Thesis Abstract

Abstract
This thesis investigates the application of Building Information Modeling (BIM) in the field of Quantity Surveying, focusing on its utilization within construction projects. BIM has emerged as a transformative technology in the construction industry, offering numerous benefits in terms of project efficiency, collaboration, and cost management. The study delves into how BIM can enhance the traditional practices of Quantity Surveyors, providing a more integrated and data-driven approach to project management. The research begins with an exploration of the background of BIM and its relevance to Quantity Surveying practices. It identifies the current challenges faced by Quantity Surveyors and the potential for BIM to address these issues through improved information sharing, visualization, and analysis. The problem statement highlights the gap in the literature regarding the specific application of BIM in Quantity Surveying and sets the stage for the objectives of the study. The objectives of this research are to assess the impact of BIM on Quantity Surveying processes, analyze the benefits and limitations of its implementation, and provide recommendations for optimizing its use in construction projects. The study acknowledges the limitations of the research, such as the focus on a specific case study and the availability of data for analysis, while also defining the scope of the study within the context of Quantity Surveying and construction projects. The significance of this research lies in its potential to contribute to the body of knowledge on the integration of BIM in Quantity Surveying practices, offering insights for industry professionals, academics, and policymakers. By structuring the thesis around key chapters that include an extensive literature review, detailed research methodology, comprehensive discussion of findings, and a conclusive summary, the study aims to provide a holistic view of the topic. The literature review encompasses a thorough examination of existing studies on BIM and Quantity Surveying, highlighting key findings, trends, and gaps in the research. It explores the theoretical frameworks, methodologies, and practical applications of BIM within the context of Quantity Surveying, setting the stage for the research methodology. The research methodology details the approach taken to investigate the research questions, including data collection methods, sample selection, and data analysis techniques. It outlines the steps involved in conducting the case study, gathering primary and secondary data, and interpreting the results to draw meaningful conclusions. The discussion of findings presents the outcomes of the case study, analyzing the impact of BIM on Quantity Surveying processes, identifying the benefits and challenges encountered, and proposing strategies for enhancing its implementation. The chapter synthesizes the key findings and relates them back to the research objectives, offering valuable insights for practitioners and researchers. In conclusion, this thesis provides a comprehensive analysis of the application of Building Information Modeling in Quantity Surveying, drawing on a real-world case study to illustrate its practical implications. The study underscores the potential of BIM to revolutionize Quantity Surveying practices and offers recommendations for maximizing its benefits in construction projects. By bridging the gap between theory and practice, this research contributes to the ongoing discourse on BIM adoption in the construction industry and sets the stage for future research in this area.

Thesis Overview

The research project titled "Application of Building Information Modeling (BIM) in Quantity Surveying: A Case Study in Construction Projects" aims to explore the integration and utilization of Building Information Modeling (BIM) technology in the field of Quantity Surveying within the context of construction projects. BIM is a digital technology that enables the creation and management of detailed 3D models containing information about the physical and functional characteristics of a building. This research seeks to investigate how BIM can enhance the efficiency, accuracy, and effectiveness of quantity surveying practices in construction projects. The project will begin with an introduction that outlines the background of the study, the problem statement, research objectives, limitations, scope, significance of the study, structure of the thesis, and definitions of key terms. This will provide a comprehensive overview of the research context and objectives. The literature review section will delve into existing research and scholarly works related to BIM, quantity surveying, and their intersection. It will explore the benefits, challenges, and best practices associated with the implementation of BIM in quantity surveying processes. This section will provide a solid theoretical foundation for understanding the role of BIM in quantity surveying and its potential impact on construction projects. The research methodology chapter will detail the research design, data collection methods, sampling techniques, data analysis procedures, and ethical considerations. It will outline the steps taken to conduct the case study on the application of BIM in quantity surveying within construction projects. The methodology will ensure the rigor and validity of the research findings. The discussion of findings section will present the results of the case study, highlighting the practical implications of using BIM in quantity surveying tasks. It will analyze how BIM technology can streamline cost estimation, quantity take-off, project scheduling, and other key aspects of quantity surveying. The findings will be discussed in relation to the existing literature and industry practices, offering insights into the potential benefits and challenges of implementing BIM in quantity surveying. Lastly, the conclusion and summary chapter will synthesize the key findings of the research, discuss their implications, and offer recommendations for future research and industry practice. It will provide a comprehensive overview of the research outcomes and their contribution to the field of quantity surveying and construction project management.