Author_Institution :
Telecommun. & Signal Process. Lab., Shenzhen Univ., Shenzhen, China
Abstract :
In this paper, we consider energy fairness problem in wireless sensor networks. However, the heterogeneous hostile operating conditions - different transmission distances, varying fading environments and distinct remained energy levels, have made energy balancing a highly challenging design issue. To tackle this problem, we model the packet transmission of sensor nodes as a game. By properly designing the utility function, we get the Nash equilibrium, in which, while each node can optimize its own payoff, the global objective - energy balancing can also be achieved. In addition, by imposing penalty mechanism on sensors to punish selfish behaviors, the delivery rate and delay constraints are also satisfied. Through extensive simulations, the proposed game theoretical approach is proved to be effective in that the energy consumption is balanced and the energy resources are efficiently utilized, which can significantly improve the network lifetime.
Keywords :
game theory; wireless sensor networks; Nash equilibrium; distinct remained energy level; energy consumption balancing; energy fairness problem; game theory; heterogeneous wireless sensor networks; network lifetime; packet transmission; penalty mechanism; selfish behavior; transmission distance; utility function; varying fading environment; Energy consumption; Equations; Games; Mathematical model; Probability; Signal to noise ratio; Wireless sensor networks; Nash equilibrium; energy balancing; fairness; game theory; transmission load assignment; wireless sensor networks;
