APPLICATION OF BIM TECHNOLOGIES IN MULTI-STORY RESIDENTIAL PROJECTS: OPTIMIZATION OF THE CONSTRUCTION PROCESS AND DATA MANAGEMENT
Abstract
Building Information Modeling (BIM) has emerged as a transformative approach in the architecture, engineering, and construction (AEC) industry, fundamentally changing how multi-story residential projects are designed, constructed, and managed. This study examines the application of BIM technologies in optimizing construction processes and enhancing data management throughout the lifecycle of multi-story residential buildings. The research explores how BIM facilitates improved coordination among stakeholders, reduces construction errors through clash detection, and enables cost optimization through 5D integration. Analysis of recent implementations demonstrates that BIM adoption in multi-story residential projects can reduce project delivery time by 15-30% and decrease construction costs by 10-20% [1]. The study investigates parametric design capabilities, collaborative workflows using Common Data Environments (CDE), and integration with emerging technologies such as virtual reality and computational intelligence. Data management capabilities are examined through BIM maturity frameworks, addressing challenges including implementation costs, interoperability issues, and organizational resistance. Case studies demonstrate practical applications including automated quantity takeoffs, energy performance simulation, and facility management integration. Findings indicate that successful BIM adoption requires technological infrastructure, organizational change management, and standardized protocols for information delivery.
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