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ICC
2007
IEEE
2007
IEEE
Decentralized Activation in a ZigBee-enabled Unattended Ground Sensor Network: A Correlated Equilibrium Game Theoretic Analysis
Abstract— We describe a decentralized learning-based activation algorithm for a ZigBee-enabled unattended ground sensor network. Sensor nodes learn to monitor their environment in a low-power “sleep” mode, until an intruder is detected, then enter a full-power mode only if the benefit for doing so outweighs an energy cost. Our formulation accounts for the energy required to transmit and the probability of successful transmission in a crowded ZigBee network. Since these depend on the activity of other nodes, we propose a decentralized adaptive algorithm for sensor activation based on game theoretic principles. We show that the algorithm tracks the time-varying set of correlated equilibria of the problem, and illustrate performance through simulation. The algorithm is described as a stochastic approximation, with attendant differential inclusion analysis.
Real-time TrafficAlgorithm | Communications | ICC 2007 | Learning-based Activation Algorithm | Unattended Ground Sensor |
| Added | 03 Jun 2010 |
| Updated | 03 Jun 2010 |
| Type | Conference |
| Year | 2007 |
| Where | ICC |
| Authors | Michael Maskery, Vikram Krishnamurthy |
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