Title :
Game-theoretic learning for activation of diffusion least mean squares
Author :
Gharehshiran, Omid Namvar ; Krishnamurthy, Vikram ; Yin, George
Author_Institution :
Dept. of Electr. & Comput. Eng., Univ. of British Columbia, Vancouver, BC, Canada
Abstract :
This paper presents a game-theoretic approach to node activation control in parameter estimation via diffusion least mean squares (LMS). The energy-aware activation control is a noncooperative repeated game where nodes autonomously decide when to activate based on a utility function that captures the trade-off between node´s contribution and energy expenditure. The proposed two time-scale stochastic approximation algorithm ensures the parameter estimates weakly converge to the true parameter across the network, yet the global activation behavior along the way tracks the set of correlated equilibria of the underlying activation control game.
Keywords :
convergence; game theory; learning (artificial intelligence); least mean squares methods; parameter estimation; sensor fusion; stochastic processes; activation control game; convergence; data fusion; diffusion LMS; diffusion least mean squares; energy expenditure; energy-aware activation control; game-theoretic approach; game-theoretic learning; global activation behavior; node activation control; node autonomous decision; node contribution; noncooperative repeated game; parameter estimation; time-scale stochastic approximation algorithm; utility function; Adaptive systems; Artificial neural networks; Games; Joints; Least squares approximations; Parameter estimation; Peer-to-peer computing; Adaptive networks distributed estimation; game theory; stochastic approximation;
Conference_Titel :
Signal Processing Conference (EUSIPCO), 2013 Proceedings of the 21st European
Conference_Location :
Marrakech
