Decentralized link adaptation for multi-link MIMO interference system

Decentralized link adaptation for multi-link MIMO interference system

A decentralized link adaptation algorithm designed for multi-link MIMO interference systems to jointly optimize the power and the number of links is presented in this contribution. Game theory is adapted and used for both allocating resources and admitting users (i.e. with embedded congestion contro...

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Bibliographic Details
Published in:2009 Sixth International Conference on Wireless On-Demand Network Systems and Services pp. 71 - 77
Main Authors: Mehmood, M.T., Marzouki, A., Zeghlache, D.
Format: Conference Proceeding
Language:English
Published: IEEE 01-02-2009
Subjects:
Algorithm design and analysis
Analytical models
Design optimization
Energy management
Game theory
Interference
MIMO
Resource management
Traffic control
Transmitters
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Summary:A decentralized link adaptation algorithm designed for multi-link MIMO interference systems to jointly optimize the power and the number of links is presented in this contribution. Game theory is adapted and used for both allocating resources and admitting users (i.e. with embedded congestion control). The MIMO interference system is mapped into a multi-player game. The solution of the proposed game is provided by a new gradient based decentralized link adaptation algorithm. The new algorithm allocates adaptively the power and the modulation scheme of the transmitter and maintains the optimum number of links using soft decision criteria based on the link metric. Each link decision depends on the type of traffic and the QoS requirements. An analytical framework is provided along with simulations and an analysis of the algorithm behavior under different system conditions. This type of algorithm is applicable to spectrum sharing and power management to reduce interference and energy consumption.
DOI:10.1109/WONS.2009.4801845