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UID:

Umfang: 1 Online-Ressource (xii, 237 Seiten) : , Illustrationen, Diagramme (teilweise farbig).

ISBN: 978-3-030-03635-5

Serie: Coastal research library volume 31

Anmerkung: Erscheint als Open Access bei Springer

Weitere Ausg.: Erscheint auch als Druck-Ausgabe ISBN 978-3-030-03634-8

Sprache: Englisch

Schlagwort(e): Unterwasserarchäologie ; Fernerkundung ; Aufsatzsammlung ; Aufsatzsammlung

DOI: 10.1007/978-3-030-03635-5

URL: Volltext  (kostenfrei)

URL: Volltext  (URL des Erstveröffentlichers)

URL: Buchcover

URL: Volltext  (kostenfrei)

URL: Volltext  (URL des Erstveröffentlichers)

URL: Buchcover

URL: kostenfrei

URL: Cover

UID:

Umfang: 1 Online-Ressource (xii, 237 Seiten) , Illustrationen, Diagramme (teilweise farbig)

ISBN: 9783030036355

Serie: Coastal research library volume 31

Anmerkung: Erscheint als Open Access bei Springer

Weitere Ausg.: Erscheint auch als Druck-Ausgabe ISBN 978-3-030-03634-8

Sprache: Englisch

Schlagwort(e): Unterwasserarchäologie ; Fernerkundung ; Aufsatzsammlung

DOI: 10.1007/978-3-030-03635-5

URL: Volltext  (kostenfrei)

URL: Volltext  (URL des Erstveröffentlichers)

URL: Buchcover

UID:

Umfang: 1 online resource (XII, 237 p.) : , 160 illus., 119 illus. in color.)

Ausgabe: 1st ed. 2019.

ISBN: 3-030-03635-9

Serie: Coastal Research Library, 31

Inhalt: This open access peer-reviewed volume was inspired by the UNESCO UNITWIN Network for Underwater Archaeology International Workshop held at Flinders University, Adelaide, Australia in November 2016. Content is based on, but not limited to, the work presented at the workshop which was dedicated to 3D recording and interpretation for maritime archaeology. The volume consists of contributions from leading international experts as well as up-and-coming early career researchers from around the globe. The content of the book includes recording and analysis of maritime archaeology through emerging technologies, including both practical and theoretical contributions. Topics include photogrammetric recording, laser scanning, marine geophysical 3D survey techniques, virtual reality, 3D modelling and reconstruction, data integration and Geographic Information Systems. The principal incentive for this publication is the ongoing rapid shift in the methodologies of maritime archaeology within recent years and a marked increase in the use of 3D and digital approaches. This convergence of digital technologies such as underwater photography and photogrammetry, 3D sonar, 3D virtual reality, and 3D printing has highlighted a pressing need for these new methodologies to be considered together, both in terms of defining the state-of-the-art and for consideration of future directions. As a scholarly publication, the audience for the book includes students and researchers, as well as professionals working in various aspects of archaeology, heritage management, education, museums, and public policy. It will be of special interest to those working in the field of coastal cultural resource management and underwater archaeology but will also be of broader interest to anyone interested in archaeology and to those in other disciplines who are now engaging with 3D recording and visualization.

Anmerkung: Calibration of Camera Systems for Underwater Photogrammetry -- Presenting Photogrammetric 3D Recording Essays in the Submerged Harbour Infrastructure of the Ancient and Medieval Harbour of Kyllene/Glarentza -- Using Digital Visualisation of Archival Sources to Enhance Archaeological Interpretation of the 'Life History' of Ships -- Presenting Computer Vision Photogrammetry (CVP) for Maritime Archaeology Research and Public Outreach -- High-Resolution Sub-Seabed Survey and Visualisation -- From Integration to Explanation: Moving from 3 to 4 Dimensions -- 3D Scanning and Mapping of the City of Adelaide -- Recent 3D Survey Work in Egypt -- Innomar's Parametric Sub-Bottom Profiler (SBP) Survey of Sub-Seabed Viking Fortifications in the Baltic -- Early Results of the High-Resolution Imaging of HMAS Sydney and HSK Kormoran -- Underwater Archaeology using Riegl Bathymetric Lidars -- The 17th/18th Century Drumbeg Shipwreck in Scotland -- James Matthews Trial Sub-Bottom Profile Survey -- Image-Based 3D Underwater Recording and Ocularcentrism -- 3D Photogrammetry for an by the Public -- Integration of Topographical and Bathymetrical Surveys in High-Resolution Textured 3D Prints. , English

Weitere Ausg.: ISBN 3-030-03634-0

Sprache: Englisch

DOI: 10.1007/978-3-030-03635-5

UID:

Umfang: XII, 237 p. 160 illus., 119 illus. in color. , online resource.

