Ground Penetrating Radar Theory and ApplicationsHarry M. Jol Elsevier, 2008 M12 8 - 544 pages Ground-penetrating radar (GPR) is a rapidly developing field that has seen tremendous progress over the past 15 years. The development of GPR spans aspects of geophysical science, technology, and a wide range of scientific and engineering applications. It is the breadth of applications that has made GPR such a valuable tool in the geophysical consulting and geotechnical engineering industries, has lead to its rapid development, and inspired new areas of research in academia. The topic of GPR has gone from not even being mentioned in geophysical texts ten years ago to being the focus of hundreds of research papers and special issues of journals dedicated to the topic. The explosion of primary literature devoted to GPR technology, theory and applications, has lead to a strong demand for an up-to-date synthesis and overview of this rapidly developing field. Because there are specifics in the utilization of GPR for different applications, a review of the current state of development of the applications along with the fundamental theory is required. This book will provide sufficient detail to allow both practitioners and newcomers to the area of GPR to use it as a handbook and primary research reference. *Review of GPR theory and applications by leaders in the field*Up-to-date information and references*Effective handbook and primary research reference for both experienced practitioners and newcomers |
From inside the book
Results 1-5 of 77
Page iv
... CONTENTS Preface Contributors Part I Ground Penetrating Radar (GPR) Principles. www.elsevier.com | www.bookaid.org | www.sabre.org 1.6.1 Dewow 1.6.2 Time gain 1.6.3 Deconvolution 1.6.4 Migration 13. P A R T I Copyright Page.
... CONTENTS Preface Contributors Part I Ground Penetrating Radar (GPR) Principles. www.elsevier.com | www.bookaid.org | www.sabre.org 1.6.1 Dewow 1.6.2 Time gain 1.6.3 Deconvolution 1.6.4 Migration 13. P A R T I Copyright Page.
Page v
... 2 Time gain 1.6.3 Deconvolution 1.6.4 Migration 13 14 16 17 18 19 20 20 22 23 24 27 29 29 30 30 31 31 33 34 34 35 36 3.6.1 Theory of operation – stepped-frequency, continuous-wave radar 3.6.2 System v Table of Contents.
... 2 Time gain 1.6.3 Deconvolution 1.6.4 Migration 13 14 16 17 18 19 20 20 22 23 24 27 29 29 30 30 31 31 33 34 34 35 36 3.6.1 Theory of operation – stepped-frequency, continuous-wave radar 3.6.2 System v Table of Contents.
Page vii
... Migration 164 5.4.10 Advanced imaging and analysis tools 166 5.4.11 Attribute analysis 167 5.4.12 Numerical modelling 168 5.5 Processing, Imaging and Visualisation: Concluding Remarks 171 Acknowledgements 172 Part II Environmental ...
... Migration 164 5.4.10 Advanced imaging and analysis tools 166 5.4.11 Attribute analysis 167 5.4.12 Numerical modelling 168 5.5 Processing, Imaging and Visualisation: Concluding Remarks 171 Acknowledgements 172 Part II Environmental ...
Page ix
... Migration 288 9.10 Stratigraphic Analysis 288 9.11 Ancient Aeolian Sandstones 290 9.12 Three-Dimensional Images 290 9.13 Pedogenic Alteration and Early Diagenesis 291 9.13.1 Evaporites 291 9.13.2 Environmental noise 291 9.13.3 ...
... Migration 288 9.10 Stratigraphic Analysis 288 9.11 Ancient Aeolian Sandstones 290 9.12 Three-Dimensional Images 290 9.13 Pedogenic Alteration and Early Diagenesis 291 9.13.1 Evaporites 291 9.13.2 Environmental noise 291 9.13.3 ...
Page 3
... Migration 36 1.6.5. Topographic correction 36 1.6.6. Two-dimensional and three-dimensional data visualization 37 1.7. Summary 37 References 38 1.1. INTRODUCTION Ground penetrating radar (GPR) is now a well-accepted. C H A P T E R 1 3 ...
... Migration 36 1.6.5. Topographic correction 36 1.6.6. Two-dimensional and three-dimensional data visualization 37 1.7. Summary 37 References 38 1.1. INTRODUCTION Ground penetrating radar (GPR) is now a well-accepted. C H A P T E R 1 3 ...
Contents
Part II Environmental Applications | 177 |
Part III Earth Science Applications | 271 |
Part IV Engineering and Societal Applications | 393 |
Index | 509 |
Errata | 525 |
Common terms and phrases
aeolian amplitude analysis antenna Applied Geophysics aquifer Arcone areas attenuation bandwidth borehole braided river Bridge Bristow coastal conductivity Conference on Ground contaminant cross strata deconvolution deposits depth dielectric permittivity dielectric value dipole DNAPL domain reflectometry dunes effect electrical conductivity electrical properties electromagnetic energy estimation field filter firn fractures frequency Geological glaciers Glaciology GPR data GPR profiles GPR signal GPR survey GPR systems ground penetrating radar Holocene horizons horn antenna hyperbola IEEE impulse interface International Conference interpretation isosurface landmine layers materials measurements methods migration NAPL Olhoeft parameters pavement peatlands penetrating radar GPR petrophysical polarisation Proceedings propagation pulse radar facies radar record radiation range reflection reflectors relative Research resolution River Saarenketo sampling sand saturated Scullion sediment sedimentary Sedimentology slice soil spatial stratigraphy structures subgrade subsurface surface target techniques thickness transmit typically ultra-wideband unit bars vadose zone velocity water content wave zone