The construction industry, known for its low productivity, is increasingly utilising software and mobile apps to enhance efficiency. However, more comprehensive research is needed to understand the effectiveness of these technology applications. The PRISMA principles utilised a scoping review methodology to ascertain pertinent studies and extract significant findings. From 2013 onwards, articles containing data on mobile applications or software designed to enhance productivity in the construction sector were obtained from multiple databases, including Emerald Insight, Science Direct, IEEE Xplore, and Google Scholar. After evaluating 2604 articles, 30 were determined to be pertinent to the study and were subsequently analysed for the review. The review identified five key themes: effectiveness, benefits, successful implementation examples, obstacles and limitations, and a comprehensive list of software and mobile apps. In addition, 71 software and mobile apps have shown potentially how these technologies can improve communication, collaboration, project management, real-time collaboration, document management, and on-the-go project information and estimating processes in the construction industry, increasing efficiency and productivity. The findings highlight the potential of these technologies such as Automation, Radio-Frequency Identification (RFID), Building Information Modeling (BIM), Augmented Reality (AR), Virtual Reality (VR), and Internet of Things (IoT) to improve efficiency and communication in the construction industry. Despite challenges such as cost, lack of awareness, resistance to change, compatibility concerns, human resources, technological and security concerns and licensing issues, the study identifies specific mobile applications and software with the potential to enhance efficiency significantly, improve productivity and streamline workflows. The broader societal impacts of construction software and mobile app development include increased efficiency, job creation, and sustainability.
References
[1]
Saini, A. and Thomas, A. (2023) Development of a Machine Learning-Based Labour Productivity Prediction Tool to Practice Lean Construction. Proceedings of the 31st Annual Conference of the International Group for Lean Construction (IGLC31), Lille, 26 June-2 July 2023, 1326-1336. https://doi.org/10.24928/2023/0209
[2]
Kaur, G., Mishra, N. and Singhal, P. (2023) Construction Industry: A Case of Rural Inclusiveness at the Workplace in the Indian Perspective. In: Bala, S. and Singhal, P., Eds., Diversity, Equity, and Inclusion Efforts of Businesses in Rural Areas, IGI Global, Dauphin County, Pennsylvania, 155-167. https://doi.org/10.4018/978-1-6684-6878-4.ch010
[3]
Scorgie, D.G., Feng, Z., Paes, D., Parisi, F., Yiu, T.W. and Lovreglio, R. (2024) Virtual Reality for Safety Training: A Systematic Literature Review and Meta-Analysis. Safety Science, 171, 106372. https://doi.org/10.1016/j.ssci.2023.106372
[4]
Loosemore, M., Alkilani, S. and Luperdi, S. (2022) Productivity and Industrial Relations in the Australian Construction Industry. Proceedings of the Institution of Civil Engineers, 175, 167-176. https://doi.org/10.1680/jmapl.20.00051
[5]
Zaher, M.A.E., Greenwood, D. and Marzouk, M.M. (2018) Mobile Augmented Reality Applications for Construction Projects. Construction Innovation: Information, Process, Management, 18, 152-166. https://doi.org/10.1108/CI-02-2017-0013
[6]
Costa, E.T., Oval, R., Shepherd, P. and Orr, J. (2023) Computational Design Exploration of a Segmented Concrete Shell Building Floor System. Structures and Buildings, 176, 1010-1021. https://doi.org/10.1680/jstbu.22.00156
[7]
International Organization for Standardization (2013) ISO/IEC 27001: 2013: Information Technology—Security Techniques—Information Security Management Systems—Requirements. https://www.iso.org/obp/ui/#iso:std:iso-iec:27001:ed-2:v1:en:sec:4
[8]
Pressman, R.S. (2010) Software Engineering: A Practitioner’s Approach. 8th Edition, McGraw-Hill, New York. https://www.amazon.com/Software-Engineering-Practitioners-Roger-Pressman/dp/0078022126
[9]
Ramadan, B., Nassereddine, H., Taylor, T.H. and Goodrum, P.M. (2023) Impact of Technology Use on Workforce Performance and Information Access in the Construction Industry. Frontiers in Built Environment, 9, Article 1079203. https://doi.org/10.3389/fbuil.2023.1079203
[10]
Srivastava, A., Jawaid, S., Gehlot, A., Gehlot, A., Akram, S.V., Priyadarshi, N. and Khan, B. (2022) Imperative Role of Technology Intervention and Implementation for Automation in the Construction industry. Advances in Civil Engineering, 2022, Article ID: 6716987. https://doi.org/10.1155/2022/6716987
