Thesis Abstract

Abstract
Ground-Penetrating Radar (GPR) has emerged as a valuable geophysical tool for subsurface imaging and characterization in various fields such as civil engineering, environmental studies, archaeology, and geology. This thesis explores the application of GPR technology for imaging and characterizing subsurface features with a focus on its principles, instrumentation, data processing techniques, and case studies. The research aims to enhance the understanding and utilization of GPR in non-destructive subsurface investigations. The introductory chapter provides a comprehensive overview of the research background, problem statement, objectives, limitations, scope, significance, structure of the thesis, and definition of key terms related to GPR technology. This sets the stage for a detailed exploration of the literature on GPR technology in chapter two. The literature review covers ten key aspects of GPR, including its principles, applications, advantages, limitations, case studies, and recent advancements, providing a solid foundation for the subsequent chapters. Chapter three focuses on the research methodology, outlining the steps involved in conducting GPR surveys, data collection, processing techniques, and interpretation methods. This chapter also discusses the selection of study areas, equipment calibration, data acquisition parameters, and quality control measures to ensure reliable results. Additionally, it highlights the importance of integrating GPR data with other geophysical methods for comprehensive subsurface investigations. In chapter four, the findings from GPR surveys conducted in various study areas are presented and analyzed in detail. The discussion covers the interpretation of subsurface features, identification of anomalies, mapping of stratigraphy, detection of buried objects, and characterization of geological structures using GPR data. Various case studies are presented to demonstrate the effectiveness of GPR in different applications and environments. Finally, chapter five offers a comprehensive conclusion and summary of the thesis, highlighting the key findings, contributions, limitations, and future research directions in the field of GPR for subsurface imaging and characterization. The conclusion emphasizes the significance of GPR technology in enhancing our understanding of subsurface environments, improving site investigations, and reducing risks in various industries. In conclusion, this thesis provides a detailed analysis of the application of Ground-Penetrating Radar (GPR) for subsurface imaging and characterization. By exploring the principles, methodologies, and case studies related to GPR technology, this research contributes to the advancement of non-destructive subsurface investigations and lays the foundation for further research in this field.

Thesis Overview