scholarly journals Building information modeling in construction conflict management

2017 ◽  
Vol 9 ◽  
pp. 184797901774625 ◽  
Author(s):  
Aref Charehzehi ◽  
ChangSaar Chai ◽  
Aminah Md Yusof ◽  
Heap-Yih Chong ◽  
Siaw Chuing Loo

Dispute is recognized as critical cause of deficiency and low performance in construction projects. Plenty of studies have been done in construction dispute management recently; however, there are no studies on construction dispute elimination. This study aims to propose a building information modeling (BIM) approach to control conflict causes before the occurrence of dispute. BIM is one of the latest platforms that promote a high level of collaboration, information sharing, and coordination where its implementation ranges from project initialization to completion stage. The circumstances associating with BIM technology can be utilized to explore the possibilities in conflict and dispute resolution system. Questionnaire surveys are used to collect the primary data. Analytical hierarchy process (AHP) and multi attribute utility technique (MAUT) are adopted to develop an algorithm and a decision-making framework to manage and resolve the potential conflict causes, particularly for the Malaysian construction industry. Data analysis emerged that five critical conflict factors in Malaysian construction industry are insufficient monitoring of CPM scheduling and updates requirements; failures to understand and correctly bid or price the works; delay in running bill payment; inadequate contractors’ management, supervision, and coordination; and error and omission in design that are originated from time, cost, quality, and documentation. Further analysis to prioritize BIM functions in construction conflict management has been done by the combination of AHP and MAUT results. Consequently, it is affirmed that clash detection and cost estimating, 4D scheduling, 3D visualization and structure analysis as BIM functions obtained the highest score to control conflicting factors.

2019 ◽  
Vol 5 (2) ◽  
pp. 29-37
Author(s):  
Mohammad Darabseh

Lean Construction is one of the methods used to improve control over construction projects by eliminating waste in time and materials. Lean Construction is an adaptation from the Lean Manufacturing principles to the construction industry. The purpose of this article was to review the case studies published in 2018 in the Inspec database to find out where Lean is being implemented and how. The article approach by setting the search criteria first and then inspect the result to find the non-related results and eliminate it. After that, the article was reviewed and summarized. The article verifies each article finding; however Lean Construction and Building Information Modeling (BIM) are relatively new for the construction industry and they still need more time to be adopted widely and to be applied on a lower-cost budget. However, the discussed cases show a promising future for these technologies.


2020 ◽  
Vol 14 (1) ◽  
pp. 98-110
Author(s):  
Mohammed A. Al-Hammadi ◽  
Wei Tian

Background: The Building Information Modeling (BIM) revolution can provide a solution for problems in the Saudi Arabian construction industry and improve its outcomes. Though this technology is increasingly and rapidly adopted in advanced countries, developing countries such as Saudi Arabia and the Gulf Cooperation Council countries (GCC) are still in the early stages of BIM adoption. Objective: This study investigates the current state of BIM technology adoption by exploring and analyzing the critical challenges and barriers to BIM technology utilization in the construction sectors. Methods: The quantitative approach is adopted via a survey questionnaire distributed to participants in the field of construction projects in the Architecture, Engineering, and Construction (AEC) industry. A total of 228 questionnaires are collected and analyzed using the statistical packaging for social science software. Results: Findings show that several significant barriers negatively affect the utilization of BIM. The major barriers to BIM adoption are related to the lack of demand, lack of experts, and poor awareness of BIM benefits, which have relative importance indexes of (RII = 89.910), (RII = 88.475), and (RII = 87.130), respectively. Meanwhile, unspecified data responsibilities, difficulty of learning BIM, lack of data sharing, and sufficient current technology constitute the lowest-ranking barriers with their relative importance indexes of (RII = 71.704), (RII = 70.807), (RII = 66.413), and (RII = 65.874), respectively. Conclusion: The findings of this study are highly significant and can become more helpful and interesting if further research can measure the methodologies to implement BIM technology in the Kingdom of Saudi Arabia.


