Title :
SA-MAC: Self-Stabilizing Adaptive MAC Protocol for Wireless Sensor Networks
Author :
Cheng Bo ; Xiang-Yang Li ; Yue Tao ; Teymour, Fouad ; Anderson, Patrick ; Shangping Ren
Author_Institution :
Illinois Inst. of Technol., Chicago, IL, USA
Abstract :
A common method of prolonging the lifetime of wireless sensor networks is to use low power duty cycling protocol. Existing protocols consist of two categories: sender-initiated, and receiver-initiated. In this paper, we present SA-MAC, a Self-stabilizing Adaptive MAC protocol for wireless sensor networks. SA-MAC dynamically adjusts the transmission time-slot, waking up time-slot, and packet detection patten according to current network working condition, such as packet length and wake-up patterns of neighboring nodes. In the long run, every sensor node will find its own transmission phase so that the network will enter a stable stage when the network load and qualities are static. We conduct extensive experiments to evaluate the energy consumption, packet reception rate of SA-MAC in real sensor networking systems. Our results indicate that SA-MAC outperforms other existing protocols.
Keywords :
access protocols; energy consumption; wireless sensor networks; SA-MAC; energy consumption; low power duty cycling; neighboring nodes; network load; packet detection patten; packet reception rate; receiver-initiated; self-stabilizing adaptive MAC protocol; sender-initiated; sensor networking systems; transmission phase; transmission time-slot; wake-up patterns; wireless sensor networks; Energy consumption; Media Access Protocol; Packet loss; Power demand; Receivers; Wireless sensor networks; Duty Cycling Protocol; SA-MAC; receiver-initiated; sender-initiated;
Conference_Titel :
Distributed Computing Systems Workshops (ICDCSW), 2013 IEEE 33rd International Conference on
Conference_Location :
Philadelphia, PA
Print_ISBN :
978-1-4799-3247-4
DOI :
10.1109/ICDCSW.2013.26
