基于动态时间分配通信机制的DoS攻击下无人水面航行器网络编队控制

IF 8.9 1区 计算机科学 Q1 COMPUTER SCIENCE, INFORMATION SYSTEMS
Bing Huang;Jixiang Li;Zhen Zhang;Chengxi Zhang;Choon Ki Ahn
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引用次数: 0

摘要

物联网(IoT)应用显著提高了大规模联网无人水面车辆(usv)的作战效率和通信能力。然而,资源有限的通信中继站和潜在的拒绝服务(DoS)攻击对物联网系统的可靠性和安全性构成了严重威胁。针对这些挑战,本文提出了一种usv动态时间分配通信机制(DTACM),用于管理通信资源和维护编队安全。DTACM将usv划分为不同的组,并确保组间的交叉通信。这可以防止过多的个人同时占用通信站,从而防止潜在的通信延迟和数据包丢失。此外,为了评估DoS攻击造成的损害,本研究将平均停留时间自动机和时间比监视器引入混合系统。这些工具有助于分析系统在恶意攻击场景下的稳定性和弹性。最后,理论分析和仿真结果表明了所提控制方案的有效性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A Dynamic Time Assignment Communication Mechanism-Based Formation Control for Internet of Uncrewed Surface Vehicles Under DoS Attacks
The Internet of Things (IoT) application has significantly enhanced the operational efficiency and communication capabilities of large-scale networked uncrewed surface vehicles (USVs). Nevertheless, resource-limited communication relay stations and potential Denial of Service (DoS) attacks pose severe threats to the reliability and security of IoT systems. Given these challenges, this article proposes a dynamic time assignment communication mechanism (DTACM) for USVs to manage communication resources and maintain formation security. The DTACM categorizes USVs into distinct groups and ensures interleaved intergroup communication. This prevents excessive individuals from occupying communication stations simultaneously, thereby guarding against potential communication delays and packet loss. Furthermore, to assess the damage caused by DoS attacks, this study introduces the average dwell-time automaton and time-ratio monitor into a hybrid system. These tools facilitate the analysis of system stability and resilience under malicious attack scenarios. Finally, the theoretical analysis and simulation results show the effectiveness of the proposed control scheme.
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来源期刊
IEEE Internet of Things Journal
IEEE Internet of Things Journal Computer Science-Information Systems
CiteScore
17.60
自引率
13.20%
发文量
1982
期刊介绍: The EEE Internet of Things (IoT) Journal publishes articles and review articles covering various aspects of IoT, including IoT system architecture, IoT enabling technologies, IoT communication and networking protocols such as network coding, and IoT services and applications. Topics encompass IoT's impacts on sensor technologies, big data management, and future internet design for applications like smart cities and smart homes. Fields of interest include IoT architecture such as things-centric, data-centric, service-oriented IoT architecture; IoT enabling technologies and systematic integration such as sensor technologies, big sensor data management, and future Internet design for IoT; IoT services, applications, and test-beds such as IoT service middleware, IoT application programming interface (API), IoT application design, and IoT trials/experiments; IoT standardization activities and technology development in different standard development organizations (SDO) such as IEEE, IETF, ITU, 3GPP, ETSI, etc.
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