ITcon Vol. 30, pg. 1377-1397, http://www.itcon.org/2025/56

A Deployable Solution for Indoor Tracking of Workers in Construction Sites through Bluetooth Low Energy Technology

DOI:10.36680/j.itcon.2025.056
submitted:January 2023
revised:August 2025
published:September 2025
editor(s):Amor R
authors:Mohammadali Khazen, Graduate Student
Dept. of Building, Civil & Environmental Engineering, Concordia University
mohammadali.khazen@mail.concordia.ca

Mazdak Nik-Bakht, Associate Professor
Dept. of Building, Civil & Environmental Engineering, Concordia University
mazdak.nikbakht@concordia.ca

Osama Moselhi, Professor
Dept. of Building, Civil & Environmental Engineering, Concordia University
osama.moselhi@concordia.ca

Jeffrey Dungen, Co-founder and Chief Executive Officer
ReelyActive Company
jeff@reelyactive.com
summary:Real-Time Locating System (RTLS) using Bluetooth Low Energy (BLE) technology is becoming common to assist construction managers in making rational decisions pertinent to productivity monitoring and safety management on construction sites. However, there are still several challenges in deploying BLE-based RTLS on job sites. This paper proposes an RTLS explicitly designed for construction by satisfying requirements for widespread on-site adoption, including cost efficiency, scalability, and accuracy. The main contributions of this study are (i) substituting commonly used BLE receivers with BLE beacons; (ii) proposing a modular infrastructure placement strategy; (iii) developing localization algorithms using triangulation technique; (iv) post-processing the worker’s estimated locations. The experimental results show a localization error of 0.56 (m) and 0.64 (m) in a middle-size indoor space when the target is dynamic and static, respectively. This level of accuracy is an improvement compared to that reported in the literature and can be considered appropriate for most worker tracking applications on construction job sites. Moreover, replacing traditional BLE receivers that are smartphones or devices that require electrical wiring with battery-powered BLE beacons, and using the modular infrastructure placement strategy improved the RTLS scalability and efficiency in implementation cost and power consumption. The impact of environmental conditions, such as the weather availability of metal and construction equipment, on the developed RTLS’s performance, must be studied in future works.
keywords:Real-Time Locating System (RTLS), Bluetooth Low Energy (BLE), Triangulation, machine learning, indoor locating system
full text: (PDF file, 1.193 MB)
citation:Khazen M, Nik-Bakht M, Moselhi O, Dungen J (2025). A Deployable Solution for Indoor Tracking of Workers in Construction Sites through Bluetooth Low Energy Technology, ITcon Vol. 30, pg. 1377-1397, https://doi.org/10.36680/j.itcon.2025.056
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