A comprehensive review of energy harvesting and routing strategies for IoT sensors sustainability and communication technology

计算机科学 计算机网络 MQTT公司 默认网关 无线传感器网络 能源消耗 6低底盘 网络数据包 路由协议 高效能源利用 能量收集 机器对机器 IPv6 能量(信号处理) 互联网 嵌入式系统 物联网 工程类 统计 电气工程 万维网 数学
作者
Hesam Nejati Sharif Aldin,Mostafa Razavi Ghods,Farnoush Nayebipour,Masoud Niazi Torshiz
出处
期刊:Sensors international [Elsevier BV]
卷期号:5: 100258-100258 被引量:64
标识
DOI:10.1016/j.sintl.2023.100258
摘要

The effectiveness and dependability of network communication within the Internet of Things (IoT) depends on the energy-harvesting capabilities of IoT sensors. It is imperative to efficiently handle energy resources to fulfill computational requirements, ensuring optimal performance and continuous operation of IoT sensors across various applications. This investigation examines the challenges associated with energy harvesting in commonly used IoT sensors and their corresponding communication technologies. This encompasses wireless communication, cyber–physical systems (CPS), machine-to-gateway communication (M2G), wireless power transmission (WPT), and IoT infrastructure and protocols such as IPv6, 6LoWPAN, MQTT, CoAP. Furthermore, the study explores routing algorithms within the IoT network context, recognizing their crucial role in addressing challenges related to sensor battery lifespan and energy conservation. Challenges in energy resource management, which include considerations of sensor types, spatial relationships, and connection stability, are also discussed. The study investigates the energy consumption of different types of connections in an IoT network during data transfer, considering factors such as jitter, packet loss, overhead, congestion, distance between nodes, network protocol (MQTT), and data size (32MB). Two scenarios are explored: one where the minimum frequency band and data rate are fixed, revealing that Sigfox consumes more energy than others, while Bluetooth v5.0 is more energy-efficient; and another where the maximum frequency band and data size are fixed, showing that 5G consumes more energy, whereas NB-IoT is more energy-efficient. Finally, the research investigates the energy consumption increments for various network connections (2G, 3G, 4G, 5G, Bluetooth V5.0, Sigfox, WiMAX, LoRaWAN, Zigbee, and NB-IoT) as the frequency band and network data rate increase from minimum to maximum values, revealing increments within the range of 7% to 71%.
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