Digital Transformation and Understanding the Impact on Construction Project Management in Iraq

Authors

  • Abbas Abdulameer Khalaf Imam Alkadhum University College

DOI:

https://doi.org/10.61132/manuhara.v2i3.1122

Keywords:

Digital Transformation, Understanding, Competitive Advantage, Management

Abstract

The construction sector is currently undergoing significant changes as a result of the adoption of digital
technologies. The utilisation of Building Information Modelling (BIM) has garnered considerable interest in recent
years from scholars and industry experts. The sector has seen major changes as a result of its rising success. Given
these changes, the traditional knowledge and skills possessed by project specialists or managers seem insufficient
in properly supervising the new information component of construction project management. As projects advance,
the inclusion of new roles such as BIM managers, BIM coordinators, BIM modellers, and information managers is
becoming crucial to meet the demand for enhanced capabilities. Multiple studies have analysed these novel roles
from a theoretical perspective, but have not investigated their correlation with conventional roles in project
management, nor have they explored how project managers and BIM specialists position themselves in relation to
the overall processes outlined in the BIM implementation guides. This case study illustrates that the duties of BIM
specialists varied among various fields and go beyond solely technical assignments. Moreover, the information
sub-process predominantly focuses on BIM managers, leading to the establishment of two distinct sources of
leadership within a project: BIM managers and project managers. According to the poll, professionals believe that
the BIM collaboration methods described in the BIM implementation plan and project documents are too general.
Moreover, there is always a difference between specified methods and the ones actually used in the project.

Downloads

Download data is not yet available.

References

Ahankoob, A., Manley, K., & Abbasnejad, B. (2022). The role of contractors’ building information modelling (BIM) experience in realising the potential values of BIM. International Journal of Construction Management, 22(4), 588-599.

Alami, A. H., Olabi, A. G., Alashkar, A., Alasad, S., Aljaghoub, H., Rezk, H., & Abdelkareem, M. A. (2023). Additive manufacturing in the aerospace and automotive industries: Recent trends and role in achieving sustainable development goals. Ain Shams Engineering Journal, 14(11), 102516.

Barison, M. B., & Santos, E. T. (2010, June). An overview of BIM specialists. In Proceedings of the International Conference on Computing in Civil and Building Engineering (pp. 141-146). Nottingham University Press Nottingham, UK.

Bhawani, S. (2021). A Function-Based Lean Construction Methods Ontology Supporting the Lean Implementation Planning Process Developed for Construction Projects. The Pennsylvania State University.

Cao, D., Shao, S., Huang, B., & Wang, G. (2022). Multidimensional behavioral responses to the implementation of BIM in construction projects: an empirical study in China. Engineering, Construction and Architectural Management, 29(2), 819-841.

Chen, Q., Adey, B. T., Haas, C., & Hall, D. M. (2020). Using look-ahead plans to improve material flow processes on construction projects when using BIM and RFID technologies. Construction innovation, 20(3), 471-508.

Chen, Q., de Soto, B. G., & Adey, B. T. (2018). Construction automation: Research areas, industry concerns and suggestions for advancement. Automation in construction, 94, 22-38.

Chileshe, N., Jayasinghe, R. S., & Rameezdeen, R. (2019). Information flow-centric approach for reverse logistics supply chains. Automation in Construction, 106, 102858.

Cobb, C. G. (2023). The project manager's guide to mastering Agile: Principles and practices for an adaptive approach. John Wiley & Sons.

de Souza, M. P., Fialho, B. C., Ferreira, R. C., Fabricio, M. M., & Codinhoto, R. (2023). Modelling and coordination of building design: An experience of BIM learning/upskilling. Architectural Engineering and Design Management, 19(1), 74-91.

Eastman, C. M. (2011). BIM handbook: A guide to building information modeling for owners, managers, designers, engineers and contractors. John Wiley & Sons.

Elbasheir Khalid Elbasheir, K. (2022). Assessment of BIM Workflows for Construction Management: Case Study of Sevran Beaudottes Underground Station (Doctoral dissertation, Politecnico di Torino).

Holtz, P. (2020). Does postmodernism really entail a disregard for the truth? Similarities and differences in postmodern and critical rationalist conceptualizations of truth, progress, and empirical research methods. Frontiers in psychology, 11, 545959.

Hu, C. (2023). Leadership competencies within BIM-oriented project management; based on an analysis of project manager and BIM manager.

Huang, M. Q., Ninić, J., & Zhang, Q. (2021). BIM, machine learning and computer vision techniques in underground construction: Current status and future perspectives. Tunnelling and Underground Space Technology, 108, 103677.

Jackson, B. J. (2020). Construction management JumpStart: the best first step toward a career in construction management. John Wiley & Sons.

