Channel selection in spectrum agile and cognitive MAC protocols for wireless sensor networks

Wireless Sensor Networks have emerged as a promising technology for enabling embedded sensing in many daily life applications. The ever growing popularity of wireless devices has caused crowding of the existing spectrum. One of the major issues faced by real sensor network deployments is the coexistence with other devices and symbiotic interoperability in uncoordinated wireless environments. Since sensor networks consist of low power embedded nodes, the issue of coexistence and interference avoidance becomes important as the nodes remain handicapped while competing against other less resource constrained devices for the same channel. Surprisingly only a limited amount of work has been done towards designing spectrum agile and cognitive MACs catering the inevitable wireless interference. The selection of an interference minimal channel for data communication is key for reliable operation of a sensor network MAC protocol. In this paper, we identify the fundamental design challenges for dynamic selection of an interference free channel in wireless sensor networks. We describe a lightweight channel selection strategy designed to efficiently cater the real world deployment issues. We have carried out performance evaluation of our scheme on real sensor nodes and measured metrics such as successful packet delivery ratios and throughput. We provide comparative analysis of our channel selection algorithm with a random channel scheme on a sensor node testbed in the presence of different types of wireless interference patterns. Experiments show that our scheme has fast convergence and is able to achieve higher throughput and successful packet delivery ratios.

[1]  Tian He,et al.  Realistic and Efficient Multi-Channel Communications in Wireless Sensor Networks , 2008, IEEE INFOCOM 2008 - The 27th Conference on Computer Communications.

[2]  Youngmin Kim,et al.  Y-MAC: An Energy-Efficient Multi-channel MAC Protocol for Dense Wireless Sensor Networks , 2008, 2008 International Conference on Information Processing in Sensor Networks (ipsn 2008).

[3]  Sang Hyuk Son,et al.  Robust node localization for wireless sensor networks , 2007, EmNets '07.

[4]  Petri Mähönen,et al.  Multi-radio medium access control protocol for wireless sensor networks , 2010, Int. J. Sens. Networks.

[5]  Jean C. Walrand,et al.  McMAC: A Parallel Rendezvous Multi-Channel MAC Protocol , 2007, 2007 IEEE Wireless Communications and Networking Conference.

[6]  Jalel Ben-Othman,et al.  Towards a classification of energy aware MAC protocols for wireless sensor networks , 2009 .

[7]  C. Cordeiro,et al.  IEEE 802.22: the first worldwide wireless standard based on cognitive radios , 2005, First IEEE International Symposium on New Frontiers in Dynamic Spectrum Access Networks, 2005. DySPAN 2005..

[8]  Antonis Kalis,et al.  HYMAC: Hybrid TDMA/FDMA Medium Access Control Protocol for Wireless Sensor Networks , 2007, 2007 IEEE 18th International Symposium on Personal, Indoor and Mobile Radio Communications.

[9]  Kris Steenhaut,et al.  Low-Overhead Dynamic Multi-channel MAC for Wireless Sensor Networks , 2010, EWSN.

[10]  Dharma P. Agrawal,et al.  Channel allocation and medium access control for wireless sensor networks , 2009, Ad Hoc Networks.

[11]  Janne Riihijärvi,et al.  Empirical time and frequency domain models of spectrum use , 2009, Phys. Commun..

[12]  Petri Mähönen,et al.  Spectrum Agile Medium Access Control Protocol for Wireless Sensor Networks , 2010, 2010 7th Annual IEEE Communications Society Conference on Sensor, Mesh and Ad Hoc Communications and Networks (SECON).

[13]  Ahmed Khattab,et al.  Demonstration Abstract: WARP – A Flexible Platform for Clean-Slate Wireless Medium Access Protocol Design , 2008 .

[14]  Kang G. Shin,et al.  OS-MAC: An Efficient MAC Protocol for Spectrum-Agile Wireless Networks , 2008, IEEE Transactions on Mobile Computing.

[15]  JeongGil Ko,et al.  Power Control for Mobile Sensor Networks: An Experimental Approach , 2010, 2010 7th Annual IEEE Communications Society Conference on Sensor, Mesh and Ad Hoc Communications and Networks (SECON).

[16]  Hongqiang Zhai,et al.  A dual-channel MAC protocol for mobile ad hoc networks , 2004, IEEE Global Telecommunications Conference Workshops, 2004. GlobeCom Workshops 2004..

[17]  Saurabh Ganeriwal,et al.  Optimizing sensor networks in the energy-density-latency design space , 2002 .

[18]  Sanjay Jha,et al.  An adaptive mobility-aware MAC protocol for sensor networks (MS-MAC) , 2004, 2004 IEEE International Conference on Mobile Ad-hoc and Sensor Systems (IEEE Cat. No.04EX975).

[19]  Kaushik R. Chowdhury,et al.  A survey on MAC protocols for cognitive radio networks , 2009, Ad Hoc Networks.

[20]  Petri Mähönen,et al.  A decentralized MAC for opportunistic spectrum access in cognitive wireless networks , 2010, CoRoNet '10.

[21]  Muneeb Ali,et al.  Medium access control with mobility-adaptive mechanisms for wireless sensor networks , 2006, Int. J. Sens. Networks.

[22]  Jan M. Rabaey,et al.  Low power distributed MAC for ad hoc sensor radio networks , 2001, GLOBECOM'01. IEEE Global Telecommunications Conference (Cat. No.01CH37270).

[23]  Cem Ersoy,et al.  MAC protocols for wireless sensor networks: a survey , 2006, IEEE Communications Magazine.

[24]  Weizhen Mao,et al.  Traffic-Aware Channel Assignment in Wireless Sensor Networks , 2009, WASA.

[25]  Gang Zhou,et al.  MMSN: Multi-Frequency Media Access Control for Wireless Sensor Networks , 2006, Proceedings IEEE INFOCOM 2006. 25TH IEEE International Conference on Computer Communications.

[26]  Zhiwu Liu,et al.  A Dynamic Multi-radio Multi-channel MAC Protocol for Wireless Sensor Networks , 2010, 2010 Second International Conference on Communication Software and Networks.

[27]  Philip Levis,et al.  An empirical study of low-power wireless , 2010, TOSN.

[28]  J. Stankovic,et al.  Crowded Spectrum in Wireless Sensor Networks , 2005 .

[29]  Wenyuan Xu,et al.  Defending wireless sensor networks from radio interference through channel adaptation , 2008, TOSN.

[30]  A. Sikora,et al.  Coexistence of IEEE802.15.4 with other Systems in the 2.4 GHz-ISM-Band , 2005, 2005 IEEE Instrumentationand Measurement Technology Conference Proceedings.