PurposeThe wood construction industry has been described as slow in adapting efficiency-increasing activities in its operations and supply chain. The industry is still facing challenges related to digitalization, such as fragmentation, poor traceability and lack of real-time information. This study evaluates the status of digitalization in construction supply chains by thematically analyzing the existing literature and mapping research trends.Design/methodology/approachA review of the key literature from 2016 to 2021 was performed. The results highlight various technologies and their applications within supply chains and identify research gaps, especially between theoretical frameworks and actual implementation using a scientometric-thematic analysis.FindingsThis paper provides a conceptual framework to further aid researchers in exploring the current trends in Supply Chain 4.0 and its applications in the wood construction industry compared to other more advanced industries. Suggested directions for future research in the wood construction Supply Chain 4.0 are outlined.Originality/valueThe existing literature still lacks a comprehensive review of the potential of a digitalized supply chain, especially in the construction industry. This framework is pivotal to continue explaining and observing the best ways to accelerate and implement Supply Chain 4.0 practices for digitalized supply chain management (SCM) while focusing specifically on the wood construction industry. The literature review results will help develop a comprehensive framework for future research direction to create a clearer vision of the current state of digitalization in supply chains and focus on the wood construction supply chain, thus, fully achieving the benefits of Supply Chain 4.0 in the wood construction industry.
PurposeThe problem of design changes in the construction industry is common worldwide, and the Jordanian market is no exception. The purpose of this paper is to identify the factors causing design changes in construction projects in Jordan in both the public and private sectors. Furthermore, this research will examine the effect of these factors on project's performance during the construction phase.Design/methodology/approachThis research commences by identifying the factors causing design changes in construction projects worldwide through an intensive literature review. The identified factors were then filtered to those applicable to the Jordanian construction market based on the results obtained from a questionnaire survey and real case construction projects. In total, 252 professionals from the Jordanian construction industry and 10 completed and/or ongoing construction projects in different parts of Jordan were compared.FindingsThe results find that the top major factors affecting design changes are owner's requirements; design errors and omissions and value engineering. The research also studies and documents the impacts of design changes on project cost, schedule and quality.Originality/valueThe results obtained from this research will assist the construction professionals representing owners, consultants and contractors in applying control measures to minimize the occurrence of the identified factors causing design changes and to mitigate their sever impacts on projects in terms of cost, schedule and quality.
Building information modelling is gradually being recognised by the architecture, engineering, construction, and operation industry as a valuable opportunity to increase the efficiency of the built environment. Focusing on the wood construction industry, BIM is becoming a necessity; this is due to its high level of prefabrication and complex digital procedures using wood sawing machines and sophisticated cuttings. However, the full implementation of BIM is still far from reality. The main objective of this paper is to explore the barriers affecting BIM implementation in the Swedish construction industry. An extensive literature review was conducted to extract barriers hindering the implementation of BIM in the construction industry. Secondly, barriers to the implementation of BIM in the wood construction industry in Sweden were extracted using the grounded theory methodology to analyse expert input on the phenomenon of low BIM implementation in the wood construction industry in Sweden. Thirty-four barriers were identified. The analysis of this study also led to the development of a conceptual model that recommended solutions to overcome the barriers identified to help maximise BIM implementation within the wood construction industry. Identifying the main barriers affecting BIM implementation is essential to guide organisational decisions and drive policy, particularly for governments that are considering articulating regulations to expand BIM implementation.
The wood manufacturing industry has been described as slow in adopting efficiency increasing activities in its operations and supply chain, the industry is still facing challenges relating to digitalization such as fragmentation, poor traceability, and lack of real-time information. The integration of industry 4.0 technologies can enhance the supply chain performance in terms of efficiency, collaboration, quality, and transparency. This paper aims to evaluate the current status of digitalization in supply chains, by analysing the existing literature and mapping research trends. in an aim to create a clearer vision of the current state of digitalization in supply chains in general and focusing on the wood manufacturing supply chain in particular, the results of the literature review will be used to develop a comprehensive framework for future research direction, to fully achieve the benefits of supply chain 4.0 in the wood manufacturing industry. This framework serves as a departure point to continue explaining and observing the best way to accelerate and implement Supply Chain 4.0 practices for digitalized supply chain management while focusing specifically on the wood manufacturing industry. To achieve the overall purpose, a literature review of the key literature from 2016 to 2021 has been performed. using a bibliometric and content review analysis, the results shed light on various technologies and their applications within supply chains and identify research gaps especially between theoretical frameworks and actual implementation. This paper provides a conceptual framework to further aid researchers in the exploration of knowledge regarding the most current trends in Supply Chain 4.0 and its applications in the wood manufacturing industry compared to other advanced industries, as well as the directions of the new research in the wood manufacturing Supply Chain 4.0.
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