ART: Adaptive relay transmission for highly reliable communications in next-generation wireless LANs

IF 4.4 2区 计算机科学 Q1 COMPUTER SCIENCE, HARDWARE & ARCHITECTURE
Yu-Ran Jeon , Jung-Hwa Ryu , Il-Gu Lee
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引用次数: 0

Abstract

The ongoing evolution of Wi-Fi technology has spurred the development of high-performance and highly efficient wireless networks. The recently introduced Institute of Electrical and Electronics Engineers (IEEE) 802.11bn standard aims to foster next-generation Wi-Fi technology, thereby ensuring ultra-high reliability by significantly enhancing data throughput, reducing latency, and minimizing power consumption. However, despite the expanding market for information technology products equipped with Wi-Fi and the escalating security risks associated with wireless local area networks, current standardization efforts fall short in bolstering security. This study proposes a transmission scheme in which a station discerns the security and latency requirements of packets and executes Adaptive Relay Transmission (ART). When low-latency transmission is imperative, the ART scheme resorts to a direct transmission approach using single-hop transmission. Conversely, when stringent security measures are warranted, it adopts a relay transmission scheme to minimize the risk of eavesdropping by transmitting packets with short hops. In scenarios necessitating both low latency and a high level of security, a transmission scheme is selected based on a comprehensive evaluation of data throughput, energy efficiency, and security, thereby enhancing the network reliability. Experimental results indicate that ART enhances the network energy efficiency by 13.1 times compared to the direct transmission scheme, which consistently employs direct packet transmission in a delay-tolerant network environment. Furthermore, it limits information leakage to the level of the relay packet transmission scheme, which utilizes multiple hops in a high-security threat environment. ART also boosts the network throughput environment by 212.4 % compared to the direct transmission scheme in a densely populated network and maintains link throughput even in scenarios affected by significant interference, thereby demonstrating effective interference mitigation. The experimental results underscore the efficacy of the ART model in mitigating strong interference and addressing security threats in high-density wireless sensor networks.

ART:在下一代无线局域网中实现高可靠性通信的自适应中继传输
Wi-Fi 技术的不断发展推动了高性能、高效率无线网络的发展。最近推出的电气与电子工程师协会(IEEE)802.11bn 标准旨在促进下一代 Wi-Fi 技术的发展,从而通过显著提高数据吞吐量、减少延迟和降低功耗来确保超高可靠性。然而,尽管配备 Wi-Fi 的信息技术产品市场在不断扩大,与无线局域网相关的安全风险也在不断升级,但目前的标准化工作在加强安全性方面仍存在不足。本研究提出了一种传输方案,在该方案中,站点可识别数据包的安全性和延迟要求,并执行自适应中继传输(ART)。当必须进行低延迟传输时,ART 方案会采用单跳传输的直接传输方式。相反,当需要采取严格的安全措施时,它就会采用中继传输方案,通过短跳传输数据包来最大限度地降低窃听风险。在既需要低延迟又需要高安全级别的情况下,会根据数据吞吐量、能效和安全性的综合评估来选择传输方案,从而提高网络的可靠性。实验结果表明,与直接传输方案相比,ART 将网络能效提高了 13.1 倍。此外,ART 还将信息泄漏限制在中继数据包传输方案的水平,该方案在高安全威胁环境中使用多跳传输。在人口稠密的网络中,ART 还将网络吞吐量环境比直接传输方案提高了 212.4%,即使在受严重干扰影响的情况下也能保持链路吞吐量,从而体现了有效的干扰缓解。实验结果证明了 ART 模型在高密度无线传感器网络中缓解强干扰和应对安全威胁的功效。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Computer Networks
Computer Networks 工程技术-电信学
CiteScore
10.80
自引率
3.60%
发文量
434
审稿时长
8.6 months
期刊介绍: Computer Networks is an international, archival journal providing a publication vehicle for complete coverage of all topics of interest to those involved in the computer communications networking area. The audience includes researchers, managers and operators of networks as well as designers and implementors. The Editorial Board will consider any material for publication that is of interest to those groups.
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