Non-destructive assessment of a historic masonry arch bridge using ground penetrating radar and 3D laser scanner

Amir M. Alani; Fabio Tosti; Kevin Banks; Luca Bianchini Ciampoli; Andrea Benedetto

Non-destructive assessment of a historic masonry arch bridge using ground penetrating radar and 3D laser scanner

Amir M. Alani, Fabio Tosti, Kevin Banks, Luca Bianchini Ciampoli, Andrea Benedetto

Faculty of Engineering, Computing & the Environment

Research output: Contribution to conference › Paper › peer-review

Abstract

Applications of non-destructive testing methods such as ground penetrating radar (GPR), 3D laser scanners, accelerometer sensors and vibration detecting sensors amongst many others have been used to assess and monitor masonry arch bridge spans (brick and stone) in the past few years. This paper reports the application of high to low frequency GPR antenna systems (2000 MHz, 600 MHz and 200 MHz) and a 3D laser scanner on a historic masonry arch bridge (the Old Bridge, Aylesford - 860 years old) located in Kent, England. The position of different layers of the deck structure was established with the identification of the original stone base of the bridge and location of a number of structural ties (anchors ? remedial work carried out previously). Results of the 3D laser scan of the bridge were crucial to initiate long-term monitoring of the structure.

Original language	English
Publication status	Published - 24 Oct 2017
Event	IMEKO International Conference on Metrology for Archaeology and Cultural Heritage (METROARCHAEO2017) - Lecce, Italy Duration: 23 Oct 2017 → 25 Oct 2017

Conference

Conference	IMEKO International Conference on Metrology for Archaeology and Cultural Heritage (METROARCHAEO2017)
Period	23/10/17 → 25/10/17

Keywords

3D Laser Scanner
Civil engineering
Ground Penetrating Radar
Masonry Arch Bridge
Non-Destructive Testing

Cite this

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title = "Non-destructive assessment of a historic masonry arch bridge using ground penetrating radar and 3D laser scanner",

abstract = "Applications of non-destructive testing methods such as ground penetrating radar (GPR), 3D laser scanners, accelerometer sensors and vibration detecting sensors amongst many others have been used to assess and monitor masonry arch bridge spans (brick and stone) in the past few years. This paper reports the application of high to low frequency GPR antenna systems (2000 MHz, 600 MHz and 200 MHz) and a 3D laser scanner on a historic masonry arch bridge (the Old Bridge, Aylesford - 860 years old) located in Kent, England. The position of different layers of the deck structure was established with the identification of the original stone base of the bridge and location of a number of structural ties (anchors ? remedial work carried out previously). Results of the 3D laser scan of the bridge were crucial to initiate long-term monitoring of the structure.",

keywords = "3D Laser Scanner, Civil engineering, Ground Penetrating Radar, Masonry Arch Bridge, Non-Destructive Testing",

author = "Alani, \{Amir M.\} and Fabio Tosti and Kevin Banks and \{Bianchini Ciampoli\}, Luca and Andrea Benedetto",

year = "2017",

month = oct,

day = "24",

language = "English",

note = "IMEKO International Conference on Metrology for Archaeology and Cultural Heritage (METROARCHAEO2017) ; Conference date: 23-10-2017 Through 25-10-2017",

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TY - CONF

T1 - Non-destructive assessment of a historic masonry arch bridge using ground penetrating radar and 3D laser scanner

AU - Alani, Amir M.

AU - Tosti, Fabio

AU - Banks, Kevin

AU - Bianchini Ciampoli, Luca

AU - Benedetto, Andrea

PY - 2017/10/24

Y1 - 2017/10/24

N2 - Applications of non-destructive testing methods such as ground penetrating radar (GPR), 3D laser scanners, accelerometer sensors and vibration detecting sensors amongst many others have been used to assess and monitor masonry arch bridge spans (brick and stone) in the past few years. This paper reports the application of high to low frequency GPR antenna systems (2000 MHz, 600 MHz and 200 MHz) and a 3D laser scanner on a historic masonry arch bridge (the Old Bridge, Aylesford - 860 years old) located in Kent, England. The position of different layers of the deck structure was established with the identification of the original stone base of the bridge and location of a number of structural ties (anchors ? remedial work carried out previously). Results of the 3D laser scan of the bridge were crucial to initiate long-term monitoring of the structure.

AB - Applications of non-destructive testing methods such as ground penetrating radar (GPR), 3D laser scanners, accelerometer sensors and vibration detecting sensors amongst many others have been used to assess and monitor masonry arch bridge spans (brick and stone) in the past few years. This paper reports the application of high to low frequency GPR antenna systems (2000 MHz, 600 MHz and 200 MHz) and a 3D laser scanner on a historic masonry arch bridge (the Old Bridge, Aylesford - 860 years old) located in Kent, England. The position of different layers of the deck structure was established with the identification of the original stone base of the bridge and location of a number of structural ties (anchors ? remedial work carried out previously). Results of the 3D laser scan of the bridge were crucial to initiate long-term monitoring of the structure.

KW - 3D Laser Scanner

KW - Civil engineering

KW - Ground Penetrating Radar

KW - Masonry Arch Bridge

KW - Non-Destructive Testing

UR - http://repository.uwl.ac.uk/id/eprint/3703/

M3 - Paper

T2 - IMEKO International Conference on Metrology for Archaeology and Cultural Heritage (METROARCHAEO2017)

Y2 - 23 October 2017 through 25 October 2017

ER -

Non-destructive assessment of a historic masonry arch bridge using ground penetrating radar and 3D laser scanner

Abstract

Conference

Keywords

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