Combination Adaptive Traffic Algorithm and Coordinated Sleeping in Wireless Sensor Network

  • M. Udin Harun Al Rasyid Electronic Engineering Polytechnic Institute of Surabaya
  • Eka Saputra Aji Electronic Engineering Polytechnic Institute of Surabaya
  • Isbat Uzzin Nadhori Electronic Engineering Polytechnic Institute of Surabaya


Wireless sensor network (WSN) uses a battery as its primary power source, so that WSN will be limited to battery power for long operations. The WSN should be able to save the energy consumption in order to operate in a long time.WSN has the potential to be the future of wireless communications solutions. WSN are small but has a variety of functions that can help human life. WSN has the wide variety of sensors and can communicate quickly making it easier for people to obtain information accurately and quickly. In this study, we combine adaptive traffic algorithms and coordinated sleeping as powerâ€efficient WSN solution. We compared the performance of our proposed ideas combination adaptive traffic and coordinated sleeping algorithm with nonâ€adaptive scheme. From the simulation results, our proposed idea has goodâ€quality data transmission and more efficient in energy consumption, but it has higher delay than that of nonâ€adaptive scheme.

Keywords:WSN,adaptive traffic,coordinated sleeping,beacon order,superframe order.


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Kazuo MORI, Katsuhiro NAITO, and Hideo KOBAYASHI."Adaptive Backoff Control Method for Traffic Adaptive Active Period Control in Clusterâ€based IEEE 802.15.4 WSNs", Vehicular Technology Conference Fall (VTC 2009â€Fall), 2009 IEEE 70th.

Kazuo MORI, Katsuhiro NAITO, and Hideo KOBAYASHI."Traffic Adaptive Active Period Control with Adaptive Backoff Window for Clusterâ€based IEEE 802.15.4 Wireless Sensor Networks",International Conference onTelecommunications, 2009. ICT '09.

Marwa S, Wail M,YaserE,Muneer Y ."Optimal Beacon and Superframe Orders in WSNs ", Jordan University of Science and Technogy, Jordan, 2013.

Wei Ye, John Heidemann, and Deborah Estrin, “Medium Access Control With Coordinated Adaptive Sleeping for Wireless Sensor Networks", IEEE/ACM Transaction on Networking, VOL. 12, NO. 3, June 2004.

Caishi Huang, Chinâ€Tau Lea, Albert Kaiâ€Sun Wong, "On Mobility and Sleepâ€Mode Powerâ€Saving Mechanisms in IEEE 802.16e/m Mobile Networks", IEEE Systems Journal, Issue: 99, January 2014.

Irfan Alâ€Anbagi, MelikeErolâ€Kantarci, Hussein T. Mouftah, "A Traffic Adaptive Interâ€Cluster Head Delay Control Scheme in WSNs", IEEE Symposium on Computers and Communications (ISCC), July 2013.

ShuguoZhuo, Zhi Wang, Yeâ€Qiong Song, Zhibo Wang,Luis Almeida, "iQueueâ€MAC: A Traffic Adaptive dutyâ€cycled MAC Protocol With Dynamic Slot Allocation", 10th Annual IEEE Communications Society Conference on Sensor, Mesh and Ad Hoc Communications and Networks (SECON), New Orleans LA, June 2013.

How to Cite
Al Rasyid, M. U. H., Aji, E. S., & Nadhori, I. U. (2014). Combination Adaptive Traffic Algorithm and Coordinated Sleeping in Wireless Sensor Network. EMITTER International Journal of Engineering Technology, 2(2), 18-27.