Abstract
Energy harvesting wireless sensor network (EH-WSN) is considered to be one of the key enabling technologies for the internet of things (IoT) construction. Although the introduced EH technology can alleviate the energy limitation problem that occurs in the traditional wireless sensor network (WSN), most of the current studies on EH-WSN fail to adequately consider the relationship between energy state and data buffer constraint, and thereby they do not address well the issues of energy efficiency and long end-to-end delay. In view of the above problems, a brand new greedy strategy-based energy-efficient routing protocol is proposed in this paper. Firstly, in the system modeling process, we construct an energy evaluation model, which comprehensively considers the energy harvesting, energy consumption and energy classification factors, to identify the energy state of node. Then, we establish a channel feature-based communication range judgment model to determine the transmission area of nodes. Combining these two models, a reception state adjustment mechanism is designed. It takes the buffer occupancy and the MAC layer protocol into account to adjust the data reception state of nodes. On this basis, we propose a greedy strategy-based routing algorithm. In addition, we also analyze the correctness and computational complexity of the proposed algorithm. Finally, we conduct extensive simulation experiments to show that our algorithm achieves optimum performance in energy consumption, packet delivery ratio, average hop count and end-to-end delay and acceptable performance in energy variance.
Highlights
Wireless sensor network (WSN) plays a significant role in constructing internet of things (IoT) systems, which is composed of many sensor nodes in a multi-hop self-organizing manner
Many routing algorithms have been proposed for energy harvesting wireless sensor networks (EH-WSNs) which focus on exploiting the harvested energy and optimizing energy efficiency [6,7,8,9]
We use the MATLAB platform to depict the performance of our algorithm, GS-EERA, under different parameter settings and compare them with SAGREH [8], Energy Harvesting Routing (EHR) [6] and EHPRP [11]
Summary
Wireless sensor network (WSN) plays a significant role in constructing IoT systems, which is composed of many sensor nodes in a multi-hop self-organizing manner. Due to the properties of easy connectivity and high data rate, WSN has been widely used in diverse fields including the military, industry, agriculture and so on [1,2,3]. As it is battery powered, the lifetime of a sensor node is limited by the battery capacity. With the development of green energy, energy harvesting (EH) techniques are introduced into the WSNs. Driven by the EH techniques, nodes can intake energy from the ambient environment (e.g., solar, wind, RF radiation, etc.) and recharge their batteries during operation, which can improve the energy efficiency and extend the lifetime of the network [4,5]. Many routing algorithms have been proposed for energy harvesting wireless sensor networks (EH-WSNs) which focus on exploiting the harvested energy and optimizing energy efficiency [6,7,8,9]
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