Chapter Ontology-Based Construction Inspection Planning: A Case Study of Thermal Building Insulation

Poor construction quality is one of the most significant challenges for the construction industry. However, failures can be avoided or minimized by inspections based on detailed quality inspection plans as a part of quality assurance. Therefore, structured and project-specific planning of inspection...

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প্রধান লেখক: Boden, Markus, Thibaut, Delval, El Chamaa, Rayan, Seiß, Sebastian, Melzner, Jürgen, Zheng, Yuan
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প্রকাশিত: Firenze University Press 2024
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অনলাইন ব্যবহার করুন:ONIX_20240402_9791221502893_19
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author Boden, Markus
Thibaut, Delval
El Chamaa, Rayan
Seiß, Sebastian
Melzner, Jürgen
Zheng, Yuan
author_browse Boden, Markus
El Chamaa, Rayan
Melzner, Jürgen
Seiß, Sebastian
Thibaut, Delval
Zheng, Yuan
author_facet Boden, Markus
Thibaut, Delval
El Chamaa, Rayan
Seiß, Sebastian
Melzner, Jürgen
Zheng, Yuan
author_sort Boden, Markus
collection Directory of Open Access Books
description Poor construction quality is one of the most significant challenges for the construction industry. However, failures can be avoided or minimized by inspections based on detailed quality inspection plans as a part of quality assurance. Therefore, structured and project-specific planning of inspection plans is required to provide inspectors with the right information. Nevertheless, inspection planning is mainly manual, dependent on the individual’s experience and high level of effort. As a result, inspection planning is often neglected and limited to providing general checklists that often lack semantically rich descriptions and are unspecific concerning individual project requirements. Furthermore, proper planning of inspections requires multiple information sources, such as building design, schedules, contractual and supplier guidelines, and standards, all of which must be provided or linked via an information model. Current research lacks an adequate formalized knowledge model to provide the knowledge-driven inspection planning process with the necessary domain knowledge to support inspection planning with heterogeneous information defined in isolated systems. Therefore, this paper extends the Ontology for Construction Quality Assurance (OCQA) with the OCQA-Thermal Insulation (OCQA-TI) to formalize thermal insulation inspection planning knowledge. The OCQA offers a new linked data model that provides explicit knowledge of quality inspection planning. The development of the OCQA-TI follows the Linked Open Terms (LOT) methodology and is implemented using the Web Ontology Language (OWL). The proposed ontology is evaluated using various approaches, including automatic consistency checking, answering competency questions, and criteria-based evaluation. The results indicate that the OCQA-TI can provide inspectors with relevant inspection planning knowledge and integrate various related information streams, thus providing a more comprehensive and efficient approach to insulation inspection planning. The functionality of OCQA-TI enables the fulfillment of increased sustainability and energy efficiency requirements by providing insulation inspection knowledge
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spelling doab-20.500.12854ir-1370952024-05-12T02:02:11Z Chapter Ontology-Based Construction Inspection Planning: A Case Study of Thermal Building Insulation Boden, Markus Thibaut, Delval El Chamaa, Rayan Seiß, Sebastian Melzner, Jürgen Zheng, Yuan semantic web building insulation ontology quality assurance in construction inspection planning thema EDItEUR::U Computing and Information Technology Poor construction quality is one of the most significant challenges for the construction industry. However, failures can be avoided or minimized by inspections based on detailed quality inspection plans as a part of quality assurance. Therefore, structured and project-specific planning of inspection plans is required to provide inspectors with the right information. Nevertheless, inspection planning is mainly manual, dependent on the individual’s experience and high level of effort. As a result, inspection planning is often neglected and limited to providing general checklists that often lack semantically rich descriptions and are unspecific concerning individual project requirements. Furthermore, proper planning of inspections requires multiple information sources, such as building design, schedules, contractual and supplier guidelines, and standards, all of which must be provided or linked via an information model. Current research lacks an adequate formalized knowledge model to provide the knowledge-driven inspection planning process with the necessary domain knowledge to support inspection planning with heterogeneous information defined in isolated systems. Therefore, this paper extends the Ontology for Construction Quality Assurance (OCQA) with the OCQA-Thermal Insulation (OCQA-TI) to formalize thermal insulation inspection planning knowledge. The OCQA offers a new linked data model that provides explicit knowledge of quality inspection planning. The development of the OCQA-TI follows the Linked Open Terms (LOT) methodology and is implemented using the Web Ontology Language (OWL). The proposed ontology is evaluated using various approaches, including automatic consistency checking, answering competency questions, and criteria-based evaluation. The results indicate that the OCQA-TI can provide inspectors with relevant inspection planning knowledge and integrate various related information streams, thus providing a more comprehensive and efficient approach to insulation inspection planning. The functionality of OCQA-TI enables the fulfillment of increased sustainability and energy efficiency requirements by providing insulation inspection knowledge 2024-05-12T02:02:08Z 2024-05-12T02:02:08Z 2024-04-02T15:44:50Z 2023 chapter ONIX_20240402_9791221502893_19 2704-5846 https://library.oapen.org/handle/20.500.12657/89050 9791221502893 https://directory.doabooks.org/handle/20.500.12854/137095 eng Proceedings e report open access image/jpeg n/a https://library.oapen.org/bitstream/20.500.12657/89050/1/9791221502893_82.pdf Firenze University Press 10.36253/979-12-215-0289-3.82 10.36253/979-12-215-0289-3.82 2ec4474d-93b1-4cfa-b313-9c6019b51b1a 9791221502893 13 Florence open access
spellingShingle semantic web
building insulation
ontology
quality assurance in construction
inspection planning
thema EDItEUR::U Computing and Information Technology
Boden, Markus
Thibaut, Delval
El Chamaa, Rayan
Seiß, Sebastian
Melzner, Jürgen
Zheng, Yuan
Chapter Ontology-Based Construction Inspection Planning: A Case Study of Thermal Building Insulation
title Chapter Ontology-Based Construction Inspection Planning: A Case Study of Thermal Building Insulation
title_full Chapter Ontology-Based Construction Inspection Planning: A Case Study of Thermal Building Insulation
title_fullStr Chapter Ontology-Based Construction Inspection Planning: A Case Study of Thermal Building Insulation
title_full_unstemmed Chapter Ontology-Based Construction Inspection Planning: A Case Study of Thermal Building Insulation
title_short Chapter Ontology-Based Construction Inspection Planning: A Case Study of Thermal Building Insulation
title_sort chapter ontology based construction inspection planning a case study of thermal building insulation
topic semantic web
building insulation
ontology
quality assurance in construction
inspection planning
thema EDItEUR::U Computing and Information Technology
topic_facet semantic web
building insulation
ontology
quality assurance in construction
inspection planning
thema EDItEUR::U Computing and Information Technology
url ONIX_20240402_9791221502893_19
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