Abstract
Trust evaluation is an effective method to detect malicious nodes and ensure security in wireless sensor networks (WSNs). In this paper, an efficient dynamic trust evaluation model (DTEM) for WSNs is proposed, which implements accurate, efficient, and dynamic trust evaluation by dynamically adjusting the weights of direct trust and indirect trust and the parameters of the update mechanism. To achieve accurate trust evaluation, the direct trust is calculated considering multitrust including communication trust, data trust, and energy trust with the punishment factor and regulating function. The indirect trust is evaluated conditionally by the trusted recommendations from a third party. Moreover, the integrated trust is measured by assigning dynamic weights for direct trust and indirect trust and combining them. Finally, we propose an update mechanism by a sliding window based on induced ordered weighted averaging operator to enhance flexibility. We can dynamically adapt the parameters and the interactive history windows number according to the actual needs of the network to realize dynamic update of direct trust value. Simulation results indicate that the proposed dynamic trust model is an efficient dynamic and attack-resistant trust evaluation model. Compared with existing approaches, the proposed dynamic trust model performs better in defending multiple malicious attacks.
Highlights
Nowadays, technology development in the fields of microelectromechanical system (MEMS) and wireless communication has facilitated the extensive distribution of wireless sensor networks (WSNs)
In our proposed efficient dynamic trust model, an update mechanism is defined by a sliding time window based on induced ordered weighted averaging operator (IOWA) to enhance flexibility
We analyze the performance of the dynamic trust evaluation model (DTEM), which includes the effect of dynamic weight value on integrated trust value and the direct trust value update mechanism
Summary
Technology development in the fields of microelectromechanical system (MEMS) and wireless communication has facilitated the extensive distribution of WSNs. It reflects the dynamic adaptability of the trust computing It can dynamically adjust the parameters of the update mechanism to update the trust value to meet the actual needs of the network environment. (2) To ensure that the trust model makes a decision more scientifically, dynamically, and adaptively, we define a dynamic balance weight factor function which is changed dynamically with the number of communication interactions. (3) To make sure that the proposed trust model can be configured and effectively applied to different environments with different requirements and against on-off attack, we give an update mechanism by a sliding time window based on induced ordered weighted averaging operator (IOWA) to enhance flexibility.
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