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Afful, A E, Ayarkwa, J, Acquah, G K K, Osei-Asibey, D and Osei Assibey, A A D (2023) Barriers to incorporation of indoor environmental quality (IEQ) principles into building designs. Engineering, Construction and Architectural Management, 30(06), 2400-19.

Boyd, D and Bentley, D (2012) A critique of conceptions of design and management in construction projects. Construction Management and Economics, 30(06), 441-54.

Bröchner, J, Josephson, P-E and Kadefors, A (2002) Swedish construction culture, quality management and collaborative practice. Building Research & Information, 30(06), 392–400.

Cevikbas, M and Işık, Z (2023) Detecting the most appropriate delay analysis methods for mega airport projects. Engineering, Construction and Architectural Management, 30(06), 2463-80.

Durdyev, S, Koc, K, Karaca, F and Gurgun, A P (2023) Strategies for implementation of green roofs in developing countries. Engineering, Construction and Architectural Management, 30(06), 2481-502.

Erman, E (2002) Timber joint design: the geometric breakdown method. Building Research & Information, 30(06), 446–69.

Fitriani, H and Ajayi, S (2023) Investigation of requisite measures for enhancing sustainable construction practices in Indonesia. Engineering, Construction and Architectural Management, 30(06), 2602-20.

Gao, Q, Liu, B, Sun, J, Liu, C and Xu, Y (2023) Border-crossing frequencies of CO2 embodied in international trade of construction products for final demand. Engineering, Construction and Architectural Management, 30(06), 2360-80.

Jennings, W (2012) Why costs overrun: risk, optimism and uncertainty in budgeting for the London 2012 Olympic Games. Construction Management and Economics, 30(06), 455-62.

Khatatbeh, A A (2023) Quantifying the impact of ISO 9001 standard on the project and engineering management and success factors; A case of construction industry. Engineering, Construction and Architectural Management, 30(06), 2564-81.

Langston, C (2023) The empirical relationship between contractor success and project innovation. Engineering, Construction and Architectural Management, 30(06), 2231-54.

Lehtiranta, L, Kärnä, S, Junnonen, J-M and Julin, P (2012) The role of multi-firm satisfaction in construction project success. Construction Management and Economics, 30(06), 463-75.

Mohandes, S R, Durdyev, S, Sadeghi, H, Mahdiyar, A, Hosseini, M R, Banihashemi, S and Martek, I (2023) Towards enhancement in reliability and safety of construction projects: developing a hybrid multi-dimensional fuzzy-based approach. Engineering, Construction and Architectural Management, 30(06), 2255-79.

Ofori, G (2002) Singapore's construction: moving toward a knowledge-based industry. Building Research & Information, 30(06), 401–12.

Olatunji, O A, Ramanayaka, C D E, Rotimi, F E and Rotimi, J O B (2023) Analysis of contractors' administrative characteristics in bid decision factors. Engineering, Construction and Architectural Management, 30(06), 2420-35.

Omar, H and Mahdjoubi, L (2023) Practical solutions for improving the suboptimal performance of construction projects using Dubai construction projects as an example. Engineering, Construction and Architectural Management, 30(06), 2185-205.

  • Type: Journal Article
  • Keywords: construction performance; construction projects; dubai; project overruns; technology
  • ISBN/ISSN:
  • URL: https://doi.org/10.1108/ECAM-10-2021-0956
  • Abstract:

