Journal of Engineering, Project, and Production Management, 2025, 15(5), 2025-192

A Review of Cyber-Physical Systems and Digital Twins Integration for Monitoring in the Architecture, Engineering, and Construction Industry

Xiaowei Wang¹ and Chien-Ho Ko²

¹ Postdoctoral Researcher, Craig and Diane Martin National Center for Construction Safety, Department of Civil, Environmental & Architectural Engineering, University of Kansas, Kansas, USA. E-mail: xiaowei.xw.wang@ku.edu.
² Ph.D. Candidate, School of Architecture, Clemson University, South Carolina, USA. E-mail: chienhk@g.clemson.edu (corresponding author).

Project Management

Received March 25, 2025; revised June 20, 2025; September 3, 2025; accepted October 27, 2025

Available online November 25, 2025

Abstract: Although existing monitoring systems partially mitigate various challenges in the Architecture, Engineering, and Construction (AEC) industry, accidents continue to pose a significant threat, resulting in substantial human casualties and economic losses. Based on these challenges, earlier research has shown the capability of Cyber-Physical Systems (CPS) and Digital Twins (DT) to enhance monitoring systems by enabling real-time data collection, improving predictive accuracy, and strengthening anomaly detection. However, a systematic understanding of how these technologies can be effectively combined to optimize monitoring in the AEC industry remains limited. To bridge this gap, this study conducts a comprehensive review of CPS-DT integration for monitoring in the AEC sector, exploring current research trends, key applications, and existing challenges. The findings reveal that current CPS and DT applications for monitoring primarily focus on structural health monitoring, safety assessments, and real-time performance evaluation. However, challenges such as network reliability constraints and energy efficiency limitations significantly hinder their full-scale deployment in dynamic construction environments. Based on these insights, this study identified key future research directions, including the development of efficient predictive models to improve risk assessment, the optimization of real-time data processing architectures to enhance responsiveness, and the improvement of wireless communication infrastructures for seamless data transmission. Addressing these challenges will facilitate the development of intelligent, scalable, and cost-effective monitoring systems, ultimately enhancing safety, efficiency, and sustainability in the AEC industry.

Keywords: Cyber-Physical Systems, Digital Twins, Monitoring, Construction Safety, Real-Time Data Analytics.

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Citation: Wang, X. and Ko, C. H. (2025). A Review of Cyber-Physical Systems and Digital Twins Integration for Monitoring in the Architecture, Engineering, and Construction Industry. Journal of Engineering, Project, and Production Management, 15(5), 2025-192.

DOI: 10.32738/JEPPM-2025-192

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