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Site assessment of multiple sensor approaches for buried utility detection

Site assessment of multiple sensor approaches for buried utility detection
Site assessment of multiple sensor approaches for buried utility detection
The successful operation and maintenance of buried infrastructure within urban environments is fundamental to the conservation of modern living standards. Breakdown in supply of utilities is quickly noticed and requires a swift response to repair the network. Open-cut methods are predominantly used, in preference to trenchless technology, to effect a repair, or replace or install a new section of the network. This is, in part, due to the inability to determine the position of all utilities below the carriageway, making open-cut methods desirable in terms of dealing with uncertainty since the buried infrastructure is progressively exposed during excavation. However, open cut methods damage the carriageway and disrupt society’s functions. This paper describes the progress of a research project that aims to develop a multi-sensor geophysical platform that can improve the probability of complete detection of the infrastructure buried beneath the carriageway. The multi-sensor platform is being developed in conjunction with a knowledge-based system that aims to provide information on how the properties of the ground might affect the sensing technologies being deployed. The fusion of data sources (sensor data and utilities record data) is also being researched to maximise the probability of location. The project has reached a stage where the majority of the sensing technologies being developed for the multi-sensor device have undergone initial testing on site and this has shown some interesting findings. This paper describes the outcome of the initial phase of testing along with the development of the knowledge-based system and the fusing of data to produce utility maps
1687-885X
496123-[19pp]
Royal, A.C.D.
3b04eef7-0944-43c9-ab9d-dd9a58addfc0
Atkins, P.R.
30582c39-b5e9-4ad1-ae1e-615faaac8bbc
Brennan, M.J.
87c7bca3-a9e5-46aa-9153-34c712355a13
Chapman, D.
550f508a-4659-4469-8d6a-1449b7976843
Chen, Huanhuan
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Cohn, A.
f0531150-687c-4384-96b0-e5f3fd2113d6
Foo, K.
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Goddard, K.
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Hayes, R.
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Hao, Tong
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Lewin, P.L.
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Metje, N.
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Muggleton, J.M.
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Naji, A.
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Orlando, G.
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Pennock, S.
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Redfern, M.
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Saul, A.
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Swingler, S.G.
4f13fbb2-7d2e-480a-8687-acea6a4ed735
Wang, Ping
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Rogers, C.D.F.
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Royal, A.C.D.
3b04eef7-0944-43c9-ab9d-dd9a58addfc0
Atkins, P.R.
30582c39-b5e9-4ad1-ae1e-615faaac8bbc
Brennan, M.J.
87c7bca3-a9e5-46aa-9153-34c712355a13
Chapman, D.
550f508a-4659-4469-8d6a-1449b7976843
Chen, Huanhuan
5b09e320-bd82-4bca-9048-4daea5e6761c
Cohn, A.
f0531150-687c-4384-96b0-e5f3fd2113d6
Foo, K.
b13de403-dec1-431b-bd07-8ab1471439bd
Goddard, K.
fe2a2194-8b55-43c1-bdca-341691b71b2d
Hayes, R.
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Hao, Tong
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Lewin, P.L.
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Metje, N.
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Muggleton, J.M.
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Naji, A.
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Orlando, G.
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Pennock, S.
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Redfern, M.
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Saul, A.
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Swingler, S.G.
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Wang, Ping
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Rogers, C.D.F.
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Royal, A.C.D., Atkins, P.R., Brennan, M.J., Chapman, D., Chen, Huanhuan, Cohn, A., Foo, K., Goddard, K., Hayes, R., Hao, Tong, Lewin, P.L., Metje, N., Muggleton, J.M., Naji, A., Orlando, G., Pennock, S., Redfern, M., Saul, A., Swingler, S.G., Wang, Ping and Rogers, C.D.F. (2011) Site assessment of multiple sensor approaches for buried utility detection. International Journal of Geophysics, 2011, 496123-[19pp]. (doi:10.1155/2011/496123).

Record type: Article

Abstract

The successful operation and maintenance of buried infrastructure within urban environments is fundamental to the conservation of modern living standards. Breakdown in supply of utilities is quickly noticed and requires a swift response to repair the network. Open-cut methods are predominantly used, in preference to trenchless technology, to effect a repair, or replace or install a new section of the network. This is, in part, due to the inability to determine the position of all utilities below the carriageway, making open-cut methods desirable in terms of dealing with uncertainty since the buried infrastructure is progressively exposed during excavation. However, open cut methods damage the carriageway and disrupt society’s functions. This paper describes the progress of a research project that aims to develop a multi-sensor geophysical platform that can improve the probability of complete detection of the infrastructure buried beneath the carriageway. The multi-sensor platform is being developed in conjunction with a knowledge-based system that aims to provide information on how the properties of the ground might affect the sensing technologies being deployed. The fusion of data sources (sensor data and utilities record data) is also being researched to maximise the probability of location. The project has reached a stage where the majority of the sensing technologies being developed for the multi-sensor device have undergone initial testing on site and this has shown some interesting findings. This paper describes the outcome of the initial phase of testing along with the development of the knowledge-based system and the fusing of data to produce utility maps

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MTU_testing_-_IJ_Geophys_-_496123_-_published.pdf - Version of Record
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Published date: 2011
Related URLs:
Organisations: Electronics & Computer Science, Dynamics Group
Learn more about Electronics & Computer Science research

Identifiers

Local EPrints ID: 193023
URI: http://eprints.soton.ac.uk/id/eprint/193023
DOI: doi:10.1155/2011/496123
ISSN: 1687-885X
PURE UUID: 49883b05-53ce-479d-a5c2-75cf9782d4af
ORCID for P.L. Lewin: ORCID iD orcid.org/0000-0002-3299-2556

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Date deposited: 12 Jul 2011 07:32
Last modified: 15 Mar 2024 02:43

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Contributors

Author: A.C.D. Royal
Author: P.R. Atkins
Author: M.J. Brennan
Author: D. Chapman
Author: Huanhuan Chen
Author: A. Cohn
Author: K. Foo
Author: K. Goddard
Author: R. Hayes
Author: Tong Hao
Author: P.L. Lewin ORCID iD
Author: N. Metje
Author: J.M. Muggleton
Author: A. Naji
Author: G. Orlando
Author: S. Pennock
Author: M. Redfern
Author: A. Saul
Author: S.G. Swingler
Author: Ping Wang
Author: C.D.F. Rogers

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