This paper employs an audit bit based mechanism to mitigate the effect of Byzantine attacks. In this framework, the optimal attacking strategy for intelligent attackers is investigated for the traditional audit bit based scheme (TAS) to evaluate the robustness of the system. We show that it is possible for an intelligent attacker to degrade the performance of TAS to the system without audit bits. To enhance the robustness of the system in the presence of intelligent attackers, we propose an enhanced audit bit based scheme (EAS). The optimal fusion rule for the proposed scheme is derived and the detection performance of the system is evaluated via the probability of error for the system. Simulation results show that the proposed EAS improves the robustness and the detection performance of the system. Moreover, based on EAS, another new scheme called the reduced audit bit based scheme (RAS) is proposed which further improves system performance. We derive the new optimal fusion rule and the simulation results show that RAS outperforms EAS and TAS in terms of both robustness and detection performance of the system. Then, we extend the proposed RAS for a wide-area cluster based distributed wireless sensor networks (CWSNs). Simulation results show that the proposed RAS significantly reduces the communication overhead between the sensors and the FC, which prolongs the lifetime of the network.
翻译:本文采用了基于审计的比重机制,以减轻拜占庭袭击的影响。在这个框架内,对基于审计比重的传统计划(TAS)对智能攻击者的最佳攻击战略进行了调查,以评价系统的稳健性。我们表明,智能攻击者有可能在没有审计比重的情况下将TAS的性能降低到系统中。为了在智能攻击者面前加强系统的稳健性,我们提议了一个基于审计比重的强化计划(EAS)。为拟议中的计划,通过系统误差的概率来评估系统的探测性能。模拟结果表明,拟议的EAS提高了系统的稳健性和检测性能。此外,根据EAS,还提出了另一个称作减少审计比重计划的新计划,以进一步改进系统的性能。我们提出了新的最佳合并规则和模拟结果表明,从系统稳健性和检测性两方面看,RAS和TAS都优于EAS和TAS的检测性能。然后,我们将拟议的RAS扩大到一个以广域集群为基础的RAS集群集群网络,从而大大降低无线传感器的寿命。