ISBN: 9783030036355

Serie: Coastal Research Library, 31

Inhalt: This open access peer-reviewed volume was inspired by the UNESCO UNITWIN Network for Underwater Archaeology International Workshop held at Flinders University, Adelaide, Australia in November 2016. Content is based on, but not limited to, the work presented at the workshop which was dedicated to 3D recording and interpretation for maritime archaeology. The volume consists of contributions from leading international experts as well as up-and-coming early career researchers from around the globe. The content of the book includes recording and analysis of maritime archaeology through emerging technologies, including both practical and theoretical contributions. Topics include photogrammetric recording, laser scanning, marine geophysical 3D survey techniques, virtual reality, 3D modelling and reconstruction, data integration and Geographic Information Systems. The principal incentive for this publication is the ongoing rapid shift in the methodologies of maritime archaeology within recent years and a marked increase in the use of 3D and digital approaches. This convergence of digital technologies such as underwater photography and photogrammetry, 3D sonar, 3D virtual reality, and 3D printing has highlighted a pressing need for these new methodologies to be considered together, both in terms of defining the state-of-the-art and for consideration of future directions. As a scholarly publication, the audience for the book includes students and researchers, as well as professionals working in various aspects of archaeology, heritage management, education, museums, and public policy. It will be of special interest to those working in the field of coastal cultural resource management and underwater archaeology but will also be of broader interest to anyone interested in archaeology and to those in other disciplines who are now engaging with 3D recording and visualization.

Anmerkung: Calibration of Camera Systems for Underwater Photogrammetry -- Presenting Photogrammetric 3D Recording Essays in the Submerged Harbour Infrastructure of the Ancient and Medieval Harbour of Kyllene/Glarentza -- Using Digital Visualisation of Archival Sources to Enhance Archaeological Interpretation of the 'Life History' of Ships -- Presenting Computer Vision Photogrammetry (CVP) for Maritime Archaeology Research and Public Outreach -- High-Resolution Sub-Seabed Survey and Visualisation -- From Integration to Explanation: Moving from 3 to 4 Dimensions -- 3D Scanning and Mapping of the City of Adelaide -- Recent 3D Survey Work in Egypt -- Innomar's Parametric Sub-Bottom Profiler (SBP) Survey of Sub-Seabed Viking Fortifications in the Baltic -- Early Results of the High-Resolution Imaging of HMAS Sydney and HSK Kormoran -- Underwater Archaeology using Riegl Bathymetric Lidars -- The 17th/18th Century Drumbeg Shipwreck in Scotland -- James Matthews Trial Sub-Bottom Profile Survey -- Image-Based 3D Underwater Recording and Ocularcentrism -- 3D Photogrammetry for an by the Public -- Integration of Topographical and Bathymetrical Surveys in High-Resolution Textured 3D Prints.

In: Springer eBooks

Weitere Ausg.: Printed edition: ISBN 9783030036348

Weitere Ausg.: Printed edition: ISBN 9783030036362

Sprache: Englisch

DOI: 10.1007/978-3-030-03635-5

URL: https://doi.org/10.1007/978-3-030-03635-5

UID:

Umfang: 1 online resource (240 pages)

Ausgabe: 1st ed.