[11]
Hei, S., Zhang, H., Shen, L., Zhang, R., Zhou, C., Ma, C. and Ye, H. (2024) Implementing BIM and Lean Construction Methods for the Improved Performance of a Construction Project at the Disassembly and Reuse Stage: A Case Study in Dezhou, China. Sustainability, 16, Article 656. https://doi.org/10.3390/su16020656
[12]
Costin, A. and McNair, J. (2022) IoT and Edge Computing in the Construction Site. In: Pauwels, P. and McGlinn, K., Eds., Buildings and Semantics: Data Models and Web Technologies for the Built Environment, CRC Press, London, 223-237. https://doi.org/10.1201/9781003204381-12
[13]
Alzubi, K.M., Alaloul, W.S. and Qureshi, A.H. (2022) Applications of Cyber-Physical Systems in Construction Projects. In: Alaloul, W.S., Ed., Cyber-Physical Systems in the Construction Sector, CRC Press, Boca Raton, 153-171. https://doi.org/10.1201/9781003190134-9
[14]
Igwe, U.S., Mohamed, S.F., Azwarie, M.B.M.D. and Nwankwo, L.C. (2021) Exploring the Potentials, Impacts, and Challenges of Mobile Technology Application in Cost Management of Construction Projects. In: Zaini, M.A.A., Jusoh, M. and Othman, N., Eds., Proceedings of the 3rd International Conference on Separation Technology. Lecture Notes in Mechanical Engineering, Springer, Singapore, 49-66. https://doi.org/10.1007/978-981-16-0742-4_4
[15]
TechAhead (2023) Importance of a Mobile App for the Construction & Productivity. https://www.techaheadcorp.com/blog/importance-of-a-mobile-app-for-the-construction-business-and-its-productivity/
[16]
Sonin (2023) Mobile Apps Are Changing the Construction Industry. https://sonin.agency/mobile-apps-changing-construction-industry/
[17]
Forestell, K. (2023) 11 Essential Apps for Construction Professionals to Boost Productivity. DOZR. https://dozr.com/blog/essential-apps-for-construction-professionals
[18]
Yankah, J.E., Novieto, D.T., Davies, E. and Adjei, K.O. (2022) Panorama of Mobile Device Applications (Apps) for the Construction Industry. Frontiers in Engineering and Built Environment, 2, 205-217. https://doi.org/10.1108/febe-03-2022-0010
[19]
Struk, V. and Struk, V. (2021) Digitizing Construction Industry with Mobile App Development. Relevant Software. https://relevant.software/blog/digitizing-construction-industry-with-mobile-app-development/
[20]
Hasan, A., Jha, K.N., Rameezdeen, R., Ahn, S. and Baroudi, B. (2018) Perceived Productivity Effects of Mobile ICT in Construction Projects. In: Mutis, I. and Hartmann, T., Eds., Advances in Informatics and Computing in Civil and Construction Engineering, Springer, Cham, 165-172. https://doi.org/10.1007/978-3-030-00220-6_20
[21]
Ahuja, V. (2013) Mobile Information Communication Technologies and Construction Project Managementt: Indian Scenario Case Study. In: Information Resources Management Association, Ed., Enterprise Resource Planning: Concepts, Methodologies, Tools, and Applications, IGI Global, Dauphin County, Pennsylvania, 838-853. https://doi.org/10.4018/978-1-4666-4153-2.ch049
[22]
Barbarosoglu, B.V. and Arditi, D. (2016) Mobile Applications for the Construction Industry. Interaction between Theory and Practice in Civil Engineering and Construction, Istanbul, 24-29 May 2016, 545-550. https://doi.org/10.14455/ISEC.res.2016.25
[23]
Liu, T., Mathrani, A. and Mbachu, J. (2016) Hunting the Popular Construction Apps. 2016 3rd Asia-Pacific World Congress on Computer Science and Engineering (APWConCSE), Nadi, 5-6 December 2016, 205-211. https://doi.org/10.1109/apwc-on-cse.2016.042
[24]
Perera, S., Ingirige, B., Ruikar, K. and Obonyo, E. (2017) Advances in Construction ICT and e-Business. Routledge, London. https://doi.org/10.4324/9781315690698
[25]
Al_Neyadi, A. (2018) Sustainable and Digital Strategies for Enhancing United Arab Emirates Construction Industry Competitiveness. University of Wolverhampton, Wolverhampton. http://hdl.handle.net/2436/622670
[26]
Mahajan, G. (2022) Refurbishing Recent Emerging Technology Trends in Construction Industry. Techniques and Innovation in Engineering Research, 6, 153-174. https://doi.org/10.9734/bpi/taier/v6/17462D
[27]
Jowett, B., Edwards, D.J. and Kassem, M. (2023) Field BIM and Mobile BIM Technologies: A Requirements Taxonomy and Its Interactions with Construction Management Functions. Construction Innovation, 24, 134-163. https://doi.org/10.1108/ci-07-2022-0160
[28]
Shi, Q., Ding, X., Zuo, J. and Zillante, G. (2016) Mobile Internet Based Construction Supply Chain Management: A Critical Review. Automation in Construction, 72, 143-154. https://doi.org/10.1016/j.autcon.2016.08.020
