DocumentCode
3252063
Title
Efficient Distributed Medium Access Arbitration for Multi-Channel Wireless Sensor Networks
Author
Younis, Marwan ; Bushra, S.
Author_Institution
Univ. of Maryland Baltimore County, Catonsville
fYear
2007
fDate
24-28 June 2007
Firstpage
3666
Lastpage
3671
Abstract
Wireless sensor networks can be employed in a wide range of applications such as disaster management, combat field surveillance and homeland security. Sensors in such applications are deployed in mass and are usually constrained in the amount of available onboard energy. This paper presents ARCH, a distributed medium access arbitration of multi-radio-channel based sensor networks. ARCH is an energy efficient, scalable and collision free MAC layer protocol that combines frequency and time division principles for medium sharing. To achieve scalability sensors are partitioned into cells. One of the sensors in a cell is designated as a cell-head. ARCH employs a distributed algorithm for arbitrating channels among cells to enable simultaneous non-interfering data collection. Intra-cell transmissions are scheduled by the cell-head using the assigned channel. Cell-heads aggregate the gathered data and forward it over inter-cell-head paths to the base-station. The base-station assigns distinct channels to the independent branches of the inter- cell routing tree. Data transmission and reception on a branch is further scheduled in depth-first ordering. ARCH allows nodes to stay in the sleep mode for the longest duration and avoids collisions and thus it minimizes energy consumption and boosts the robustness of the network operation. The performance of ARCH is validated through simulation.
Keywords
access protocols; wireless sensor networks; collision free MAC layer protocol; distributed algorithm; distributed medium access arbitration; energy efficient MAC protocol; frequency division; inter-cell routing tree; intra-cell transmissions; medium sharing; multichannel wireless sensor networks; scalable protocol; simultaneous noninterfering data collection; time division; Access protocols; Aggregates; Distributed algorithms; Energy efficiency; Frequency conversion; Media Access Protocol; Scalability; Surveillance; Terrorism; Wireless sensor networks;
fLanguage
English
Publisher
ieee
Conference_Titel
Communications, 2007. ICC '07. IEEE International Conference on
Conference_Location
Glasgow
Print_ISBN
1-4244-0353-7
Type
conf
DOI
10.1109/ICC.2007.604
Filename
4289275
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