An Energy Efficient IPv6 Packet Delivery Outline for Industrial IoT Over G.9959 Protocol Based Wireless Sensor Network (WSN)
参考中译:基于G.9959协议的无线传感器网络(NSO)的工业物联网节能IPv6数据包交付大纲


          

刊名:SN Computer Science
作者:R. S. Veena(Department of Information Science and Engineering, Dayananda Sagar Academy of Technology and Management)
Geetanjli Khambra(Department of Computer Science and Applications, The Bhopal School of Social Sciences)
Rishi Sayal(Department of Computer Science and Engineering, Guru Nanak Instructions Technical Campus (Autonomous))
Nagendra Singh(Department of Electrical and Electronics Engineering, Trinity College of Engineering and Technology)
V. Bala Dhandayuthapani(Department of IT, College of Computing and Information Sciences, University of Technology and Applied Sciences)
Sumit Kumar Sar(Department of Computer Science, BIT Durg)
刊号:738E0336/I
ISSN:2661-8907
出版年:2024
年卷期:2024, vol.5, no.7
页码:813-1--813-11
总页数:11
分类号:TP3
关键词:IIoTWSNG.9959IPv6OPD
参考中译:IIoT; NSO; G.9959; IPv6; OPD
语种:eng
文摘:The world is witnessing a significant paradigm shift in the delivery and management of industrial services, driven by the need for automated manufacturing in industries such as mining. This transformation is pivotal as it leverages the Internet to interconnect people and devices, giving rise to a new field known as the Industrial Internet of Things (IIoT). IIoT represents the fusion of IoT's computational capabilities with the principles of the industrial revolution, facilitating extensive scalability through the transition from IPv4 to IPv6. A crucial challenge within IIoT is the battery life of sensor nodes, which is directly influenced by the efficiency of their operating modules and protocols. Various protocols have been tested within IIoT-based Wireless Sensor Networks (WSNs) to address this issue. However, these protocols often fall short in terms of data rate performance, which is essential for supporting the diverse range of IIoT applications and services. This manuscript investigates the IPv6 packet delivery rate, focusing on energy efficiency and delay. The research identifies the G.9959 protocol as superior to IEEE 802.15.4 for IIoT adoption. Additionally, it examines the impact of bandwidth variation on energy efficiency. Through comprehensive simulations, the proposed scheme demonstrates superior performance compared to existing protocols, highlighting its potential for enhancing IIoT applications.
参考中译:在矿业等行业对自动化制造的需求推动下,世界正在见证工业服务交付和管理的重大范式转变。这种转变至关重要,因为它利用互联网将人和设备互联起来,催生了一个被称为工业物联网(IIoT)的新领域。IIoT代表着物联网S计算能力与工业革命原则的融合,通过从IPV4到IPV6的过渡促进了广泛的可扩展性。IIoT中的一个关键挑战是传感器节点的电池寿命,这直接受到其操作模块和协议的效率的影响。为了解决这个问题,已经在基于IIoT的无线传感器网络(WSN)中测试了各种协议。然而,这些协议往往在数据速率性能方面达不到要求,而数据速率性能对于支持各种IIoT应用和服务来说是必不可少的。本文调查了IPv6数据包传递速率,重点研究了能效和延迟。研究发现,在采用IIoT方面,G.9959协议优于IEEE 802.15.4。此外,还研究了带宽变化对能效的影响。通过综合仿真,该方案表现出了优于现有协议的性能,突出了其在增强IIoT应用方面的潜力。



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