[29]
Zoleykani, M.J., Abbasianjahromi, H., Banihashemi, S., Tabadkani, S.A. and Hajirasouli, A. (2023) Extended Reality (XR) Technologies in the Construction Safety: Systematic Review and Analysis. Construction Innovation, Ahead-of-Print. https://doi.org/10.1108/ci-05-2022-0131
[30]
Maghiar, M., Witt, D. and Dylan, J. (2015) Progressive Mobile BIM Tools Usage for Productivity Improvements on Construction Sites. 2015 ASEE Southeast Section Conference. http://se.asee.org/proceedings/ASEE2015/papers2015/71.pdf
[31]
Adebowale, O.J. and Agumba, J.N. (2022) Applications of Augmented Reality for Construction Productivity Improvement: A Systematic Review. Smart and Sustainable Built Environment, 13, 479-495. https://doi.org/10.1108/sasbe-06-2022-0128
[32]
Azhar, S., Jackson, A. and Sattineni, A. (2015) Construction Apps: A Critical Review and Analysis. 2015 Proceedings of the 32nd ISARC, Oulu, 15-18 June 2015, 1-7. https://doi.org/10.22260/isarc2015/0008
[33]
Maskuriy, R., Selamat, A., Ali, K.N., Marešová, P. and Krejcar, O. (2019) Industry 4.0 for the Construction Industry—How Ready Is the Industry? Applied Sciences, 9, Article 2819. https://doi.org/10.3390/app9142819
[34]
Bello, S.A., Oyedele, L.O., Akinadé, O.O., Bilal, M., Akanbi, L. and Ajayi, A.O. (2021) Cloud Computing in Construction Industry: Use Cases, Benefits and Challenges. Automation in Construction, 122, Article 103441. https://doi.org/10.1016/j.autcon.2020.103441
[35]
Yankah, J.E. and Owiredu, G.K. (2016) Awareness and Utilization of Construction Related Smart Mobile Device Applications in the Construction Industry. Science and Technology, 6, 1-7.
[36]
Barney, J.B. (1991) Firm Resources and Sustained Competitive Advantage. Journal of Management, 17, 99-120. https://doi.org/10.1177/014920639101700108
[37]
Rogers, E.M. (2003) Diffusion of Innovations. 5th Edition, Free Press, New York. https://books.google.com.gh/books/about/Diffusion_of_Innovations_5th_Edition.html?id=9U1K5LjUOwEC&redir_esc=y
[38]
Davis, F.D. (1989) Perceived Usefulness, Perceived Ease of Use, and User Acceptance of Information Technology. MIS Quarterly, 13, 319-340. https://doi.org/10.2307/249008
[39]
Mak, S. and Thomas, A. (2022) Steps for Conducting a Scoping Review. Journal of Graduate Medical Education, 14, 565-567. https://doi.org/10.4300/JGME-D-22-00621.1
[40]
Peters, M.D., Godfrey, C.M., McInerney, P., Soares, C.B., Khalil, H. and Parker, D. (2015) The Joanna Briggs Institute Reviewers’ Manual 2015: Methodology for JBI Scoping Reviews. https://reben.com.br/revista/wp-content/uploads/2020/10/Scoping.pdf
[41]
Howe, J.E. (2022) Black Male College Athlete Identity: A Scoping Review. International Review for the Sociology of Sport, 58, 43-65. https://doi.org/10.1177/10126902221082042
[42]
Koseoglu, O. and Nurtan-Gunes, E.T. (2018) Mobile BIM Implementation and Lean Interaction on Construction Site. Engineering, Construction and Architectural Management, 25, 1298-1321. https://doi.org/10.1108/ECAM-08-2017-0188
[43]
Carreira, P., Castelo, T., Gomes, C.C., Ferreira, A., Ribeiro, C. and Costa, A.A. (2018) Virtual Reality as Integration Environments for Facilities Management. Engineering, Construction and Architectural Management, 25, 90-112. https://doi.org/10.1108/ECAM-09-2016-0198
[44]
Sattineni, A. and Schmidt, T. (2015) Implementation of Mobile Devices on Job Sites in the Construction Industry. Procedia Engineering, 123, 488-495. https://doi.org/10.1016/j.proeng.2015.10.100
[45]
Shiha, A. and Dorra, E.M. (2023) Resilience Index Framework for the Construction Industry in Developing Countries. Journal of the Construction Division and Management, 149. https://doi.org/10.1061/jcemd4.coeng-12942
[46]
Ahmed, S., Hossain, M.M. and Hoque, M.I. (2017) A Brief Discussion on Augmented Reality and Virtual Reality in the Construction Industry. Journal of System and Management Sciences, 7, 1-33. https://www.kuet.ac.bd/webportal/ppmv2/uploads/1581425075Vol.7_No.3_1.pdf
[47]
Song, Y., Wang, X., Tan, Y., Wu, P., Sutrisna, M., Cheng, J. and Hampson, K.D. (2017) Trends and Opportunities of BIM-GIS Integration in the Architecture, Engineering and Construction Industry: A Review from a Spatio-Temporal Statistical Perspective. ISPRS International Journal of Geo-Information, 6, Article 397. https://doi.org/10.3390/ijgi6120397
[48]
Liu, T., Mathrani, A. and Mbachu, J. (2019) Benefits and Barriers in Uptake of Mobile Apps in New Zealand Construction Industry. Facilities, 37, 254-265. https://doi.org/10.1108/F-08-2017-0078
