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Al Shawa, B (2021) Achieving the climate change targets for the global buildings sector: a techno-socioeconomic pathway, Unpublished PhD Thesis, , University of Bath.
Azzouz, A (2018) Current perspectives and future directions of BIM assessment methods, Unpublished PhD Thesis, Department of Architecture & Civil Engineering, University of Bath.
Bourdakis, V (1994) Performance appraisal of sportshall and swimming pool buildings in Greece, Unpublished PhD Thesis, , University of Bath.
Cusack, M M (1981) Time cost models: their use in decision making in the construction industry, with particular reference to the use of the microcomputer, Unpublished PhD Thesis, Department of Architecture & Civil Engineering, University of Bath.
Du, Q (2009) Integrated decision-making in the cladding supply chain, Unpublished PhD Thesis, Department of Architecture & Civil Engineering, University of Bath.
Dulaimi, M F (1991) Job behaviour of site managers: Its determinants and assessment, Unpublished PhD Thesis, , University of Bath.
Gale, A W (1994) Women in construction: An investigation into some of the aspects of image and knowledge as determinants of the under representation of women in construction management in the British construction industry, Unpublished PhD Thesis, , University of Bath.
Grist, E (2014) The implementation of innovative and sustainable construction materials, Unpublished PhD Thesis, Department of Architecture & Civil Engineering, University of Bath.
Hampshire, P (2015) The development of an approach and decision support tool to inform sustainable roof selection, Unpublished PhD Thesis, School of Management, University of Bath.
Huang, X (2012) Estimating the cost of engineering services using parametrics and the bathtub failure model, Unpublished PhD Thesis, Department of Mechanical Engineering, University of Bath.
Hudson, R (2010) Strategies for parametric design in architecture: an application of practice-led research, Unpublished PhD Thesis, Department of Architecture & Civil Engineering, University of Bath.
Jirojanakul, P (2000) The quality of life of construction workers' children in Bangkok Metropolis, Thailand, Unpublished PhD Thesis, , University of Bath.
Jobe, K (2017) A flexible housing approach for self-help housing in Botswana, Unpublished PhD Thesis, Department of Architecture & Civil Engineering, University of Bath.
Joyce, S (2016) Performance driven design systems in practice, Unpublished PhD Thesis, , University of Bath.
Kunieda, Y (2017) Development of an impact assessment tool for demolition, Unpublished PhD Thesis, Department of Architecture & Civil Engineering, University of Bath.
Macchiarulo, V (2022) Integration of satellite radar interferometry and civil engineering procedures to assess building and infrastructure conditions, Unpublished PhD Thesis, , University of Bath.
- Type: Thesis
- Keywords: accuracy; bridge; highway; in-situ; sensors; tunnel; civil engineering; deterioration; infrastructure construction; integration; lifecycle; monitoring; tunnelling; London; workflow; measurement; construction project; excavation
- ISBN/ISSN:
- URL: https://www.proquest.com/docview/2685066984
- Abstract:
The deterioration of ageing infrastructure assets and the risk of damaging surrounding structures during new construction are major concerns for the transport industry worldwide. Whilst, Structural Health Monitoring (SHM) could assist the lifecycle management of existing assets and the assessment of structures adjacent to large construction projects, the cost of sensors limits the number of structures that can be evaluated. Space-borne Interferometric Synthetic Aperture Radar (InSAR) is a powerful remote-sensing technology which can provide deformation measurements over time for numerous points located on buildings and infrastructure assets. Such measurements are available with an accuracy comparable to traditional in-situ monitoring devices, but at a much lower cost. Furthermore, due to the combination of wide area coverage and high spatial resolution, InSAR can easily shift from local to larger scale, with the potential to provide a cost-effective tool for SHM on a regional level. However, to assess the condition of a given structure, InSAR deformation measurements need to be translated into structural performance indicators. This requires an integration of InSAR displacement measurements and structural information and/or models. Such integration can be particularly demanding for regional analysis, where a vast number of structures needs to be evaluated. The objective of this thesis is to develop a new methodology using InSAR data to monitor and assess the conditions of buildings and infrastructure assets on a regional scale. Such a methodology will allow the understanding of the long-term behaviour of existing infrastructure, and the assessment of damage to existing structures caused by new infrastructure construction. This involved: (i) the definition of performance indicators for the identification of anomalous structural deformations on a large scale; (ii) the integration of InSAR deformation measurements and structural models to interpret the measured deformations in relation to a specific source of movement; (iii) a clear definition of the InSAR challenges that still need to be overcome in order to use the developed methodology as an operational SHM tool. First, a