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|a 9783319017846
|q (electronic bk.)
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|z 9783319017839
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|a 930.1028
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|a Corsi, Cristina.
|9 89060
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|a Good Practice in Archaeological Diagnostics :
|b Non-Invasive Survey of Complex Archaeological Sites.
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| 250 |
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|a 1st ed.
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| 300 |
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|a 1 online resource (339 pages).
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|a Natural Science in Archaeology Ser.
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| 500 |
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|a Electronic reproduction. Ann Arbor, Michigan : ProQuest Ebook Central, 2019. Available via World Wide Web. Access may be limited to ProQuest Ebook Central affiliated libraries.
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|a Intro -- Contents -- 1: Good Practice in Archaeological Diagnostics: An Introduction -- 1.1 Making a 'Radiography' of the Past -- 1.2 Data Acquisition Versus Understanding -- 1.3 A Question of Integration -- 1.4 Size Matters -- 1.5 The Fourth Dimension -- References -- Part I: Remote Sensing -- 2: Aerial Photography in Archaeology -- 2.1 Historical Overview and Assessment -- 2.2 Aerial Photography Techniques -- 2.3 Principles of Archaeological Photo-Interpretation -- 2.4 Genesis and Classification of Archaeological Traces -- 2.4.1 Damp-Marks -- 2.4.2 Grass-Weed-Crop-Marks -- 2.4.3 Soil-Marks -- 2.4.4 Shadow Sites -- 2.4.5 Topographical Anomalies -- 2.4.6 Legacy Marks -- References -- 3: Undistorting the Past: New Techniques for Orthorectification of Archaeological Aerial Frame Imagery -- 3.1 Aerial Archaeological Frame Footage: An Introduction and Overview -- 3.1.1 One Hundred Years of Status Quo -- 3.1.2 The Vertical Debate -- 3.1.3 The Rise of the Unmanned Machines -- 3.1.4 The Mapping Paradigm -- 3.2 Aerial Frames Offer Deformed Views -- 3.2.1 (Digital) Aerial Images -- 3.2.2 Optical Distortions -- 3.2.3 Tilt Displacement -- 3.2.4 Relief Displacement -- 3.2.5 Georeferencing and Geometric Correction -- 3.3 A New Workflow -- 3.3.1 SfM + MVS Pipeline -- 3.3.1.1 Image Acquisition -- 3.3.1.2 Feature Detection -- 3.3.1.3 Feature Description -- 3.3.1.4 Descriptor Matching and Pairwise Image Orientation (Fundamental Matrices) -- 3.3.1.5 Triangulation -- 3.3.1.6 Bundle Adjustment -- 3.3.1.7 Defining a Coordinate Reference System -- 3.3.1.8 Dense Multi-view Stereo (MVS) -- 3.3.1.9 Georeferenced 3D Model and Orthophoto -- 3.3.2 Tools -- 3.3.2.1 Software -- 3.3.2.2 Hardware -- 3.4 Case Studies -- 3.4.1 Trea (Italy) -- 3.4.2 Kreuttal Region (Austria) -- 3.4.3 Pitaranha (Portugal-Spain) -- Conclusion -- References.
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|a ebook1019
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|a Online publication
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|a fys2019
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|a 4: Roman Urban Survey: The Mapping and Monitoring of Complex Settlement Sites with Active Aerial Photography -- 4.1 Introduction: Surveying Abandoned Roman Towns -- 4.2 Discovery and Monitoring -- 4.3 Mapping, Interpretation and Integration -- 4.4 The Potenza Valley Towns from the Air -- Conclusion -- References -- 5: Integrated Approach for Archaeological Prospection Exploiting Airborne Hyperspectral Remote Sensing -- 5.1 Introduction -- 5.1.1 Overview of Remote Sensing for Archaeological Prospection -- 5.1.2 Background Literature on Hyperspectral Remote Sensing -- 5.2 Integrated Approach for Archaeological Prospection -- 5.2.1 Selinunte Archaeological Park -- 5.2.2 Mothia and Marsala Archaeological Areas -- 5.2.3 Arpi Archaeological Site -- 5.2.4 Albanian Archaeological Site -- 5.3 Integration Data, Results and Methodologies for Archaeological Prospection -- 5.3.1 Integration Data for Archaeological Prospection -- 5.3.2 Comparison and Appending of the Results for Archaeological Prospection -- 5.3.3 Exportation of the Characteristic Methods of Each Datum, Technique and Application for Employing with Other Datum, Techniques and Applications for Archaeological Prospection -- 5.4 Evaluation and Ranking the Results of Integrated Approach -- 5.4.1 Image Obtained by Integrated Approach -- 5.4.2 Methods to Evaluate and Rank the Image Obtained by the Integrated Approach -- 5.5 Results -- 5.5.1 The Quality of Images Collected by Each Sensor -- 5.5.2 The Capability of the Merged Images -- 5.5.3 The Capability of the Synthetic Images -- Conclusion -- References -- 6: Skin Deep: LiDAR and Good Practice of Landscape Archaeology -- 6.1 Introduction -- 6.2 What Do We Do? -- 6.3 LiDAR as an Inscription Device -- 6.4 LiDAR as Topography -- 6.5 How to Read Traces? -- 6.6 Time and Palimpsests -- Conclusion -- References.
