Wireless Sensor Networks for Long Distance Pipeline Monitoring
The main goal of this seminal paper is to introduce the
application of Wireless Sensor Networks (WSN) in long distance
infrastructure monitoring (in particular in pipeline infrastructure
monitoring) – one of the on-going research projects by the Wireless
Communication Research Group at the department of Electronic and
Computer Engineering, Nnamdi Azikiwe University, Awka. The
current sensor network architectures for monitoring long distance
pipeline infrastructures are previewed. These are wired sensor
networks, RF wireless sensor networks, integrated wired and wireless
sensor networks. The reliability of these architectures is discussed.
Three reliability factors are used to compare the architectures in
terms of network connectivity, continuity of power supply for the
network, and the maintainability of the network. The constraints and
challenges of wireless sensor networks for monitoring and protecting
long distance pipeline infrastructure are discussed.
[1] Brume et al, Towards Efficient Disaster management in oil pipeline
corridors, Oil and Gas journal, 2002.
[2] Elias Johnson et al, Return to country Analysis Brief, Oil and Gas
journal
[3] P.C. Nwilo and O.T Badejo, Impacts of oil spillage along Nigerian
coast, The Association for Environmental Health and Sciences, 2001
[4] Abayomi, F, Atilade, D, Matswamgbe, M, Onwurah, U and Okpewho,
L, Report of small arms and light weapons (SALW) survey in Delta
State, Frankard Publishers, 2005.
[5] Gordon R. Clarke et al, Practical Modern SCADA protocols: DNP3,
60870.5 and related systems, 2004, pp. 19-21
[6] W.Heinzelman, A.chadrakasan, and H.Balakrishnan, Energy Efficient
communication protocol for WSN, in Proc. Hawaii International
Conference of System Sciences, Hawaii, 2000.
[7] M.Younis et al, Energy aware routing in cluster-based sensor networks,
in Proc. 10th IEEE/ACM International Symposium on Modeling,
Analysis and Simulation of Computer and Telecommunication System,
2002.
[8] A. Manjeshwa et al, A protocol for enhanced efficiency in WSNs, in
Proc. 1st international Workshop on Parallel and Distributed Computing
Issues in Wireless Networks and Mobile Computing Issues, 2001.
[9] W.Heizelman, Application specification protocols architecture for
wireless network, PhD thesis, MIT, 2000.
[10] R. shah, J.rabaey, Energy aware routing for low energy adhoc sensor
networks, in Proc. of the IEEE Wireless Communication and
Networking Conference (WCNC), Orlando, 2000
[11] C.W. Chen and Y. Wang, Chain-Type Wireless Sensor Network for
Monitoring Long Range Infrastructures: Architecture and Protocols, Int.
Journal of Distributed Sensor Networks, Vol 4, pp. 287-314, 2008.
[12] K. Cheng, K. Lui and V. Tam, Localization in Sensor Networks with
Limited Number of Anchors and Clustered Placement, in proc. of
Wireless Communications and Networking Conference, (IEEE WCNC
2007), pp. 4425- 4429, 2007.
[1] Brume et al, Towards Efficient Disaster management in oil pipeline
corridors, Oil and Gas journal, 2002.
[2] Elias Johnson et al, Return to country Analysis Brief, Oil and Gas
journal
[3] P.C. Nwilo and O.T Badejo, Impacts of oil spillage along Nigerian
coast, The Association for Environmental Health and Sciences, 2001
[4] Abayomi, F, Atilade, D, Matswamgbe, M, Onwurah, U and Okpewho,
L, Report of small arms and light weapons (SALW) survey in Delta
State, Frankard Publishers, 2005.
[5] Gordon R. Clarke et al, Practical Modern SCADA protocols: DNP3,
60870.5 and related systems, 2004, pp. 19-21
[6] W.Heinzelman, A.chadrakasan, and H.Balakrishnan, Energy Efficient
communication protocol for WSN, in Proc. Hawaii International
Conference of System Sciences, Hawaii, 2000.
[7] M.Younis et al, Energy aware routing in cluster-based sensor networks,
in Proc. 10th IEEE/ACM International Symposium on Modeling,
Analysis and Simulation of Computer and Telecommunication System,
2002.
[8] A. Manjeshwa et al, A protocol for enhanced efficiency in WSNs, in
Proc. 1st international Workshop on Parallel and Distributed Computing
Issues in Wireless Networks and Mobile Computing Issues, 2001.
[9] W.Heizelman, Application specification protocols architecture for
wireless network, PhD thesis, MIT, 2000.
[10] R. shah, J.rabaey, Energy aware routing for low energy adhoc sensor
networks, in Proc. of the IEEE Wireless Communication and
Networking Conference (WCNC), Orlando, 2000
[11] C.W. Chen and Y. Wang, Chain-Type Wireless Sensor Network for
Monitoring Long Range Infrastructures: Architecture and Protocols, Int.
Journal of Distributed Sensor Networks, Vol 4, pp. 287-314, 2008.
[12] K. Cheng, K. Lui and V. Tam, Localization in Sensor Networks with
Limited Number of Anchors and Clustered Placement, in proc. of
Wireless Communications and Networking Conference, (IEEE WCNC
2007), pp. 4425- 4429, 2007.
@article{"International Journal of Electrical, Electronic and Communication Sciences:62219", author = "Augustine C. Azubogu and Victor E. Idigo and Schola U. Nnebe and Obinna S. Oguejiofor and Simon E.", title = "Wireless Sensor Networks for Long Distance Pipeline Monitoring", abstract = "The main goal of this seminal paper is to introduce the
application of Wireless Sensor Networks (WSN) in long distance
infrastructure monitoring (in particular in pipeline infrastructure
monitoring) – one of the on-going research projects by the Wireless
Communication Research Group at the department of Electronic and
Computer Engineering, Nnamdi Azikiwe University, Awka. The
current sensor network architectures for monitoring long distance
pipeline infrastructures are previewed. These are wired sensor
networks, RF wireless sensor networks, integrated wired and wireless
sensor networks. The reliability of these architectures is discussed.
Three reliability factors are used to compare the architectures in
terms of network connectivity, continuity of power supply for the
network, and the maintainability of the network. The constraints and
challenges of wireless sensor networks for monitoring and protecting
long distance pipeline infrastructure are discussed.", keywords = "Connectivity, maintainability, reliability, wireless
sensor networks.", volume = "7", number = "3", pages = "327-5", }