Abstract
Emerging short-lived (ephemeral) connections between wireless mobile devices have raised concerns over the security of ephemeral networks. An important security challenge in these networks is to identify misbehaving nodes, especially in places where a centrally managed station is absent. To tackle this problem, a local voting-based scheme (game) in which neighboring nodes quickly decide whether to discredit an accused (target) node in mobile networks has been introduced in the literature. However, nodes’ beliefs and reactions significantly affect the outcome of target node identification in the collaboration. In this paper, a plain Bayesian game between a benign node and a target node in one stage of a local voting-based scheme is proposed in order to capture uncertainties of nodes for target node identification. In this context, the expected utilities (payoffs) of players in the game are defined according to uncertainties of nodes regarding their monitoring systems, the type of target node and participants, and the outcome of the cooperation. Meanwhile, incentives are offered in payoffs in order to promote cooperation in the network. To discourage nodes from abusing incentives, a variable-benefit approach that rewards each player according to the value of their contribution to the game is introduced. Then, possible equilibrium points between a benign node and a malicious node are derived using a pure-strategy Bayesian Nash equilibrium (BNE) and a mixed-strategy BNE, ensuring that no node is able to improve its payoffs by changing its strategy. Finally, the behavior of malicious and benign nodes is studied via simulations. Specifically, it is shown how the aforementioned uncertainties and the designed incentives impact the strategies of the players and, consequently, the correct target-node identification.
Highlights
IntroductionIn the case of vehicular ad hoc networks (VANETs), a malicious vehicle can inject false information to its neighbors and trigger a serious
We study the impact of incentives on correct, wrong, and undecided target node identification
We evaluate and compare the percentage of target node identification for different sets of given parameters that lead to different equilibria for the game
Summary
In the case of vehicular ad hoc networks (VANETs), a malicious vehicle can inject false information to its neighbors and trigger a serious. In addition to data manipulation or sending false information, a malicious node can compromise the vehicle’s routing efficiency by not forwarding the packets that it received in the network. An important security improvement in ephemeral networks is to reveal the type of nodes, either benign or malicious, especially in places where centrally managed stations are absent. In such transitory distributed networks, quick cooperation among neighboring nodes can provide effective solutions toward improving network performance [7], [8]. Each node has some inherent uncertainties in a collaboration, including the type of participants, the accuracy of its own components (e.g., detection system), the value of its contribution, and attainable outcomes, all of which affect the node’s decision about whether to participate
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