ISBN: 9783030036355

Serie: Coastal Research Library ; v.31

Anmerkung: Intro -- Foreword -- Acknowledgements -- Contents -- 1: The Rise of 3D in Maritime Archaeology -- 1.1 Background -- 1.2 The Importance of 3D for Maritime Archaeology -- 1.3 Photogrammetry -- 1.4 Beyond Survey -- 1.5 Future Directions -- 1.6 Standards -- 1.7 Conclusions -- References -- 2: Camera Calibration Techniques for Accurate Measurement Underwater -- 2.1 Introduction -- 2.1.1 Historical Context -- 2.1.2 Modern Systems and Applications -- 2.1.3 Calibration and Accuracy -- 2.2 Calibration Approaches -- 2.2.1 Physical Correction -- 2.2.2 Target Field Calibration -- 2.3 Calibration Algorithms -- 2.3.1 Calibration Parameters -- 2.3.2 Absorption of Refraction Effects -- 2.3.3 Geometric Correction of Refraction Effects -- 2.3.4 Relative Orientation -- 2.4 Calibration Reliability and Stability -- 2.4.1 Reliability Factors -- 2.4.2 Stability Factors -- 2.5 Calibration and Validation Results -- 2.5.1 Quality Indicators -- 2.5.2 Validation Techniques -- 2.5.3 Validation Results -- 2.6 Conclusions -- References -- 3: Legacy Data in 3D: The Cape Andreas Survey (1969-1970) and Santo António de Tanná Expeditions (1978-1979) -- 3.1 Introduction -- 3.2 Cape Andreas Expeditions -- 3.2.1 Wreck Sites with Ceramics -- 3.2.2 Anchor Sites and Individual Anchors -- 3.2.3 Reworking the Legacy Survey Data -- 3.2.4 Reworking the Legacy Photographic Data -- 3.2.5 Agisoft PhotoScan/Metashape -- 3.3 The Santo António de Tanná Shipwreck -- 3.3.1 Profile Recording -- 3.3.2 Trilateration Survey -- 3.3.3 Photographic Recording -- 3.3.4 Agisoft PhotoScan/Metashape -- 3.4 Conclusions -- References -- 4: Systematic Photogrammetric Recording of the Gnalić Shipwreck Hull Remains and Artefacts -- 4.1 Introduction -- 4.2 The Shipwreck of Gnalić -- 4.2.1 History of Research -- 4.2.2 The Ship -- 4.2.2.1 Historical Documents. , 4.2.2.2 Archaeological Sources -- 4.3 Systematic Photogrammetric Recording of Site and Finds -- 4.3.1 Trial Campaign 2012 -- 4.3.2 Research Campaign 2013 -- 4.3.2.1 Control Points and Multi-image Coverage of the Site -- 4.3.2.2 Image Processing, 3D Model, and Orthophoto Generation -- 4.3.2.3 GIS Analysis -- 4.3.3 Research Campaign 2014 -- 4.3.3.1 Local Coordinate System -- 4.3.3.2 Composite Models -- 4.3.3.3 GIS Analysis -- 4.3.3.4 Points-Based Deviation Analysis -- 4.3.4 Research Campaigns 2015 and 2016 -- 4.3.5 Mapping the Area of Archaeological Interest in 2017 -- 4.4 Timber and Artefact Recording -- 4.5 Virtual Reality Application -- 4.6 Automation of the Underwater Recording Process -- 4.7 Conclusions -- References -- 5: Underwater Photogrammetric Recording at the Site of Anfeh, Lebanon -- 5.1 Introduction -- 5.1.1 Context of the Research -- 5.1.2 Recorded Archaeological Cultural Heritage at Anfeh -- 5.1.3 Methodology -- 5.2 Underwater Photography -- 5.2.1 Equipment -- 5.2.2 Data Collection -- 5.2.2.1 Data Collection with CanonG15 -- 5.2.2.2 Data Collection with Canon EOS 70D -- 5.2.2.3 Data Collection with Sony DSC-RX100 -- 5.2.3 Image processing -- 5.3 Multi-image Photogrammetry -- 5.3.1 Orthophotos -- 5.3.2 Export Adobe 3D PDFs -- 5.4 Archaeological Survey Results -- 5.4.1 Isolated Anchors -- 5.4.2 The Groups of Anchors -- 5.4.3 The Isolated Masonry Blocks -- 5.4.4 The Masonry Blocks in Groups -- 5.4.4.1 The North-Eastern Group -- 5.4.4.2 The North-Western Group -- 5.4.4.3 The South-Eastern Group -- 5.5 Accuracy -- 5.5.1 Accuracy of Georeferencing of the Survey -- 5.5.2 Accuracy of the Photogrammetric Survey -- 5.6 Challenges -- 5.7 Discussion and Conclusions -- References. , 6: Using Digital Visualization of Archival Sources to Enhance Archaeological Interpretation of the 'Life History' of Ships: The Case Study of HMCS/HMAS Protector -- 6.1 Introduction -- 6.2 Iconography and Maritime Archaeology -- 6.3 A Means for Interpretation: 3D Modelling of Archival Images -- 6.4 The Challenge of Digitally Modelling Archival Imagery -- 6.5 A Partial Solution -- 6.6 A Better Solution -- 6.7 Applying 3D Archival Imagery to Interpret Protector's 'Life History' -- 6.8 Discussion and Conclusions -- References -- 7: The Conservation and Management of Historic Vessels and the Utilization of 3D Data for Information Modelling -- 7.1 Introduction -- 7.2 Historic Vessel Conservation Management Practice -- 7.3 3D Survey for