Superimposed imaging of acoustic wave reflections for the detection of underground nonmetallic pipelines
Superimposed imaging of acoustic wave reflections for the detection of underground nonmetallic pipelines
Due to the non-conductive and non-magnetic properties, nonmetallic pipelines are difficult to be detected by traditional pipe location technologies. This paper presents a superimposed imaging method of acoustic wave reflections for pipe location, which operates on the propagation of elastic waves. The propagation and attenuation model of elastic waves in soil are constructed according to the geometric relationship between the acoustic source, geophone array and pipelines. The two-dimensional and three-dimensional acoustic field diagrams of underground pipeline are generated by superimposed imaging of the cross-correlation coefficients between the signals from the sound source and geophone array, with the attenuation caused by hysteretic damping and geometric dissipation considered in the imaging process. In order to suppress clutter interference on the imaging results, the strategy of ‘multi-point transmit, multi-point receive and cross-correlation coefficient superposition’ is adopted. In the simulation, comparison is made to demonstrate the influences of different excitation sources on the detection imaging results, including the single frequency signal, multi-frequency signal, Gaussian pulse signal and sweep signal. It is found that the excitation signals with rich frequency components are more conducive to improving the resolution of detection images. The effectiveness of the proposed imaging method is further verified in the experimental work, which may be beneficial for the visualization and determination of the location, depth and orientation of underground non-metallic pipelines.
Cross-correlation coefficient, Pipe detection, Superimposed imaging, Underground pipeline, Wave reflection
Cui, Xiw
3beb0761-f14b-41a2-8f0f-3b07f882ca2a
Gao, Yan
3c4b9ad3-679f-495e-83f1-f3035e89d533
Muggleton, Jen
2298700d-8ec7-4241-828a-1a1c5c36ecb5
liu, Yuyou
cd97921e-b115-4399-8df1-7ba3b1d7aacd
1 March 2024
Cui, Xiw
3beb0761-f14b-41a2-8f0f-3b07f882ca2a
Gao, Yan
3c4b9ad3-679f-495e-83f1-f3035e89d533
Muggleton, Jen
2298700d-8ec7-4241-828a-1a1c5c36ecb5
liu, Yuyou
cd97921e-b115-4399-8df1-7ba3b1d7aacd
Cui, Xiw, Gao, Yan, Muggleton, Jen and liu, Yuyou
(2024)
Superimposed imaging of acoustic wave reflections for the detection of underground nonmetallic pipelines.
Mechanical Systems and Signal Processing, 209, [111127].
(doi:10.1016/j.ymssp.2024.111127).
Abstract
Due to the non-conductive and non-magnetic properties, nonmetallic pipelines are difficult to be detected by traditional pipe location technologies. This paper presents a superimposed imaging method of acoustic wave reflections for pipe location, which operates on the propagation of elastic waves. The propagation and attenuation model of elastic waves in soil are constructed according to the geometric relationship between the acoustic source, geophone array and pipelines. The two-dimensional and three-dimensional acoustic field diagrams of underground pipeline are generated by superimposed imaging of the cross-correlation coefficients between the signals from the sound source and geophone array, with the attenuation caused by hysteretic damping and geometric dissipation considered in the imaging process. In order to suppress clutter interference on the imaging results, the strategy of ‘multi-point transmit, multi-point receive and cross-correlation coefficient superposition’ is adopted. In the simulation, comparison is made to demonstrate the influences of different excitation sources on the detection imaging results, including the single frequency signal, multi-frequency signal, Gaussian pulse signal and sweep signal. It is found that the excitation signals with rich frequency components are more conducive to improving the resolution of detection images. The effectiveness of the proposed imaging method is further verified in the experimental work, which may be beneficial for the visualization and determination of the location, depth and orientation of underground non-metallic pipelines.
Text
MSSP23-1912_Revised manuscript_V2
- Accepted Manuscript
Restricted to Repository staff only until 14 January 2026.
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Accepted/In Press date: 7 January 2024
e-pub ahead of print date: 14 January 2024
Published date: 1 March 2024
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Publisher Copyright:
© 2024 Elsevier Ltd
Keywords:
Cross-correlation coefficient, Pipe detection, Superimposed imaging, Underground pipeline, Wave reflection
Identifiers
Local EPrints ID: 486340
URI: http://eprints.soton.ac.uk/id/eprint/486340
ISSN: 0888-3270
PURE UUID: 107db405-aa04-4880-b606-7cad3bf5d8ec
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Date deposited: 18 Jan 2024 18:32
Last modified: 26 Mar 2024 17:46
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Contributors
Author:
Xiw Cui
Author:
Yan Gao
Author:
Yuyou liu
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