Abstract

In the building construction process coordination among various systems such as structural architectural and mechanical

electrical and plumbing (MEP) systems often results in component clashes that can lead to project delays and increased

costs. The use of Building Information Modeling (BIM) technology in design and model review processes has proven

effective in reducing the risk of such issues. This research aims to study the application of BIM technology for detecting and

reducing system clashes within building models by utilizing BIM software capable of accurately analyzing and identifying

clashes such as Autodesk Navisworks and Solibri Model Checker. The methodology involves collecting sample BIM model

data detecting clashes among systems and analyzing the outcomes of using BIM technology to minimize these conflicts.

The results show that BIM has high potential in accurately detecting system clashes and supports designers in refining the

model during the pre-construction phase. This leads to a reduction in errors lowers the cost of rework on-site and improves

the overall construction process efficiency. Therefore, the application of BIM technology represents an effective approach

that should be widely promoted in the modern construction industry to enhance project quality and precision.