Abstract
Wireless sensor networks (WSNs) provide network services through the cooperation of sensor nodes, while the basis of cooperation depends on the trust relationships among the nodes. In this paper, we construct an evolutionary game-based trust strategy model among the nodes in WSNs, and we subsequently introduce a strategy adjustment mechanism into the process of game evolution to make up for the deficiency that the replicator dynamic model cannot reflect the requirement of individual strategy adjustments. Afterward, we derive theorems and inferences in terms of the evolutionary stable state through dynamic analyses, providing a theoretical basis for WSN trust management. Furthermore, we verify the theorems and inferences with different parameter values, especially the trust incentive and the upper limit of data retransmission after packets are lost, and both of them are closely related to the evolutionary stable state. The experiments demonstrated that, under certain conditions, the involved nodes can finally reach a stable state of the system by constantly adjusting their trust strategy. At the same time, the speed of evolution of our strategy adjustment mechanism in achieving the stable state is much faster than that of the usual replicator dynamic evolution method.
Highlights
Wireless sensor networks (WSNs) have developed from a promising research area to a useful technology that is applicable to real-world scenarios
(2) Accounting for the strategy choice process of individuals, we propose a dynamic evolution method that is based on strategy adjustment and we prove theorems and inferences in terms that involve how to use the trust strategy game model for the system to reach a stable state, through theoretical analyses and experimental verification
We learn the evolutionary dynamics based on the rethinking mechanism from [26] for the strategy choice, and we propose a strategy adjustment mechanism that is based on dynamic evolution
Summary
WSNs have developed from a promising research area to a useful technology that is applicable to real-world scenarios. We use a new dynamic evolution method that is based on strategy adjustment, to derive and further prove the related theorems and inferences in terms that involve how to use the trust strategy game model for the system to reach a stable state. (2) Accounting for the strategy choice process of individuals, we propose a dynamic evolution method that is based on strategy adjustment and we prove theorems and inferences in terms that involve how to use the trust strategy game model for the system to reach a stable state, through theoretical analyses and experimental verification.
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