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Electromagnetic methods in geophysics : applications in GeoRadar, FDEM, TDEM, and AEM / Fabio Giannino and Giovanni Leucci.

By: Giannino, Fabio [author.]

Contributor(s): Leucci, Giovanni [author.]

Language: English Publisher: Hoboken, NJ : Wiley, 2021Description: 1 online resourceContent type: text Media type: computer Carrier type: online resourceISBN: 9781119770985; 9781119771012; 1119771013; 9781119771005; 1119771005; 9781119770992; 1119770998Subject(s): Magnetic prospecting | Ground penetrating radarGenre/Form: Electronic books.DDC classification: 622/.153 LOC classification: TN269Online resources: Full text is available at Wiley Online Library Click here to view

Contents:

Table of Contents Preface SECTION I: INTRODUCTION TO ELECTROMAGNETIC THEORY 1. Introduction 2. Electromagnetic (EM) Theory: an outline 2.1. Ground Penetrating Radar (GPR): operative principles and theory 2.2. Frequency Domain Electro Magnetic Method (FDEM): operative principles and theory 2.3. Time Domain Electro Magnetic (TDEM) Method: operative principle and theory 2.4. Airborne Electro Magnetic (AEM) Method: operative principle and theory SECTION II: HARDWARE ARCHITECTURE AND SURVEYING 3. GPR surveying 3.1. GPR: Systems architecture 3.2. Survey Design 3.3. Data acquisition 3.4. Data Analysis 3.5. Data Interpretation 4. FDEM surveying 4.1. FDEM: Systems architecture 4.2. Survey Design 4.3. Data Acquisition 4.4. Data Analysis 4.5. Data Interpretation 5. TDEM surveying 5.1. TDEM: Systems architecture 5.2. Survey Design 5.3. Data acquisition 5.4. Data Analysis 5.5. Data Interpretation 6. AEM surveying 6.1. AEM: Systems architecture 6.2. Survey Design 6.3. Data acquisition 6.4. Data Analysis 6.5. Data Interpretation SECTION III: APPLICATIONS 7. Case study 7.1. GPR: multiple-geophysical Archaeological survey in Turkey 7.2. GPR: Massive array Archaeological survey in Italy 7.3. GPR: Archaeological and Monumental application at a Cathedral in Italy 7.4. GPR: Archaeological application in Peru 7.5. GPR: Monumental Heritage conservation at a hypogeal site in Italy 7.6. GPR: Concrete rebars detection in South-Europe 7.7. GPR: Concrete rebars detection and water content estimate in Italy 7.8. GPR: Large area underground utility mapping in Italy 7.9. GPR: Utility mapping and Fibre Optics reconnaissance in Scandinavia 7.10. GPR: Utility and cavity mapping in Taiwan 7.11. GPR: Pipes leakage detection experimental test and application in Italy 7.12. GPR: Pipes leakage detection in Italy 7.13. GPR: Bridge deck study in Japan 7.14. FDEM: UXO search in building area in Italy 7.15. FDEM: Search of various object in a test site in Italy 7.16. FDEM: Pollutants search in Italy 7.17. FDEM: Forensic search in South Europe 7.18. TDEM: Geologic modelling for a reference site in Italy 7.19. AEM: Geologic modelling of buried valleys for hydrogeological purposes 7.20. AEM: Effect of Induced Polarization over AEM data 8. General on planning and logistic 8.1. Planning a campaign and mobilization aspects 8.2. Shipment and clearance of survey equipment 8.3. Managing the operative aspects of the field activity 8.4. De-mobilization 8.5. Reporting Index

Summary: "In GeoRadar, FDEM, TDEM, and AEM Methods, accomplished researchers Fabio Giannino and Giovanni Leucci deliver an in-depth exploration of the theory and application of four different electromagnetic geophysical techniques: ground penetrating radar, the frequency domain electromagnetic method, the time domain electromagnetic method, and the airborne electromagnetic method. The authors offer a full description of each technique as they relate to the economics, planning, and logistics of deploying each of them on-site. The book also discusses the potential output of each method and how it can be combined with other sources of below- and above ground information to create a digitized common point cloud containing a wide variety of data. Giannino and Leucci rely on 25 years of professional experience in over 40 countries around the world to provide readers with a fulsome description of the optimal use of GPR, FDEM, TDEM, and AEM, demonstrating their flexibility and applicability to a wide variety of use cases."-- Provided by publisher.

