Abstract
In the Internet of Things (IoT), the scope of wireless sensor nodes is extended to things deployed in a pervasive world. For various IoT service applications, things can gather and share their information with each other through self-decision-making. Therefore, we cannot apply the existing information aggregation methods of wireless sensor networks to the IoT environment, which aim to transmit the collected data to only a sink node or a central server. Moreover, since the existing methods involve all the sensor nodes in the process of data exchange, they can cause an increase in the network traffic, delay of data transmission, and amount of energy consumed by things. In this paper, we propose a clustering-property-based data exchange method for efficient energy consumption in IoT networks. First, the proposed method assigns properties to each thing according to the characteristics of the obtained data. Second, it constructs a cluster network considering the location of things and their energy consumption. Finally, the things in a cluster communicate with other things in a different cluster based on their properties. In the experiment, the proposed method exhibits a better performance than the existing method. Owing to the energy-saving effect, we demonstrate that the proposed method results in a more reliable network and improves the longevity of IoT networks.
Highlights
A wireless sensor network (WSN) is formed with many sensor nodes and deployed in our surroundings life to support smarter human life
With the extension of the WSNs, the concept of the Internet of things (IoT) has been proposed, and various application services have been developed in IoT networks
In IoT networks, the scope of sensor nodes is extended to the things pervasively scattered
Summary
A wireless sensor network (WSN) is formed with many sensor nodes and deployed in our surroundings life to support smarter human life. Based on the collected data, the sink node recognizes the current state of location the WSNs deployed and can send the information to the external network to perform the advanced analysis [1,2]. Instead of the transmission of data to the sink node, network configuration for data exchange between things is required, while maintaining efficient energy consumption. We proposed a cluster configuration and data exchange method for IoT network environments.
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