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Routing Protocol of Shipping Container Network suitable for Port/Yard Stacking Environment: SAPDS(Simple Alternative Path Destined for Sink node)
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 Title & Authors
Routing Protocol of Shipping Container Network suitable for Port/Yard Stacking Environment: SAPDS(Simple Alternative Path Destined for Sink node)
Kwark, Gwang-Hoon; Lee, Jae-Kee;
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 Abstract
For the real time monitoring and tracking of shipping container which is one of the core objects for global logistics, Wireless Ad-Hoc Network technology might be needed in stacking environments such as ports, yards and ships. In this paper, we propose a container network routing protocol suitable for port or yard stacking environments which include some constraints such as shadow area problem from metal material, frequent movement of container, etc. With this protocol in which a mesh network algorithm is applied, every container data packet can be delivered to the sink node reliably even with frequent join/leave of container nodes. As soon as a node on path gets malfunction, alternative backup path is supported with notice to neighbor node, which makes constant total optimal path. We also verified that the performance of proposed protocol is better than AODV, one of previous major MANet(Mobile Ad-Hoc Network) protocol with a function for alternative path, which says the proposed protocol is better for frequent join/leave and variable link quality.
 Keywords
Wireless Sensor Network;Wireless Mesh Network;Routing Protocol;Container Network;Container Monitoring;Shipping Container Stack Environment;
 Language
Korean
 Cited by
1.
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2.
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 References
1.
Elizabeth M. Royer et al., "A Review of Current Routing Protocols for Ad Hoc Mobile Wireless Networks", IEEE Personal Communications, Vol.6, Issue2, pp.46-55, 1999. crossref(new window)

2.
Dr. Peter Harrop, Active RFID 2006-2016 - Fast growth and WiFi, ZigBee, Bluetooth leverage, IDTechEx, 2006.

3.
홍승욱 외, "컨테이너 적치 환경에서의 RF 특성에 대한 고찰", 한국정보과학회 학술 심포지움 논문집, , 제1권 제1호, pp.35-41, 2007.12.

4.
Chee-Min et al., "Ubiquitous Container Logistics Development and Implementation based on Wireless Sensor Network Technology", ICKIMICS, 2009.

5.
http://en.wikipedia.org/wiki/Wireless_ad_hoc_network

6.
http://en.wikipedia.org/wiki/Mobile_ad-hoc_network

7.
http://en.wikipedia.org/wiki/Wireless_mesh_network

8.
C. Perkins, E. Belding-Royer, S. Das, "Ad hoc On-Demand Distance Vector (AODV) Routing", IETF RFC 3561, Jul. 2003.

9.
C. E. Perkins, P. Bhagwat, "Highly Dynamic Destination -Sequenced Distance Vector (DSDV) for Mobile Computers", Proc. of the SIGCOMM 1994 Conference on Communications Architectures, Protocols and Applications, pp.234-244, Aug. 1994.

10.
Ian F.Akyildiz et al., "A survey on Sensor Networks," IEEE Communications Magazine, Vol.40, No.8, pp.102-114, Aug. 2002.

11.
배정숙, 김성희, "무선 센서 네트워크에서의 라우팅 프로토콜", ETRI 주간기술동향, 2004.4

12.
이양민, 이기원, 곽광훈, 이재기, "컨테이너 환경에서 토플로지 재구성 시간을 개선한 변형 LEACH 프로토콜", 정보처리학회논문지, 제15-C권 제4호 통권 제121호, pp.311-320, 2008. 8.

13.
이기원, 이재기, 곽광훈, "금속장애물 환경에서 토폴로지 안정성을 개선한 변형 LEACH 프로토콜", 한국통신학회논문지(네트워크 및 서비스), 제34권 제12호, pp.1349-1358, 2009.12.

14.
Joseph Polastre, Jason Hill, David Culler, "Versatile Low Power Media Access for Wireless Sensor Network", SenSys '04 Proc. of the 2nd international conference on Embedded networked sensor systems, ACM Press New York, pp.95-107, 2004.