Author(s):  
Aryani Ahmad Latiffi ◽  
Suzila Mohd ◽  
Juliana Brahim

Building Information Modeling (BIM) represents a new paradigm in the Malaysian architecture, engineering, and construction (AEC) industry. BIM technology provides virtual models (including 3-D models) to generate a building’s entire lifecycle. The model can also be used for analyzing design clashes, project scheduling, cost estimation, and facility management. The use of BIM in construction projects can reduce time to develop a project, reduce construction cost, and increase project quality. This paper aims to explore roles of BIM in the Malaysian construction industry. Semi-structured interviews were conducted with project consultants and BIM consultants involved in two government projects. The projects were the National Cancer Institute (NCI) Malaysia and Sultan Ibrahim Hall (formerly known as the Multipurpose Hall of Universiti Tun Hussein Onn Malaysia, or UTHM). The interviews revealed effects of BIM in both projects and potential improvement in implementing BIM in construction projects in Malaysia. A literature review and the interviews revealed that BIM is increasingly used and accepted by construction players in Malaysia, and is expected to grow in future.


Author(s):  
RENZO APAZA CUTIPA ◽  
ROY ANAHUA MAMANI

One of the most prevailing needs of the construction industry is related to the improvement of the performance of construction processes, one of the most significant trends applied for this purpose is the modeling of construction information (BIM - Building Information Modeling) . This review shows the benefits of its application in construction projects, the knowledge of BIM from an overview of the state of the art. And finally the general description, the practical theoretical application, conclusions and recommendations are presented. Una de las necesidades más imperantes de la industria de la construcción está referida a la mejora de los rendimientos de los procesos de construcción, siendo una de las tendencias más significativas aplicadas para este propósito el modelado de información de construcción (BIM – Building Information Modeling). En la presente revisión se muestran los beneficios de su aplicación en los proyectos de construcción, el conocimiento de BIM desde una visión general del estado del arte. Y finalmente se presenta la descripción general, la aplicación teórica práctica, conclusiones y recomendaciones.


Author(s):  
Aryani Ahmad Latiffi ◽  
Juliana Brahim ◽  
Suzila Mohd ◽  
Mohamad Syazli Fathi

Building Information Modeling (BIM) is increasingly being implemented in the construction industry to produce data-rich models of buildings and structures. BIM was introduced to the Malaysian construction industry by the Public Works Department (PWD) in 2007. Since then, the Malaysian government has taken initiatives to promote BIM in construction projects. This paper aims to explore those initiatives in promoting and encouraging construction players to use BIM. A semi-structured interview was conducted with the Head of BIM Unit Projects, PWD, to explore BIM initiatives made by PWD. It revealed several initiatives have been carried out by PWD, which could increase the use of BIM in the construction projects.


Author(s):  
Ghanim A. Bekr

This study involves with Building Information Modeling (BIM) and exploring the reasons behind the slow speed of implementing this method in the construction industry in developing countries in general and Jordan in specific. The aim of the research was achieved through a survey which considered 15 barrier factors and 13 driving factors. The study revealed that the level of BIM implementation in construction projects is generally low. In addition, the significant barriers affecting the adoption of BIM are lack of qualified staff to operate the software, difficulty learning BIM, the existing system fulfils the need, resistance to change and uncertainties concerning return on investment of BIM. Also, the study pointed out the most important factors that could help implementing BIM in the Jordanian construction industry. These are providing BIM training program, introducing BIM in the university curriculum and providing the efforts by the government to push implementation of BIM in their projects. Finally, the paper presented some recommendations if followed the level of (BIM) implementation in this country may be improved.


