutosh ; Liu, Youjian
Author_Institution
Dept. of ECEE, Univ. of Colorado at Boulder, Boulder, CO, USA
fYear
2009
fDate
Sept. 30 2009-Oct. 2 2009
Firstpage
1195
Lastpage
1202
Abstract
In practice, a node in a network learns the channel through local message passing and obtains a local view of the network. Pure wireless message passing as well as mixed wireless and wireline message passing are considered in this paper. We study the distributed optimization of sum-rate for a class of deterministic interference networks with local view. A connection based utility function is designed for each user to exploit the local knowledge. This utility design turns out to be a potential game with sum-rate as the potential function. For the one-to-many channel with 1.5 wireless rounds of message passing, we show that there is a unique Nash equilibrium and using this strategy, the sum capacity can be achieved. We provide a sufficient condition for which a topology does not have unique Nash equilibrium. Then we consider the scenario that the network size and the users IDs are provided to each user. For various mixed wireless and wireline message passing patterns, including wireline at transmitter/receiver side and sequential/concurrent message passing scheduling, we identify whether a three-user interference network can achieve the sum capacity in a distributed fashion. Compared with the 1.5 pure wireless rounds of message passing, the results show that 2.5 mixed wireless and wireline rounds of message passing can significantly improve the system performance of three-user interference networks. We also derive some sufficient conditions for general K-user interference networks such that the sum capacity can not be achieved based on each user´s local view.
Keywords
game theory; information theory; interference (signal); message passing; telecommunication networks; Nash equilibrium; deterministic interference networks; distributed optimization; local view; mixed wireless; one-to-many channel; wireless message passing; wireline message passing; Game theory; Gaussian noise; Interference channels; Intrusion detection; Message passing; Nash equilibrium; Network topology; Sufficient conditions; System performance; Transmitters;
fLanguage
English
Publisher
ieee
Conference_Titel
Communication, Control, and Computing, 2009. Allerton 2009. 47th Annual Allerton Conference on
Conference_Location
Monticello, IL
Print_ISBN
978-1-4244-5870-7
Type
conf
DOI
10.1109/ALLERTON.2009.5394535
Filename
5394535
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