Internet of things for construction sites and the production chain – towards the digital twins

Authors

DOI:

https://doi.org/10.46421/entac.v19i1.2089

Keywords:

Internet of Things, Digital Twin, Production Chain, Bluetooth Low Energy (BLE), RFID

Abstract

The construction industry has immense importance due to its representativeness in global GDP and its socio-environmental impacts. With advances in the implementation of digital technologies, aiming for increased productivity and efficiency of its processes, implementation guidelines are necessary. This research investigates the results in productivity and efficiency of the application of the Internet of Things technology during the execution phase of the work. Through the research-action methodology, the application’s dynamic and a vision of evolution towards a Digital Twin are presented, demonstrating direct and indirect impacts on financial results and optimization of resources, for the production chain.

Author Biographies

Gabriel Ribeiro Borges, University of Sao Paulo

Graduated in Civil Engineering from the Federal University of Goiás. Master's student in Professional Mater's Degree in Innovation in Construction at Polytechnic School of the University of São Paulo (São Paulo - SP, Brazil).

 

Fabiano Rogerio Correa, University of Sao Paulo

PhD in Mechanical Engineering from the University of São Paulo. Professor at the Civil Construction Engineering Department at the Polytechnic School of the University of São Paulo (São Paulo - SP).

References

AKANMU, A.; ANUMBA, C.; MESSNER, J. SCENARIOS FOR CYBER-PHYSICAL SYSTEMS INTEGRATION IN CONSTRUCTION. p. 21, [s.d.].

ARBULU, R.; KOERCKEL, A.; ESPANA, F. Linking Production-Level Workflow with Materials Supply. Em: 13TH ANNUAL CONFERENCE OF THE INTERNATIONAL GROUP FOR LEAN CONSTRUCTION. 2005. Disponível em: <https://www.iglc.net/papers/Details/365>. Acesso em: 5 jun. 2022

BOJE, C. et al. Towards a semantic Construction Digital Twin: Directions for future research. Automation in Construction, v. 114, p. 103179, 2020.

CASINI, M. Chapter 9 - Advanced site management tools and methods. Em: CASINI, M. (Ed.). Construction 4.0. Woodhead Publishing Series in Civil and Structural Engineering. [s.l.] Woodhead Publishing, 2022. p. 471–521.

DAVE, B. et al. Opportunities for enhanced lean construction management using Internet of Things standards. Automation in Construction, v. 61, p. 86–97, 2016.

FANG, Y.; CHO, Y. K.; CHEN, J. A framework for real-time pro-active safety assistance for mobile crane lifting operations. Automation in Construction, v. 72, p. 367–379, 2016.

HOU, L. et al. Literature Review of Digital Twins Applications in Construction Workforce Safety. Applied Sciences, v. 11, n. 1, p. 339, jan. 2021.

LEE, D.; LEE, S. Digital Twin for Supply Chain Coordination in Modular Construction. Applied Sciences, v. 11, n. 13, p. 5909, jan. 2021.

LI, C. T.; CHENG, J. C. P.; CHEN, K. Top 10 technologies for indoor positioning on construction sites. Automation in Construction, v. 118, p. 103309, 1 out. 2020.

McKinsey. Reinventing construction through a productivity revolution. McKinsey & Company (2017). (https://www.mckinsey.com/business-functions/operations/our-insights/reinventing-construction-through-a-productivity-revolution) Acesso em: 06 jun. 2022

McKinsey. The next normal in construction: How disruption is reshaping the world’s largest ecosystem, McKinsey & Company (2020).

OZORHON, B.; ORAL, K. Drivers of Innovation in Construction Projects. Journal of Construction Engineering and Management, v. 143, n. 4, p. 04016118, 1 abr. 2017.

PAN, Y.; ZHANG, L. A BIM-data mining integrated digital twin framework for advanced project management. Automation in Construction, v. 124, p. 103564, 2021.

PARK, J.; KIM, K.; CHO, Y. K. Framework of Automated Construction-Safety Monitoring Using Cloud-Enabled BIM and BLE Mobile Tracking Sensors. Journal of Construction Engineering and Management, v. 143, n. 2, p. 05016019, fev. 2017.

Pieter van Schalkwyk (XMPro). Digital Twin Capabilities Periodic Table. Digital Twin Consortium (2022).

SHIN, T.-H. et al. A service-oriented integrated information framework for RFID/WSN-based intelligent construction supply chain management. Automation in Construction, Selected papers from the 26th ISARC 2009. v. 20, n. 6, p. 706–715, 1 out. 2011.

TEIZER, J. et al. Construction resource efficiency improvement by Long Range Wide Area Network tracking and monitoring. Automation in Construction, v. 116, p. 103245, 2020.

TRIPP, D. Action research: a methodological introduction. p. 21, (2005).

ZHAO, J. et al. Real-time resource tracking for analyzing value-adding time in construction. Automation in Construction, v. 104, p. 52–65, 1 ago. 2019.

ZHAO, L. et al. Digital-Twin-Based Evaluation of Nearly Zero-Energy Building for Existing Buildings Based on Scan-to-BIM. ADVANCES IN CIVIL ENGINEERING, v. 2021, 9 abr. 2021

Published

2022-11-07

How to Cite

BORGES, Gabriel Ribeiro; CORREA, Fabiano Rogerio. Internet of things for construction sites and the production chain – towards the digital twins. In: NATIONAL MEETING OF BUILT ENVIRONMENT TECHNOLOGY, 19., 2022. Anais [...]. Porto Alegre: ANTAC, 2022. p. 1–14. DOI: 10.46421/entac.v19i1.2089. Disponível em: https://eventos.antac.org.br/index.php/entac/article/view/2089. Acesso em: 24 nov. 2024.

Issue

Section

(Inativa) Tecnologia da Informação e Comunicação

Similar Articles

<< < 87 88 89 90 91 92 93 94 95 96 > >> 

You may also start an advanced similarity search for this article.