UWSP：水下无线传感器网络节点休眠协议

doi:10.3969/j.issn.1000-436x.2013.z1.021

Abstract

Abstract:

Sleeping scheme is one of the key means of saving energy for wireless sensor network. However, existing MAC protocols for underwater sensor network (UWSN) mainly focus on maximizing throughput but ignore sleeping schemes. Moreover, in existing sleeping schemes nodes wake up rapidly, which will loss the life of hardware, waste en-ergy to open/close circuits, and increase collision probability. So, a tree topology based sleeping algorithm for UWSN was proposed, which utilizes the special characteristics of underwater acoustic channel. This algorithm could reduce wakeup frequency, prolong sleeping time and keep the end to end delay from being affected by sleeping time. This algo-rithm has no collision and no channel reservation and its usability and capability have been verified by simulation meth-ods.

Key words: sleeping algorithm, MAC protocol, underwater sensor network

Lu HONG,Feng HONG. UWSP: sleeping algorithms for underwater sensor network[J]. Journal on Communications, 2013, 34(Z1): 162-169.

Figures/Tables 10

References 19

[1]	SYED A A , YE W , KRISHNAMACHARI B , et al. Understanding spatio-temporal uncertainty in medium access with aloha protocols[A]. Proceedings of the Second ACM International Workshop on Under-Water Networks (WUWNet)[C]. Montreal, Quebec, Canada, 2007.41-48.
[2]	Zhang J B , ZHOU G , HUANG C , et al. TMMAC: an energy efficient multi-channel mac protocol for Ad Hoc networks[A]. ICC 2007[C]. Glasgow, Scotland, 2007.3554-3561.
[3]	WILSON S , WALRAND J , MO J . McMAC: a parallel rendezvous multi-channel MAC protocol[A]. WCNC 2007[C]. Hong Kong SAR, China, 2007.334-339.
[4]	YE W , HEIDEMANN J , ESTRIN D . An energy-efficient MAC proto-col for wireless sensor networks[A]. Proceedings of IEEE INFOCOM 2002[C]. New York, USA, 2002.1567-1576.
[5]	TIJS V D , LANGENDOEN K . An adaptive energy-efficient MAC protocol for wireless sensor networks[A]. ACM SenSys 2003[C]. Loa Angeles, CA, USA, 2003.171-180.
[6]	RAJENDRAN V , OBRACZKA K , GARCIA-LUNA-ACEVES J J . Energy-efficient collision-free medium access control for wireless sensor networks[A]. ACM SenSys 2003[C]. Loa Angeles, CA, USA, 2003.181-192.
[7]	YE W , SILVA F , HEIDEMANN J . Ultra-low duty cycle MAC with scheduled channel polling[A]. ACM SenSys 2006[C]. Boulder, Colo-rado, USA, 2006.321-334.
[8]	SUN Y J , DU S , GUREWITZ O , et al. DW-MAC: a low latency, energy efficient demand-wakeup mac protocol for wireless sensor net-works[A]. MobiHoc 2008[C]. Hong Kong SAR, China, 2008.53-62.
[9]	POLASTRE J , HILL J , CULLER D . Versatile low power media access for wireless sensor networks[A]. ACM SenSys 2004[C]. Baltimore, MD, USA, 2004.95-107.
[10]	BUETTNER M , YEE G V , ANDERSON E , et al. X-MAC: a short preamble MAC protocol for duty-cycled wireless sensor networks[A]. ACM SenSys 2006[C]. Boulder, Colorado, USA, 2006.307-320.
[11]	INJONG R . Z-MAC: a hybrid MAC for wireless sensor networks[J]. IEEE/ACM Transactions on Networking (TON), 2008,16 (3):511-524.
[12]	EL-HOIYDI A , DECOTIGNIE J D . WiseMAC: an ultra low power MAC protocol for multi-hop wireless sensor networks[A]. ALGO-SENSORS 2004[C]. Turku, Finland, 2004.18-31.
[13]	SUN Y J , GUREWITZ O , JOHNSON D B . RI-MAC: a receiver initi-ated asynchronous duty cycle MAC protocol for dynamic traffic loads in wireless sensor networks[A]. ACM SenSys 2008[C]. Raleigh, NC, USA, 2008.1-14.
[14]	SYED A A , YE W , HEIDEMANN J . T-lohi: a new class of MAC protocols for underwater acoustic sensor networks[A]. IEEE INFO-COM 2008[C]. Phoenix, AZ, USA, 2008.231-235.
[15]	MOLINS M , STOJANOVIC M . Slotted FAMA: a MAC protocol for underwater acoustic networks[A]. IEEE OCEANS 2006[C]. Singapore, 2006.1-7.
[16]	CHIRDCHOO N , SOH W , CHUA K . Aloha-based MAC protocols with collision avoidance for underwater acoustic networks[A]. IEEE INFOCOM 2007[C]. Anchorage, Alaska, USA, 2007.2271-2275.
[17]	HSU C C , LAI K F , CHOU C F , et al. ST-MAC: spatial-temporal mac scheduling for underwater sensor networks[A]. IEEE INFOCOM 2009[C]. Rio de Janeiro, Brazil, 2009.1827-1835.
[18]	HONG L , HONG F , GUO Z W , et al. ECS: efficient communication scheduling for underwater sensor networks[J]. Sensors, 2011,11 (3):2920-2938.
[19]	YACKOSKI J , SHEN C C . UW-FLASHR: achieving high channel utilization in a time-based acoustic MAC protocol[A]. WUWNet 2008[C]. San Francisco, California, USA, 2008.59-66.