new method using InSAR displacement measurements to evaluate the condition of large transport networks was developed. The proposed method is based on an automated workflow which enables the integration of InSAR deformation measurements and digital databases of roadway and bridge infrastructure to warn of potentially anomalous deformations within a given network. For each asset and roadway segment, the method allows the assessment of monitoring point density, the retrieval of local displacements and velocities, and the identification of anomalous relative movements within the same structure. The developed method provides output maps showing the distribution of PS density, local displacements, velocities and the locations of anomalies. The developed method was tested on the Los Angeles highway and freeway network and on the Italian motorway system, validating its performance from city to national scale. Furthermore, to show the capability of the proposed method of identifying potentially damaging movements, the case of an Italian motorway viaduct that was damaged in 2015 is presented. Second, a new method using InSAR displacement measurements for the structural assessment of buildings adjacent to tunnel excavations was developed. The proposed method is based on an automated workflow which enables the integration of InSAR deformation measurements, digital building databases and structural models of the building response to tunnelling-induced settlements. InSAR displacement measurements were used to estimate the settlement profile for each building. To calculate critical strains for each building, building settlement profiles were analysed through a semi-empirical model. On the basis of the estimated critical strain, a level of damage was assigned to each building. The proposed method provides as outputs damage maps showing the distribution of dama e levels for the buildings along the excavation. The developed method was tested on the buildings along the Crossrail tunnel alignment in London, and enabled the identification of structural damage to more than 800 buildings, highlighting its capability as a city-scale assessment tool. The developed integration also provided the first large dataset of field information on building response to tunnelling, enabling the identification of relationships between structural characteristics and building responses. Finally, based on the technical issues encountered during this research and the open problems identified by other researchers, a discussion about the advances needed in InSAR technology to be used as a SHM tool was developed. In this discussion, each InSAR technological limitation was evaluated from a SHM perspective. The challenges that still need to be overcome to use InSAR as an operational tool were defined, with examples showing the practical limitations of InSAR technology. Possible solutions and promising research directions were also identified. The proposed methodology has the potential to inform timely maintenance and prioritisation decisions, and can complement in-situ monitoring instrumentation. Findings can improve current practice for condition monitoring and assessment on large scale, with the possibility to advance the understanding of structural deformation mechanisms.
Meese, N (2012) Knowledge sharing for sustainable development: a mixed-method study of an international civil engineering consultancy, Unpublished PhD Thesis, , University of Bath.
Mitchell, R (2020) The performance gap in new construction: evaluation of UK Passivhaus dwellings, Unpublished PhD Thesis, Department of Architecture & Civil Engineering, University of Bath.
Mustapha, F H (1990) Who are the effective construction site managers and what skills do they bring to their work?, Unpublished PhD Thesis, , University of Bath.
Nisbet, P (1995) Dualism, flexibility and self-employment in the UK construction industry, Unpublished PhD Thesis, , University of Bath.
Orr, J (2012) Flexible formwork for concrete structures, Unpublished PhD Thesis, , University of Bath.
Osaily, Y (2021) Guidance for advancing demolition project management in the UK, Unpublished PhD Thesis, , University of Bath.
Powell, R (2012) Evaluating cognitive screening as a possible solution to reducing accidents and improving workplace productivity through early preventive detection of fatigue-impairment in the construction industry, Unpublished PhD Thesis, Department of Architecture & Civil Engineering, University of Bath.
Root, D S (2001) The influence of professional and occupational cultures on project relationships mediated through standard forms and conditions of contract, Unpublished PhD Thesis, , University of Bath.
Smith, S (2003) Life cycle assessment of civil engineering projects, Unpublished PhD Thesis, , University of Bath.
Voyatzaki, M G (1996) An insight into the design process of unconventional structures, Unpublished PhD Thesis, , University of Bath.
Watson, N (2016) Developing material selection strategies to improve the embodied impacts of buildings, Unpublished PhD Thesis, , University of Bath.
Yin, X (2018) Development of straw bale building in northern China, Unpublished PhD Thesis, , University of Bath.
Zhang, X (2019) Integrating lean construction, BIM and quality: a new paradigm for the improvement of Chinese construction quality, Unpublished PhD Thesis, Department of Architecture & Civil Engineering, University of Bath.