Historic Vessels -- 7.4 The Concept of Building Information Modelling (BIM) -- 7.5 Use of BIM in the Heritage Sector -- 7.6 HMS Victory (1765) and Information Modelling: A Case Study -- 7.7 Development of the VIM -- 7.8 Future Development of the VIM -- 7.9 Lessons from the VIM -- 7.10 Discussion -- 7.11 Conclusions -- References -- 8: A Procedural Approach to Computer-Aided Modelling in Nautical Archaeology -- 8.1 Introduction -- 8.2 Computer-Aided Modelling in Archaeology -- 8.3 Computer-Based Modelling in Archaeology -- 8.4 Computer Models -- 8.5 Procedural Modelling -- 8.6 Methodology -- 8.7 Approach -- 8.8 Hull Components Description -- 8.9 Conclusions and Future Work -- References -- 9: Deepwater Archaeological Survey: An Interdisciplinary and Complex Process -- 9.1 Introduction -- 9.1.1 The Archaeological Context -- 9.2 Underwater Survey by Photogrammetry -- 9.3 The Use of Ontologies -- 9.3.1 In Underwater Archaeology -- 9.3.2 Application in Nautical Archaeology -- 9.4 Artefact Recognition: The Use of Deep Learning -- 9.4.1 The Overall Process Using a Deep Learning Approach. , 9.4.2 The Proposed Convolution Neural Network -- 9.4.3 Classification Results -- 9.5 2D Representation: From Orthophoto to Metric Sketch -- 9.5.1 Style Transfer to Sketch the Orthophoto -- 9.5.2 From 3D Models to NPR: Non-photorealistic Rendering -- 9.6 Virtual Reality for the General Public -- 9.7 New 3D Technologies: The Plenoptic Approach -- 9.8 Conclusions -- References -- 10: Quantifying Depth of Burial and Composition of Shallow Buried Archaeological Material: Integrated Sub-bottom Profiling and 3D Survey Approaches -- 10.1 Introduction -- 10.2 Non-invasive Geophysical Measurements -- 10.3 Parametric SBP Surveys -- 10.3.1 In Situ Experimental Burial Survey -- 10.3.2 James Matthews Comparative In Situ Surveys -- 10.4 Results and Discussion -- 10.4.1 In Situ Experimental Burial Survey -- 10.4.2 James Matthews Comparative In Situ Wreck-Site Surveys -- 10.5 Future Surveys and Analyses -- 10.6 Conclusions -- References -- 11: Resolving Dimensions: A Comparison Between ERT Imaging and 3D Modelling of the Barge Crowie, South Australia -- 11.1 Introduction -- 11.2 Crowie's History, Context, Significance and Construction -- 11.2.1 History and Context -- 11.2.2 Significance -- 11.2.3 Construction -- 11.3 Geophysical Modelling -- 11.3.1 Electrical Resistivity Tomography (ERT) -- 11.3.2 Data Acquisition and Modelling -- 11.3.3 Data Processing and Results -- 11.4 Visual Model -- 11.5 Discussion -- 11.6 Conclusions -- References -- 12: HMS Falmouth: 3D Visualization of a First World War Shipwreck -- 12.1 Introduction -- 12.2 Background -- 12.3 Origins of the 3D Visualization of HMS Falmouth -- 12.4 Data Acquisition and Processing of the Ship Model -- 12.5 Publication of the 3D Visualization -- 12.6 Development Potential of 3D Visualization for Further Research and Public Engagement -- 12.7 Conclusions -- References. , 13: Beacon Virtua: A Virtual Reality Simulation Detailing the Recent and Shipwreck History of Beacon Island, Western Australia -- 13.1 Introduction -- 13.2 Simulation -- 13.2.1 Guided Tour -- 13.2.2 Technical Features -- 13.2.2.1 Island and Ocean -- 13.2.2.2 Buildings and Jetties -- 13.2.2.3 Graves and Coral Features -- 13.2.2.4 360° Photo Bubbles -- 13.2.2.5 Information Panels -- 13.2.2.6 Text Menu -- 13.2.2.7 Audio -- 13.2.2.8 Birds -- 13.2.2.9 Batavia Marker -- 13.3 Target Platforms -- 13.3.1 Desktop -- 13.3.2 WebGL -- 13.3.2.1 Head Mounted Displays -- 13.3.2.2 Large-Scale Immersive Displays -- 13.3.2.3 Exhibition Version -- 13.3.2.4 Videos -- 13.4 Multiple Target Platforms -- 13.5 Navigation -- 13.6 Dynamic Text -- 13.7 3D User Interface -- 13.8 Discussion -- 13.9 Future Work and Conclusions -- References -- 14: Integrating Aerial and Underwater Data for Archaeology: Digital Maritime Landscapes in 3D -- 14.1 Introduction -- 14.2 Maritime Archaeological Theory and Integrated Cultural Landscapes -- 14.3 Aerial Archaeology -- 14.4 Technical Challenges: Shallow Water and Intertidal Zones -- 14.5 Underwater Photogrammetry -- 14.6 Digital Maritime Landscapes in 3D: Case Studies -- 14.6.1 The Intertidal Zone -- 14.6.2 Nearshore Historic Shipwrecks -- 14.6.3 Deep Time and the Integrated Maritime Landscape -- 14.7 3D GIS -- 14.8 Digital 'Realities' -- 14.9 Conclusions -- References -- Index.

