Title :
Game theory and the flat-fading gaussian interference channel
Author :
Larsson, Erik G. ; Jorswieck, Eduard A. ; Lindblom, Johannes ; Mochaourab, Rami
Author_Institution :
Dept. of Electr. Eng. (ISY), Linkoping Univ. in Sweden, Linkoping, Sweden
fDate :
9/1/2009 12:00:00 AM
Abstract :
In this article, we described some basic concepts from noncooperative and cooperative game theory and illustrated them by three examples using the interference channel model, namely, the power allocation game for SISO IFC, the beamforming game for MISO IFC, and the transmit covariance game for MIMO IFC. In noncooperative game theory, we restricted ourselves to discuss the NE and PoA and their interpretations in the context of our application. Extensions to other noncooperative approaches include Stackelberg equilibria and the corresponding question "Who will go first?" We also correlated equilibria where a certain type of common randomness can be exploited to increase the utility region. We leave the large area of coalitional game theory open.
Keywords :
MIMO communication; game theory; radiofrequency interference; MIMO system; MISO system; SISO system; Stackelberg equilibria; beamforming game; flat-fading Gaussian interference channel; multiple-input multiple-output system; multiple-input single-output system; noncooperative game theory; power allocation game; resource conflicts; single-input single-output system; transmit covariance game; wireless networks; Array signal processing; Availability; Game theory; Humans; Interference channels; Multiaccess communication; Power engineering and energy; Resource management; Terminology; Wireless networks;
Journal_Title :
Signal Processing Magazine, IEEE
DOI :
10.1109/MSP.2009.933370
