Smart Technology in Construction Industry: Opportunity during COVID-19 Pandemic

Putri Fatimah(1*), Ahyahudin Sodri(2), Udi Syahnoedi Hamzah(3),

(1) Universitas Indonesia
(2) Universitas Indonesia
(3) Universitas Indonesia
(*) Corresponding Author

Abstract


The construction industry is a sector that plays an essential role in economic growth. The COVID-19 pandemic is an uncertain situation that significantly affects humans and industries, including the construction industry. The operational construction projects are complex with various activities and involve a large of workers. Prevention of the spread of COVID-19 that changes lifestyles and improves technology adoption. This study examines the relationship between increased technology adoption and limited workers’ social interaction in construction projects during the pandemic. A questionnaire survey was conducted to construction workers in DKI Jakarta, 74 valid responses were collected and correlation analyses were performed with SPSS version 28. The result of this study indicated a significant and positive correlation between increased technology adoption and limited workers’ social interaction in a construction project during the pandemic. There are opportunities for the construction industry to implement a digital transformation, Building Information Modelling (BIM), and intelligence visualization technologies to cope with the impact of the COVID-19 pandemic on construction activities. This study provides evidence that smart technologies application has a significant role in supporting the construction industry to mitigate the impact of the COVID-19 pandemic and opportunities for continuous improvement towards post-pandemic.

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References


World Health Organization, Novel Coronavirus(2019-nCoV) Situation Report – 22, (2020), [Online]. Available: https://www.who.int/docs/default-source/coronaviruse/situation-reports/20200211-sitrep-22 ncov.pdf?sfvrsn=fb6d49b1_2.

M. Usman, Y. Ali, A. Riaz, A. Riaz, and A. Zubair, Economic perspective of coronavirus (COVID-19), J. Public Aff., 20 (4) (2020) 1–5,

World Health Organization, WHO Health Emergency Dashboard - Indonesia Situation, (2022), https://covid19.who.int/region/searo/country/id (accessed Dec. 17, 2022).

A. Shibani, D. Hassan, and N. Shak, The Effects of Pandemic on Construction Industry in the UK, Mediterr. J. Soc. Sci., 2117 (2020) 48–60.

M. Raoufi and A. R. Fayek, Identifying Actions to Control and Mitigate the Effects of the COVID-19 Pandemic on Construction Organizations: Preliminary Findings, Public Work. Manag. Policy, 26 (1) (2021) 47–55,

Y. Yang et al., Opportunities and Challenges for Construction Health and Safety Technologies under the COVID-19 Pandemic in Chinese Construction Projects,” Int. J. Environ. Res. Public Heal. Artic., 18 (13038) (2021).

D. Y. Gamil and A. Alhagar, The Impact of Pandemic Crisis on the Survival of Construction Industry : A Case of COVID-19, Mediterr. J. Soc. Sci., 11 (4) (2020) 122–128.

A. Olanrewaju, A. AbdulAziz, C. N. Preece, and K. Shobowale, Evaluation of measures to prevent the spread of COVID-19 on the construction sites, Clean. Eng. Technol., 5 (100277) (2021).

D. Larasati, N. Ekawati, S. Triyadi, A. F. Muchlis, and A. Wardhani, Impact of the Pandemic COVID-19 on the Implementation of Construction Contracts, IOP Conf. Ser. Earth Environ. Sci., 738(1) (2021) 1–12,

R. Susanti, S. Fauziyah, and P. U. Pramesti, Lesson from pandemic Covid-19 for sustainability construction in Indonesia, AIP Conf. Proc., 2447 (1) (2021) 30013.

M. Xu, X. Nie, H. Li, J. C. P. Cheng, and Z. Mei, Smart construction sites: A promising approach to improving on-site HSE management performance, J. Build. Eng., 49 (2021).