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|a Part II: Geophysics -- 7: Magnetic Exploration of Archaeological Sites -- 7.1 A Basic Overview of a Magnetic Survey -- 7.2 Is the Archaeological Site Suitable for a Magnetic Survey? -- 7.3 Examples of Magnetic Surveys -- 7.4 Selecting a Magnetometer -- 7.5 Field Procedures -- 7.6 Data Processing and Display -- 7.7 Interpretation of Magnetic Maps -- 7.8 The Geophysical Report -- 7.9 Excavations -- 7.10 The Technical Side of Geophysics -- 7.11 Sources of Information -- References -- 8: Earth Resistance Survey: A Mature Archaeological Geophysics Method for Archaeology -- 8.1 Introduction -- 8.2 Principles of Earth Resistance Surveys -- 8.3 Typical Resistance Features in Classical Archaeology -- 8.4 Filters in Earth Resistance Interpretation -- 8.5 Future Developments of Earth Resistance Surveys -- References -- 9: Ground-Penetrating Radar (GPR) -- 9.1 Brief Historical Review -- 9.2 Brief Note on Principle and Systems -- 9.3 Basic 3D Imaging -- 9.4 3D GPR Methodologies for Archaeological Prospection -- 9.4.1 Standard 3D Surveying or Pseudo 3D -- 9.4.2 Full-Resolution or True 3D or Ultradense 3D Surveying -- 9.4.3 Other Methodologies -- 9.4.4 Best Practices -- 9.5 Current State-of-the-Art Technology: Multichannel Array Systems -- Conclusions -- References -- 10: Interpretation and Guidelines for Reporting -- 10.1 Introduction -- 10.2 Interpretation of Geophysical Data -- 10.2.1 Basic Principles -- 10.2.2 A Priori Information -- 10.2.3 Magnetic Data -- 10.2.4 GPR Data -- 10.2.5 Electrical Resistivity Data -- 10.2.6 Typical Interpretation Pitfalls -- 10.3 Survey Reports -- 10.3.1 Structure of Survey Reports -- 10.3.2 Description of Methodology -- 10.3.3 Presentation of Survey Results -- 10.3.4 Data Archiving -- References -- Part III: Topographic and Geoarchaeological Surveys -- 11: Intra-site Artefact Surveys.
