Abstract

Applications running on the Internet of Things, such as the Wireless Sensor and Actuator Networks (WSANs) platform, generally have different quality of service (QoS) requirements. For urgent events, it is crucial that information be reported to the actuator quickly, and the communication cost is the second factor. However, for interesting events, communication costs, network lifetime and time all become important factors. In most situations, these different requirements cannot be satisfied simultaneously. In this paper, an adaptive communication control based on a differentiated delay (ACCDS) scheme is proposed to resolve this conflict. In an ACCDS, source nodes of events adaptively send various searching actuators routings (SARs) based on the degree of sensitivity to delay while maintaining the network lifetime. For a delay-sensitive event, the source node sends a large number of SARs to actuators to identify and inform the actuators in an extremely short time; thus, action can be taken quickly but at higher communication costs. For delay-insensitive events, the source node sends fewer SARs to reduce communication costs and improve network lifetime. Therefore, an ACCDS can meet the QoS requirements of different events using a differentiated delay framework. Theoretical analysis simulation results indicate that an ACCDS provides delay and communication costs and differentiated services; an ACCDS scheme can reduce the network delay by 11.111%–53.684% for a delay-sensitive event and reduce the communication costs by 5%–22.308% for interesting events, and reduce the network lifetime by about 28.713%.

Highlights

  • The Internet of Things (IoT) brings new trends and promising technologies to traditional Internet industries and society

  • Based on the above analyses, this paper proposes an adaptive communication control based on a differentiated delay (ACCDS) scheme to resolve this conflict

  • When the message regarding the event is transmitted to sensor nodes that store the actuators’ new location, the message will be sent to actuators along this tracking path; (2) if the event is urgent, the larger number of searching actuators routing (SAR) can be initiated by source nodes in different directions, the message can be sent to the actuators in a timely way; (3) if the routing path is too longer, when actuators receive the message from source nodes, actuators initiate a shortcutting II route directly to the event

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Summary

Introduction

The Internet of Things (IoT) brings new trends and promising technologies to traditional Internet industries and society. Wireless Sensor and Actuator Networks (WSANs), as one of the pivotal core components of the IoT [1,2,3,4], are emerging as a promising platform that enables a wide range of applications in military, scientific, industrial and commercial applications. Sensor nodes are tiny devices with limited sensing, energy, computation and Sensors 2017, 17, 138; doi:10.3390/s17010138 www.mdpi.com/journal/sensors wireless communication [5,6,7,8,9,10,11,12,13,14,15,16,17,18],with energy efficiency is acomputation pivotal issue forwireless network event [3,4]

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