    Purpose: Poor performance remains a challenge for the construction industry worldwide. One of the key performance indicators of the construction industry is the timely delivery of projects. Despite the recent methodological and technological advances in the field, project-overrun remains a significant challenge for the industry. This paper seeks to propose practical solutions that allow overcoming the challenges and promote the opportunities for improving the performance of the construction projects in Dubai. Design/methodology/approach: This study focussed on the construction projects in Dubai; therefore, this research adopted a sequential mixed approach in two stages. The first stage involved face-to-face interviews with seven carefully selected construction professionals. Their answers were analysed to provide with the literature study “the informed-basis for the development of the online questionnaire”. The second stage involved an online survey administrated to 425 carefully selected construction organisations working in Dubai. Accordingly, a meticulous analysis for the prime causes of project overruns has also been undertaken. This analysis assisted proposing the most suitable solutions-based technologies that enabled alleviating overruns in the construction projects. Findings: The findings revealed that, there was a consensus agreement on the formidable opportunities for improving the performance of the construction industry in general and in particular in Dubai. These opportunities are intrinsically linked with the adoption of the latest technologies such as building information modelling, augmented reality, virtual reality and the artificial intelligence (AI). Whereas, adopting AI has already assisted two public authorities to release No Objection Certificates and work permits effectively within one day instead of 14 working days, which has saved 90% of the time and cost. Likewise, adoption of the AI has assisted delivering the construction project with a 9% of time saving and a 6% of cost saving due to embracing an automated system that enabled them to instantly detect and report the delays, once occurred. Research limitations/implications: The main limitation of this study is that the study was limited to the construction industry in the Emirate of Dubai. Therefore, future research could target the whole United Arab Emirates construction industry to propose the practical solution on the country level. Practical implications: The literature study is replete with solutions, which tend to be theoretical more than practical. Therefore, the proposed practical recommendations will significantly assist the construction industry to improve its suboptimal performance to rescind the sovereignty of the irrelevant involvements. The research recommended establishing independent entity to lead the change in the construction industry; this entity will have the power of enacting rules and legislations. Furthermore, this independent entity will have the power and authority of dictations and impose sanctions on the non-committed organisations that are reluctant to adopt the recommended technologies and approaches. Originality/value: Based on the findings of the study, this paper draws a road map for the construction industry by determining practical solutions for improvements starting with an establishment of an independent authority that selects and tests the most appropriate technologies and approaches to contribute to performance improvements.

Onubi, H O, Hassan, A S, Yusof, N and Bahdad, A A S (2023) Moderating effect of project size on the relationship between COVID-19 safety protocols and economic performance of construction projects. Engineering, Construction and Architectural Management, 30(06), 2206-30.

Pietroforte, R and Miller, J B (2002) Procurement methods for US infrastructure: historical perspectives and recent trends. Building Research & Information, 30(06), 425–35.

Qiu, Y and Chen, H (2023) A systematic review of the knowledge domain of institutional theory in construction project management. Engineering, Construction and Architectural Management, 30(06), 2523-44.

Reeves, K (2002) Construction business systems in Japan: general contractors and subcontractors. Building Research & Information, 30(06), 413–24.

Rwelamila, P D (2002) Creating an effective construction industry strategy in South Africa. Building Research & Information, 30(06), 435–45.

Shahid, M U, Thaheem, M J and Arshad, H (2023) Quantification and benchmarking of construction waste and its impact on cost – a case of Pakistan. Engineering, Construction and Architectural Management, 30(06), 2304-33.

Shi, C, Chen, Y, Hua, Y and Tang, Y (2023) Understanding subcontracting organizational arrangements for construction projects in China: integrating capabilities and uncertainty. Engineering, Construction and Architectural Management, 30(06), 2381-99.

Shi, Q, Zuo, J and Zillante, G (2012) Exploring the management of sustainable construction at the programme level: a Chinese case study. Construction Management and Economics, 30(06), 425-40.

Sodangi, M (2023) Towards attaining efficient joint ventures in international construction: the case of Saudi Arabia. Engineering, Construction and Architectural Management, 30(06), 2545-63.

Tetteh, M O, Chan, A P C, Nani, G, Darko, A and Oppong, G D (2023) Impacts of management control mechanisms on the performance of international construction joint ventures: an empirical study. Engineering, Construction and Architectural Management, 30(06), 2280-303.

Xie, L L, Luo, Z and Zhao, X (2023) Critical factors of construction workers' career promotion: evidence from Guangzhou city. Engineering, Construction and Architectural Management, 30(06), 2334-59.

Yuan, X X (2012) Bayesian method for the correlated competitive bidding model. Construction Management and Economics, 30(06), 477-91.

Zaman, U, Florez-Perez, L, Anjam, M, Ghani Khwaja, M and Ul-Huda, N (2023) At the end of the world, turn left: examining toxic leadership, team silence and success in mega construction projects. Engineering, Construction and Architectural Management, 30(06), 2436-62.

Zhang, H M, Chong, H Y, Zeng, Y and Zhang, W (2023) The effective mediating role of stakeholder management in the relationship between BIM implementation and project performance. Engineering, Construction and Architectural Management, 30(06), 2503-22.