Author(s):  
Nguyen Manh Tuan

The concepts of Building Information Modeling (BIM) and Lean construction are increasingly popular and used for the purpose of improving the efficiency of construction projects. The Lean construction approach helps optimize the system, thereby minimizing the waste and increase the maximum amount of value for clients. This is in line with the effectiveness of BIM for the purpose of analyzing, evaluating, and managing projects based on the virtual information model before, during and after construction. The combination of BIM and Lean construction will certainly be the trend of the construction industry in the near future. This paper aims to analyze the integration of Lean construction principles in the BIM coordination process through a specific case study. The project management unit is responsible for managing and evaluating BIM models from consultants and contractors and serves as the project's BIM coordinator. Keywords: building information modeling; BIM coordination process; Lean construction; Lean principles. Received 20 November 2018, Revised 30 December 2018, Accepted 25 January 2019


2013 ◽  
Vol 438-439 ◽  
pp. 1621-1627 ◽  
Author(s):  
Brittany Giel ◽  
Raja R.A. Issa

The overall adoption of Building Information Modeling (BIM) has increased considerably in recent years; however, utilization of BIMs post-construction is still seldom explored or documented. Much of this may be due to the fact that there still remains great inconsistency between stakeholders levels of BIM proficiency. In order to achieve a life-cycle use of BIMs, it is critical that the Architecture, Engineering, Construction, and Operations (AECO) industry determine if it is moving closer to achieving a mature BIM standard or if organizationally it is still just grazing the surface of what BIM can do. Based on a survey of a diverse sample of the construction industry, this study evaluates the quality and maturity of BIM implementation across various organizations as well as the quality of BIM execution on current construction projects.


2021 ◽  
Vol 11 (16) ◽  
pp. 7653
Author(s):  
Katharina Sigalov ◽  
Xuling Ye ◽  
Markus König ◽  
Philipp Hagedorn ◽  
Florian Blum ◽  
...  

Construction projects usually involve signing various contracts with specific billing procedures. In practice, dealing with complex contract structures causes significant problems, especially with regard to timely payment and guaranteed cash flow. Furthermore, a lack of transparency leads to a loss of trust. As a result, late or non-payment is a common problem in the construction industry. This paper presents the concept of implementing smart contracts for automated, transparent, and traceable payment processing for construction projects. Automated billing is achieved by combining Building Information Modeling (BIM) approaches with blockchain-based smart contracts. Thereby, parts of traditional construction contracts are transferred to a smart contract. The smart contract is set up using digital BIM-based tender documents and contains all of the relevant data for financial transactions. Once the contracted construction work has been accepted by the client, payments can be made automatically via authorized financial institutions. This paper describes the framework, referred to as BIMcontracts, the container-based data exchange, and the digital contract management workflow. It discusses the industry-specific requirements for blockchain and data storage and explains which technical and software architectural decisions were made. A case study is used to demonstrate the current implementation of the concept.


2021 ◽  
Vol 920 (1) ◽  
pp. 012007
Author(s):  
N S A Rahim ◽  
S A S Zakaria ◽  
N Romeli ◽  
N Ishak ◽  
S Losavanh

Abstract Building Information Modeling (BIM) emerges as one of the megatrends that will modernize the Malaysian construction industry due to its vital role in collaboration, coordination and communication in real-time among construction industry stakeholders. In 2019, the government of Malaysia has mandated the use of BIM technology for public projects worths more than 100 million. However, less than half of the construction projects in Malaysia is currently using the BIM system. In order to encourage the implementation of BIM, there is an important need to educate the construction industry players with realistic information on BIM technology. Based on previous literature, disruption of BIM toward the traditional practice of construction activities can be managed through exposure and incremental of BIM knowledge. Therefore, this study explores the current awareness of construction industry players on the application of BIM toward sustainability aspects, particularly on social sustainability. A set of questionnaire survey is used to gather the required data and a total of 133 contractors have responded to the survey. The data were analyzed using the frequency distribution to indicate the highlighted application of BIM foresees by contractors that contribute to social sustainability. The finding indicates that the level of awareness is influenced by their knowledge on BIM. Therefore, providing a better understanding and wider exposure on BIM could improve the implementation of BIM in the construction projects, which align with the government agenda.


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