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Item type	Current location	Home library	Call number	Status	Date due	Barcode	Item holds
EBOOK	COLLEGE LIBRARY	COLLEGE LIBRARY	622.153 G3486 2922 (Browse shelf)	Available

Total holds: 0

Includes bibliographical references and index.

Table of Contents
Preface

SECTION I: INTRODUCTION TO ELECTROMAGNETIC THEORY

1. Introduction

2. Electromagnetic (EM) Theory: an outline

2.1. Ground Penetrating Radar (GPR): operative principles and theory

2.2. Frequency Domain Electro Magnetic Method (FDEM): operative principles and theory

2.3. Time Domain Electro Magnetic (TDEM) Method: operative principle and theory

2.4. Airborne Electro Magnetic (AEM) Method: operative principle and theory

SECTION II: HARDWARE ARCHITECTURE AND SURVEYING

3. GPR surveying

3.1. GPR: Systems architecture

3.2. Survey Design

3.3. Data acquisition

3.4. Data Analysis

3.5. Data Interpretation

4. FDEM surveying

4.1. FDEM: Systems architecture

4.2. Survey Design

4.3. Data Acquisition

4.4. Data Analysis

4.5. Data Interpretation

5. TDEM surveying

5.1. TDEM: Systems architecture

5.2. Survey Design

5.3. Data acquisition

5.4. Data Analysis

5.5. Data Interpretation

6. AEM surveying

6.1. AEM: Systems architecture

6.2. Survey Design

6.3. Data acquisition

6.4. Data Analysis

6.5. Data Interpretation

SECTION III: APPLICATIONS

7. Case study

7.1. GPR: multiple-geophysical Archaeological survey in Turkey

7.2. GPR: Massive array Archaeological survey in Italy

7.3. GPR: Archaeological and Monumental application at a Cathedral in Italy

7.4. GPR: Archaeological application in Peru

7.5. GPR: Monumental Heritage conservation at a hypogeal site in Italy

7.6. GPR: Concrete rebars detection in South-Europe

7.7. GPR: Concrete rebars detection and water content estimate in Italy

7.8. GPR: Large area underground utility mapping in Italy

7.9. GPR: Utility mapping and Fibre Optics reconnaissance in Scandinavia

7.10. GPR: Utility and cavity mapping in Taiwan

7.11. GPR: Pipes leakage detection experimental test and application in Italy

7.12. GPR: Pipes leakage detection in Italy

7.13. GPR: Bridge deck study in Japan

7.14. FDEM: UXO search in building area in Italy

7.15. FDEM: Search of various object in a test site in Italy

7.16. FDEM: Pollutants search in Italy

7.17. FDEM: Forensic search in South Europe

7.18. TDEM: Geologic modelling for a reference site in Italy

7.19. AEM: Geologic modelling of buried valleys for hydrogeological purposes

7.20. AEM: Effect of Induced Polarization over AEM data

8. General on planning and logistic

8.1. Planning a campaign and mobilization aspects

8.2. Shipment and clearance of survey equipment

8.3. Managing the operative aspects of the field activity

8.4. De-mobilization

8.5. Reporting

Index

"In GeoRadar, FDEM, TDEM, and AEM Methods, accomplished researchers Fabio Giannino and Giovanni Leucci deliver an in-depth exploration of the theory and application of four different electromagnetic geophysical techniques: ground penetrating radar, the frequency domain electromagnetic method, the time domain electromagnetic method, and the airborne electromagnetic method. The authors offer a full description of each technique as they relate to the economics, planning, and logistics of deploying each of them on-site. The book also discusses the potential output of each method and how it can be combined with other sources of below- and above ground information to create a digitized common point cloud containing a wide variety of data. Giannino and Leucci rely on 25 years of professional experience in over 40 countries around the world to provide readers with a fulsome description of the optimal use of GPR, FDEM, TDEM, and AEM, demonstrating their flexibility and applicability to a wide variety of use cases."-- Provided by publisher.

About the Author
Fabio Giannino, Customer Care Manager, IDS GeoRadar srl (Part of Hexagon), Pisa, Italy

Giovanni Leucci, Research Director, Institute of Heritage Science (ISPC), National Reesearch Council, Italy

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