Metrics

Recommended 0

No Suggested Reading articles found!

UWSP: sleeping algorithms for underwater sensor network

RichHTML

PDF

Knowledge

Cited

Abstract

Cite this article

share this article

Figures/Tables 10

References 19

Related Articles 15

Metrics

Recommended 0

[1]	Chong LI, Xiujuan DU, Lijuan WANG, Xiaojing TIAN. Rule and perception based MAC protocol for UAN [J]. Journal on Communications, 2022, 43(2): 65-75.
[2]	Geng-ming ZHU,Zhi-qiang WANG,Zhe-tao LI,Ren-fa LI. Local congestion control algorithm with fair channel allocation [J]. Journal on Communications, 2015, 36(4): 9-18.
[3]	Jian PENG,Chang-jian HONG,Tang LIU,GYun-yong ZHAN. Strategy of routing based on layered for underwater wireless sensor networks [J]. Journal on Communications, 2014, 35(6): 25-31.
[4]	. Strategy of routing based on layered for underwater wireless sensor networks [J]. Journal on Communications, 2014, 35(6): 4-31.
[5]	Liang WANG,Min SHENG,Yan ZHANG,Xiao MA. CAM-MAC: channel aware multi-channel MAC protocol in cognitive radio network [J]. Journal on Communications, 2014, 35(4): 65-73.
[6]	. CAM-MAC: channel aware multi-channel MAC protocol in cognitive radio network [J]. Journal on Communications, 2014, 35(4): 8-73.
[7]	. UWSP: sleeping algorithms for underwater sensor network [J]. Journal on Communications, 2013, 34(Z1): 21-169.
[8]	. Cross-layer multi-channel MAC protocol combined with QoS search for cognitive wireless multi-hop networks [J]. Journal on Communications, 2013, 34(4): 2-18.
[9]	Jie SUN,Wei GUO. Cross-layer multi-channel MAC protocol combined with QoS search for cognitive wireless multi-hop networks [J]. Journal on Communications, 2013, 34(4): 10-18.
[10]	Zhe-tao LI,Geng-ming ZHU,Zhi-qiang WANG,Ting-rui PEI,Gao-feng PAN. Low duty cycle and low collision asynchronous MAC protocol for wireless sensor network [J]. Journal on Communications, 2013, 34(10): 9-16.
[11]	. Low duty cycle and low collision asynchronous MAC protocol for wireless sensor network [J]. Journal on Communications, 2013, 34(10): 2-16.
[12]	Lu HONG,Feng HONG,Zheng-bao LI,Zhong-wen GUO. CT-TDMA:efficient TDMA protocol for underwater sensor networks [J]. Journal on Communications, 2012, 33(2): 164-174.
[13]	De-sheng ZHANG,Jin-bao LI,Long-jiang GUO. Study on multi-channel reservation based MAC protocol for sensor networks [J]. Journal on Communications, 2011, 32(4): 126-137.
[14]	Si-quan HU,Jun-feng WANG. Smart low power listening for wireless sensor networks [J]. Journal on Communications, 2009, 30(9): 95-101.
[15]	Lei LEI,Zong-ze XU. Parallel MAC protocol based on geographical location information and power control in ad hoc networks [J]. Journal on Communications, 2008, 29(9): 81-90.