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|a 11.1 The Development of Survey Methodology -- 11.2 Collection Size -- 11.3 What Is Being Collected? -- 11.4 Ancillary Aids to Surface Ceramic Survey -- 11.5 Case Studies -- Conclusions -- References -- 12: Site Discovery and Evaluation Through Minimal Interventions: Core Sampling, Test Pits and Trial Trenches -- 12.1 Introduction -- 12.2 Minimal Interventions -- 12.3 Minimal Interventions and Site Discovery -- 12.3.1 Intersection Probability -- 12.3.2 Detection Probability -- 12.3.3 Optimal Strategies for Site Discovery -- 12.4 Minimal Interventions and Site Evaluation -- 12.5 Minimal Interventions and Non-invasive Techniques -- 12.5.1 Survey Techniques and Heritage Management Systems -- 12.5.2 Combining Invasive and Non-invasive Techniques: On the Way to Best Practice -- References -- 13: Creating and Analysing Digital Terrain Models for Archaeological Research -- 13.1 Digital Terrain Models: A Definition -- 13.2 Data Acquisition -- 13.2.1 Methods for Data Acquisition -- 13.2.1.1 Total Station -- 13.2.1.2 GNSS Receivers -- How Does It Work? -- 13.2.1.3 Digital Photogrammetry -- 13.2.1.4 Secondary Data Sources -- 13.2.2 Interpolation -- 13.2.2.1 Types of Interpolation Methods -- Raster Model Based -- Inverse Distance Weighted (IDW) -- Kriging -- Splines -- Vector Model Based -- Triangulated Irregular Network (TIN) -- Interpolation from Contour Lines -- 13.3 How Do We Use Models for Archaeological Research? -- References -- 14: The Geoarchaeological Approach -- 14.1 Introduction -- 14.2 The Rise of a Concept -- 14.3 General Principles of the Geoarchaeological Approach -- 14.4 In-Site and Off-Site Studies -- 14.5 Prior to Any Geoarchaeological Study -- 14.6 The Stages of the Geoarchaeological Approach -- 14.7 The Contribution of Geomorphology to the Geoarchaeological Approach -- Conclusion -- References.
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|a Part IV: Visualisation and Site Management -- 15: Implementing Best Practice in Cultural Heritage Visualisation: The London Charter -- 15.1 The London Charter for the Computer-Based Visualisation of Cultural Heritage (Version 2.1, 2009) -- 15.1.1 Preamble -- 15.1.2 Objectives -- 15.1.3 Principles -- 15.1.3.1 Principle 1: Implementation -- 15.1.3.2 Principle 2: Aims and Methods -- 15.1.3.3 Principle 3: Research Sources -- 15.1.3.4 Principle 4: Documentation -- Enhancing Practice -- Documentation of Knowledge Claims -- Documentation of Research Sources -- Documentation of Process (Paradata) -- Documentation of Methods -- Documentation of Dependency Relationships -- Documentation Formats and Standards -- 15.1.3.5 Principle 5: Sustainability -- 15.1.3.6 Principle 6: Access -- 15.2 Commentary on the London Charter -- 15.2.1 Preamble and Objectives -- 15.2.1.1 Principle 1: Implementation -- 15.2.1.2 Principle 2: Aims and Methods -- 15.2.1.3 Principle 3: Research Sources -- 15.2.1.4 Principle 4: Documentation -- 15.2.1.5 Principle 5: Sustainability -- 15.2.1.6 Principle 6: Access -- References -- 16: International Guidelines for Virtual Archaeology: The Seville Principles -- 16.1 Virtual Archaeology: Definition and Term -- 16.2 Historical Background to the Creation of an International Charter of Virtual Archaeology -- 16.3 Principles of the Charter -- 16.3.1 Principle 1: Interdisciplinarity -- 16.3.2 Principle 2: Purpose -- 16.3.3 Principle 3: Complementarity -- 16.3.4 Principle 4: Authenticity -- 16.3.5 Principle 5: Historical Rigour -- 16.3.6 Principle 6: Efficiency -- 16.3.7 Principle 7: Scientific Transparency -- 16.3.8 Principle 8: Training and Evaluation -- 16.4 Definitions -- References -- 17: Reconstructing Past Landscapes for Virtual Museums -- 17.1 Introduction -- 17.2 Uncertainty Towards Transparency.
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|a 17.2.1 Virtual Museums and Virtual Archaeology Survey.
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|a Description based on publisher supplied metadata and other sources.
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| 650 |
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0 |
|a Social sciences.;Physical geography.;Remote sensing.;Archaeology.
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| 655 |
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4 |
|a Electronic books.
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0 |
8 |
|i Print version:
|t Good Practice in Archaeological Diagnostics : Non-Invasive Survey of Complex Archaeological Sites
|w 001364186
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|a Slapšak, Božidar.
|9 74172
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| 700 |
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|a Vermeulen, Frank.
|9 26622
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|a ProQuest (Firm)
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| 830 |
|
0 |
|a Natural science in archaeology
|9 81839
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| 856 |
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|z Available online
|u https://ebookcentral.proquest.com/lib/dainst/detail.action?docID=1592488
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