Abstract
Multimedia delivery support has recently been added to Wireless Sensor Networks (WSN) and has led to increased interest in Wireless Multimedia Sensor Networks (WMSN). WMSNs are expected to be crucial to the success of applications related to the Internet of Things (IoT), such as smart health, smart surveillance, smart homes, etc. Alongside their improved multimedia capabilities, WMSNs inherit WSN limitations such as energy and processing constraints. Additionally, WMSNs have significant Quality of Service (QoS) requirements, since multimedia delivery requires increased network performance in terms of bandwidth, latency, etc. Balancing energy efficiency and QoS is a fundamental challenge for WMSN users and operators alike. This paper proposes Reinforcement Learning based Duty Cycle (rlDC), an innovative learning-based scheme to adjust the duty cycle and contention window of WMSN nodes in order to meet energy efficiency and QoS targets. By employing rlDC, WMSN sensor nodes intelligently adapt their operation according to network delivery performance and application requirements. The proposed rlDC scheme was evaluated under different use cases in a simulation environment, and testing results show it outperforms other state-of-the-art duty-cycle-based protocols for WMSNs.
Highlights
The Internet of Things (IoT) is set to influence significantly people lives, including via services which depend on interconnecting smart devices, sensors, actuators, etc
This paper introduces Reinforcement Learning based Duty Cycle (rlDC), an innovative machine learning-based scheme to adjust the duty cycle and transmission contention window of sensor nodes in order to balance energy efficiency and Quality of Service (QoS). rlDC acts at Medium Access Control (MAC) layer in the context of Wireless Multimedia Sensor Networks (WMSN) and focuses on issues related to energy consumption, and performance-aware MAC-layer parameter
Average throughput of rlDC achieves the highest value of 0.91 Mbps when weight factor for throughput (wT) is set to 0.9
Summary
The Internet of Things (IoT) is set to influence significantly people lives, including via services which depend on interconnecting smart devices, sensors, actuators, etc. Multimedia applications such as video conferencing, video on demand (VoD), real-time content delivery dominate Internet communications. They are expected to generate traffic which should account for approximately 75% of the overall traffic in 2020, as estimated in a Cisco report [7]. The same report states that the Internet traffic generated by video surveillance, one prominent application of WMSNs, will increase seven fold between 2017 and 2022. 3.4% of all Internet video traffic is expected to be related to video surveillance in 2022, up from 1.8% in 2017
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