Ground Penetrating Radar (GPR) is a versatile sensing technology used for non-destructive evaluation of structures, providing insights into properties such as size, electrical characteristics, and moisture content.
This book begins with an introduction to the fundamental concepts of GPR, then guides readers through the development and operation of a GPR system, focusing on parameters that can be optimized, the theoretical basis for assessments, and a systematic approach to interpreting measured or simulated GPR signals. The authors also provide an in-depth discussion of support tools and numerical modeling techniques that enhance the accuracy of GPR readings.
Ground Penetrating Radar is intended for engineers, scientists, researchers, and professionals in fields such as GPR, non-destructive testing, geoscience, remote sensing, antennas and propagation, microwaves, electromagnetics, and imaging. It is also valuable for professionals and academics in electrical, mechanical, sensing, and civil engineering, as well as material science and archaeology, particularly those involved in quality control and fault analysis.