Kerzner, H. (2022). Project management metrics, KPIs, and dashboards: a guide to measuring and monitoring project performance. John wiley & sons.

Lee, G., & Borrmann, A. (2020). BIM policy and management. Construction management and economics, 38(5), 413-419.

Manzoor, B., Othman, I., & Pomares, J. C. (2021). Digital technologies in the architecture, engineering and construction (Aec) industry—A bibliometric—Qualitative literature review of research activities. International journal of environmental research and public health, 18(11), 6135.

Marmol, G., Ferreira, D. P., & Fangueiro, R. (2021). Automotive and construction applications of fiber reinforced composites. In Fiber Reinforced Composites (pp. 785-819). Woodhead Publishing.

Mellado, F., & Lou, E. C. (2020). Building information modelling, lean and sustainability: An integration framework to promote performance improvements in the construction industry. Sustainable cities and society, 61, 102355.

Norouzi, M., Chàfer, M., Cabeza, L. F., Jiménez, L., & Boer, D. (2021). Circular economy in the building and construction sector: A scientific evolution analysis. Journal of Building Engineering, 44, 102704.

Olanrewaju, O. I., Chileshe, N., Babarinde, S. A., & Sandanayake, M. (2020). Investigating the barriers to building information modeling (BIM) implementation within the Nigerian construction industry. Engineering, Construction and Architectural Management, 27(10), 2931-2958.

Olanrewaju, O. I., Kineber, A. F., Chileshe, N., & Edwards, D. J. (2022). Modelling the relationship between Building Information Modelling (BIM) implementation barriers, usage and awareness on building project lifecycle. Building and Environment, 207, 108556.

Oswald, D., & Dainty, A. (2020). Ethnographic research in the construction industry: a critical review. Journal of construction engineering and management, 146(10), 03120003.

Palacio Buendia, A. V., Pérez-Albert, Y., & Serrano Gine, D. (2021). Mapping landscape perception: An assessment with public participation geographic information systems and spatial analysis techniques. Land, 10(6), 632.

Paparini, S., Green, J., Papoutsi, C., Murdoch, J., Petticrew, M., Greenhalgh, T., ... & Shaw, S. (2020). Case study research for better evaluations of complex interventions: rationale and challenges. BMC medicine, 18, 1-6.

Priya, A. (2021). Case study methodology of qualitative research: Key attributes and navigating the conundrums in its application. Sociological Bulletin, 70(1), 94-110.

Raza, M. S., Tayeh, B. A., Aisheh, Y. I. A., & Maglad, A. M. (2023). Potential features of building information modeling (BIM) for application of project management knowledge areas in the construction industry. Heliyon, 9(9).

Regona, M., Yigitcanlar, T., Xia, B., & Li, R. Y. M. (2022). Opportunities and adoption challenges of AI in the construction industry: A PRISMA review. Journal of open innovation: technology, market, and complexity, 8(1), 45.

Riazi, S. R. M., Zainuddin, M. F., Nawi, M. N. M., Musa, S., & Lee, A. (2020). A critical review of fragmentation issues in the construction industry. Journal of Talent Development and Excellence, 12(2).

Robinson, D. K., & Mazzucato, M. (2019). The evolution of mission-oriented policies: Exploring changing market creating policies in the US and European space sector. Research Policy, 48(4), 936-948.

Sacks, R., Wang, Z., Ouyang, B., Utkucu, D., & Chen, S. (2022). Toward artificially intelligent cloud-based building information modelling for collaborative multidisciplinary design. Advanced Engineering Informatics, 53, 101711.

Sony, M., & Naik, S. (2020). Industry 4.0 integration with socio-technical systems theory: A systematic review and proposed theoretical model. Technology in society, 61, 101248.

Takagi, N., & Varajão, J. (2020). Success management and the project management body of knowledge (PMBOK): An integrated perspective.

Vendrusculo, E. (2021). Development of Knowledge Management upon the use of BIM Technology.

Welch, C., Piekkari, R., Plakoyiannaki, E., & Paavilainen-Mäntymäki, E. (2020). Theorising from case studies: Towards a pluralist future for international business research. Research methods in international business, 171-220.

Xun, X., Zhang, J., & Yuan, Y. (2022). Multi-information fusion based on BIM and intuitionistic fuzzy DS evidence theory for safety risk assessment of undersea tunnel construction projects. Buildings, 12(11), 1802.

Downloads

Published

2024-07-26

How to Cite

Abbas Abdulameer Khalaf. (2024). Digital Transformation and Understanding the Impact on Construction Project Management in Iraq. Jurnal Manuhara : Pusat Penelitian Ilmu Manajemen Dan Bisnis, 2(3), 334–350. https://doi.org/10.61132/manuhara.v2i3.1122