Proceedings ArticleDOI
ET-MAC: An Energy-Efficient and High Throughput MAC Protocol for Wireless Sensor Networks
Hadi S. Aghdasi,Maghsoud Abbaspour +1 more
- pp 526-532
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TLDR
This paper designs an innovative contention-based MAC protocol for wireless sensor networks to provide long network lifetime that avoids major energy waste causes, such as idle listening, collision and overhearing, without compromising other network performance measures like latency.Abstract:
The efficient use of energy in wireless sensor networks is a critical issue as the sensor nodes typically operate with limited power sources. Most consumption energy of the sensor nodes is used for communication parts. MAC protocols directly control the communications in network; therefore, in this paper we design an innovative contention-based MAC protocol for wireless sensor networks to provide long network lifetime. Our MAC protocol embeds some extra information in long wake up preamble frame and it also uses collision avoidance signaling and handshaking. These ideas help wireless nodes to stay at sleep mode as much as possible. This protocol avoids major energy waste causes, such as idle listening, collision and overhearing, without compromising other network performance measures like latency. Our simulation results and analyses show that with dynamic traffic load, ET-MAC protocol achieves significant improvement in energy-efficiency and throughput, over well known MAC protocols like B-MAC.read more
Citations
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A Survey on Multimedia-Based Cross-Layer Optimization in Visual Sensor Networks
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An Energy-Efficient and High-Quality Video Transmission Architecture in Wireless Video-Based Sensor Networks
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A survey: energy exhausting attacks in MAC protocols in WBANs
TL;DR: The aim of this study was to identify the major types of energy exhausting attacks in MAC protocols in WBANs, and show how easily the attacks can cause energy exhaustion in different MAC protocols.
Evaluating medium access control protocols for wireless sensor networks
TL;DR: This thesis focuses on evaluating MAC protocols within the WSN domain by surveying a representative number of MAC protocols and their features, and proposes a holistic application-driven MAC protocol evaluation model that takes into account application emphasis on performance metrics.
Proceedings ArticleDOI
A survey and comparative study on different energy efficient MAC-protocols for Wireless Sensor Networks
TL;DR: This paper takes a closer look at the performance of the MAC-Protocols in Wireless Sensor Network in terms of energy efficiency in different situation and draws a conclusion comparing the protocols.
References
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Journal ArticleDOI
A survey on sensor networks
TL;DR: The current state of the art of sensor networks is captured in this article, where solutions are discussed under their related protocol stack layer sections.
Journal Article
An Energy-Efficient MAC Protocol for Wireless Sensor Networks
TL;DR: S-MAC as discussed by the authors is a medium access control protocol designed for wireless sensor networks, which uses three novel techniques to reduce energy consumption and support self-configuration, including virtual clusters to auto-sync on sleep schedules.
Proceedings ArticleDOI
An energy-efficient MAC protocol for wireless sensor networks
TL;DR: S-MAC uses three novel techniques to reduce energy consumption and support self-configuration, and applies message passing to reduce contention latency for sensor-network applications that require store-and-forward processing as data move through the network.
Proceedings ArticleDOI
Versatile low power media access for wireless sensor networks
TL;DR: B-MAC's flexibility results in better packet delivery rates, throughput, latency, and energy consumption than S-MAC, and the need for flexible protocols to effectively realize energy efficient sensor network applications is illustrated.
Proceedings ArticleDOI
An adaptive energy-efficient MAC protocol for wireless sensor networks
Tijs van Dam,Koen Langendoen +1 more
TL;DR: T-MAC, a contention-based Medium Access Control protocol for wireless sensor networks, introduces an adaptive duty cycle in a novel way: by dynamically ending the active part of it to handle load variations in time and location.