Development and Application of a Digitalized Construction Quality Document Management System for Advanced Construction Using Building Information Modeling
Bittu Ghosh, Somnath Karmakar
Abstract
Quality is paramount in construction projects, with inspection being a cornerstone of effective quality management. However, prevailing practices in the construction quality document management system (CQDMS) are riddled with complexity and are plagued by inefficient inspection processes, improper documentation, cumbersome handling of nonconformance reports, and inadequate correspondence and record-keeping. These challenges, compounded by communication gaps, overlooking checkpoints, and the arduous manual transition from paper to digital records, increase the risk of defects, jeopardizing structural integrity and escalating risk. The lack of a standardized and transparent system for managing quality information undermines assurance processes and increases the likelihood of stakeholder disputes. Moreover, the manual nature of inputting, retrieving, analyzing, and disseminating inspection results consumes valuable time and resources and is prone to errors and the risk of data manipulation. The challenges highlight the need for innovative solutions to streamline the inspection and documentation process, enhancing efficiency and accuracy. Therefore, in confronting these challenges, this research focuses on (1) identifying the disruptions and challenges associated with the existing CQDMS; (2) developing a CQDMS using the building information modeling (BIM) integrated quality management system (QMS), named QMS-BIM, to enhance the traceability and transparency of quality management; this framework has been developed using an application programming interface and a specialized plugin in Autodesk Revit (BIM platform); and (3) evaluating the developed framework through practical implementation on an Indian national highway (NH) project, where construction experts assessed the model’s performance. The results showed that the QMS-BIM framework achieved over 80% better performance and attained effectiveness levels of around 78%, significantly surpassing conventional CQDMS based on implementation results obtained from the NH project. The study leverages the transformative potential of BIM to develop QMS-BIM to centralize and digitalize CQDMS, standardizing construction QMS for consistency, security, and enhancing construction engineering and management efficiency in construction projects.