TY  - CONF
TI  - Integrating Indoor Positioning Systems and BIM to Improve Situational Awareness
C1  - Dublin, Ireland
C3  - Proc. 27th Annual Conference of the International Group for Lean Construction (IGLC)
SP  - 1141
EP  - 1150
PY  - 2019
DO  - 10.24928/2019/0153
AU  - Reinbold, Ana
AU  - Seppänen, Olli
AU  - Peltokorpi, Antti
AU  - Singh, Vishal
AU  - Dror, Erez
AD  - Doctoral Candidate, Department of Civil Engineering, Aalto University, Espoo Finland, +358 50 431 2015, ana.reinbold@aalto.fi
AD  - Professor of Practice, Department of Civil Engineering, Aalto University, Espoo Finland, +358 50 368 0412, olli.seppanen@aalto.fi
AD  - Assistant Professor, Department of Civil Engineering, Aalto University, Espoo Finland, +358 50 371 6613, antti.peltokorpi@aalto.fi
AD  - Assistant Professor, Department of Civil Engineering, Aalto University, Espoo Finland, +358 50 431 2015, vishal.singh@aalto.fi
AD  - MSc graduate, Department of Civil Engineering, Technion IIT, Haifa Israel, +972 54 596 1265, erezdror@gmail.com
AB  - This paper presents the concept for the integration of Indoor Positioning System (IPS) and Building Information Model (BIM), and hypothesizes about the possible benefits of this integration to situational awareness and visual management in construction projects. Literature review shows that the volume and quality of data enabling situational awareness during construction projects is increasing with the use of new technologies, such as indoor positioning systems and other applications of Internet of Things (IoT). However, these information streams have been used individually so far. BIM as the interface integrating different streams of situational awareness information can result in better data-driven construction management and production. This study suggests that using BIM in 3D visualization of the indoor positioning of construction resources (workers, material, and equipment) enables visual management based on situation awareness on construction project activities. Better situational awareness of construction resources on-site based on visualization in BIM can improve the identification and elimination of waste and the identification of workflow interruptions, potentially permitting better planning and increasing productivity. The study suggests further steps for empirical research to prototype the concept and validate it with industry partners and practitioners.
KW  - Lean construction
KW  - BIM
KW  - visual management
KW  - indoor positioning systems
KW  - information integration
PB  - 
T2  - Proc. 27th Annual Conference of the International Group for Lean Construction (IGLC)
DA  - 2019/07/03
CY  - Dublin, Ireland
L1  - http://iglc.net/Papers/Details/1750/pdf
L2  - http://iglc.net/Papers/Details/1750
N1  - Export Date: 19 April 2024
DB  - IGLC.net
DP  - IGLC
LA  - English
ER  -