M. Ion and G. Căruțașu, Smart Technology, Overview, and Regulatory Framework, Rom. Cyber Secur. J., 2 (1) (2020), [Online]. Available: https://rocys.ici.ro/spring-2020-no-1-vol-2/smart-technology-overview-and-regulatory-framework/.

M. Iqbal, N. Ahmad, M. Waqas, and M. Abrar, COVID-19 pandemic and construction industry: Impacts, emerging construction safety practices, and proposed crisis management framework, Brazilian J. Oper. Prod. Manag., 18 (2) (2021) 1–17.

Z. Li, Y. Jin, W. Li, Q. Meng, and X. Hu, Impacts of COVID-19 on construction project management: a life cycle perspective, Eng. Constr. Archit. Manag., (2022),

COVID-19 Handling Task Force, Peta Sebaran Perkembangan Kasus Covid-19 di Indonesia, (2022). https://covid19.go.id/en/peta-sebaran (accessed Mar. 22, 2022).

R. E. Caraka et al., Impact of COVID-19 large scale restriction on environment and economy in Indonesia, Glob. J. Environ. Sci. Manag., 6 (2020) 65–84.

Sugiyono, Metode Penelitian Kuantitatif, Kualitatif, dan R&D, 19th ed. Bandung: Alfabeta, (2013).

X. Chen, H. Yu, and F. Yu, What is the optimal number of response alternatives for rating scales? From an information processing perspective, J. Mark. Anal., 3 (2) (2015) 69–78.

J. Sarwono, Path Analysis dengan SPSS. Jakarta: Elex Media Komputindo, (2012).

V. Leontie, L. G. Maha, and I. C. Stoian, COVID-19 Pandemic and its Effects on the Usage of Information Technologies in the Construction Industry: The Case of Romania, Buildings, 12 (2) (2022).

S. Kim, M. Lee, I. Yu, and J. W. Son, Key Initiatives for Digital Transformation, Green New Deal and Recovery after COVID-19 within the Construction Industry in Korea, Sustain., 14 (14) (2022).

T. Ben-Zvi and J. Luftman, Post-Pandemic IT: Digital Transformation and Sustainability, Sustain., 14, (22) (2022) 1–11.

M. M. Kamal, The triple-edged sword of COVID-19: understanding the use of digital technologies and the impact of productive, disruptive, and destructive nature of the pandemic, Inf. Syst. Manag., 37 (4) (2020) 310–317.

J. P. Carvalho, L. Bragança, and R. Mateus, Optimising building sustainability assessment using BIM, Autom. Constr., 102 (2019) 170–182.

M. Zoghi and S. Kim, Dynamic modeling for life cycle cost analysis of BIM-based construction waste management, Sustain., 12 (12) (2020) 2483.

J. Čabala, M. Kozlovská, Z. Struková, and A. Tažíková, Benefits of BIM models and mixed reality in the implementation phase of construction projects, IOP Conf. Ser. Mater. Sci. Eng., 1252 (1) (2022) 012079.

S. Soltani, The Contributions of Building Information Modelling to Sustainable Construction, World J. Eng. Technol., 4 (2) (2016) 193–199.

A. Turkyilmaz, M. Guney, F. Karaca, Z. Bagdatkyzy, A. Sandybayeva, and G. Sirenova, A comprehensive construction and demolition waste management model using PESTEL and 3R for construction companies operating in central Asia, Sustain., 11 (6) (2019).

S. O. Abioye et al., Artificial intelligence in the construction industry : A review of present status , opportunities and future challenges, J. Build. Eng., 44 (2021).

H. Suparwito, Information Technology and Learning Methodology amid the COVID-19 Pandemic, Int. J. Appl. Sci. Smart Technol. 2 (2) (2020) 107–118.

A. A. Rafiq, E. Alimudin, and D. P. Rani, Employee Presence Using Body Temperature Detection and Face Recognition, Int. J. Appl. Sci. Smart Technol., 4 (2) (2022) 173–184.




DOI: https://doi.org/10.24071/ijasst.v5i1.5583

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