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성과공개
성과공개
상세 정보
상세 정보
논문
INTEGRATION OF 4D BIM AND VR FOR INTERACTIVE MODULAR BUILDING MANUFACTURING SIMULATIONS IN A FACTORYCONTROLLED ENVIRONMENT
연도
5차
분류
구성기술3
연구기관
경희대학교
Kyung Hee University
Kyung Hee University
구분2
학술발표
논문명
INTEGRATION OF 4D BIM AND VR FOR INTERACTIVE MODULAR BUILDING MANUFACTURING SIMULATIONS IN A FACTORYCONTROLLED ENVIRONMENT
INTEGRATION OF 4D BIM AND VR FOR INTERACTIVE MODULAR BUILDING MANUFACTURING SIMULATIONS IN A FACTORYCONTROLLED ENVIRONMENT
INTEGRATION OF 4D BIM AND VR FOR INTERACTIVE MODULAR BUILDING MANUFACTURING SIMULATIONS IN A FACTORYCONTROLLED ENVIRONMENT
학술지명
Proceedings of the Creative Construction Conference (2025)
Proceedings of the Creative Construction Conference (2025)
Proceedings of the Creative Construction Conference (2025)
ISSN
2413-5844
학술지 볼륨번호
CCC 2025
게재일
20250617
논문페이지
446-454
주저자명
Saddiq Ur Rehman
Saddiq Ur Rehman
Saddiq Ur Rehman
교신저자명
Saddiq Ur Rehman
Saddiq Ur Rehman
Saddiq Ur Rehman
공동저자명
김인한, 황경은
Inhan Kim, Kyung-Eun Hwang
Inhan Kim, Kyung-Eun Hwang
논문 초록
The manufacturing of modular buildings in factory-controlled environments is complex process, involving intricate task sequencing, resource allocation, and rigorous quality control. Traditional visualization and scheduling methods frequently fail to communicate these complexities effectively, resulting in inefficiencies, scheduling errors, and cost overruns. This research addresses these challenges by integrating Building Information Modelling (BIM) and Virtual Reality (VR) into a unified, interactive 4D simulation environment to enhance user comprehension, enable real-time interaction, and optimize modular construction workflows. A comprehensive 4D BIMVR system is developed that synchronizes detailed 3D BIM models with timebased scheduling data, creating an immersive environment for interactive visualization and dynamic task management. The system was evaluated through user testing in a modular building manufacturing setting, with participants completing a survey to provide feedback on their VR experience. Survey results showed high satisfaction with visual realism, metadata accessibility, and workflow clarity. Users noted that the immersive environment improved their understanding of complex sequences, enabled earlier detection of scheduling conflicts, and enhanced overall planning efficiency, demonstrating the system’s potential to optimize modular construction processes. The primary contribution of this research is the advancement of
modular construction methodologies through immersive digital technologies, establishing a robust foundation for future innovation in digital construction practices.