Weitere Ausg.: Print version: McCarthy, John K. 3D Recording and Interpretation for Maritime Archaeology Cham : Springer International Publishing AG,c2019 ISBN 9783030036348

Sprache: Englisch

Schlagwort(e): Electronic books.

URL: Click to View

UID:

Umfang: 1 online resource (XII, 237 p.) : , 160 illus., 119 illus. in color.)

Ausgabe: 1st ed. 2019.

ISBN: 3-030-03635-9

Serie: Coastal Research Library, 31

Inhalt: This open access peer-reviewed volume was inspired by the UNESCO UNITWIN Network for Underwater Archaeology International Workshop held at Flinders University, Adelaide, Australia in November 2016. Content is based on, but not limited to, the work presented at the workshop which was dedicated to 3D recording and interpretation for maritime archaeology. The volume consists of contributions from leading international experts as well as up-and-coming early career researchers from around the globe. The content of the book includes recording and analysis of maritime archaeology through emerging technologies, including both practical and theoretical contributions. Topics include photogrammetric recording, laser scanning, marine geophysical 3D survey techniques, virtual reality, 3D modelling and reconstruction, data integration and Geographic Information Systems. The principal incentive for this publication is the ongoing rapid shift in the methodologies of maritime archaeology within recent years and a marked increase in the use of 3D and digital approaches. This convergence of digital technologies such as underwater photography and photogrammetry, 3D sonar, 3D virtual reality, and 3D printing has highlighted a pressing need for these new methodologies to be considered together, both in terms of defining the state-of-the-art and for consideration of future directions. As a scholarly publication, the audience for the book includes students and researchers, as well as professionals working in various aspects of archaeology, heritage management, education, museums, and public policy. It will be of special interest to those working in the field of coastal cultural resource management and underwater archaeology but will also be of broader interest to anyone interested in archaeology and to those in other disciplines who are now engaging with 3D recording and visualization.

Anmerkung: Calibration of Camera Systems for Underwater Photogrammetry -- Presenting Photogrammetric 3D Recording Essays in the Submerged Harbour Infrastructure of the Ancient and Medieval Harbour of Kyllene/Glarentza -- Using Digital Visualisation of Archival Sources to Enhance Archaeological Interpretation of the 'Life History' of Ships -- Presenting Computer Vision Photogrammetry (CVP) for Maritime Archaeology Research and Public Outreach -- High-Resolution Sub-Seabed Survey and Visualisation -- From Integration to Explanation: Moving from 3 to 4 Dimensions -- 3D Scanning and Mapping of the City of Adelaide -- Recent 3D Survey Work in Egypt -- Innomar's Parametric Sub-Bottom Profiler (SBP) Survey of Sub-Seabed Viking Fortifications in the Baltic -- Early Results of the High-Resolution Imaging of HMAS Sydney and HSK Kormoran -- Underwater Archaeology using Riegl Bathymetric Lidars -- The 17th/18th Century Drumbeg Shipwreck in Scotland -- James Matthews Trial Sub-Bottom Profile Survey -- Image-Based 3D Underwater Recording and Ocularcentrism -- 3D Photogrammetry for an by the Public -- Integration of Topographical and Bathymetrical Surveys in High-Resolution Textured 3D Prints. , English

Weitere Ausg.: ISBN 3-030-03634-0

Sprache: Englisch

DOI: 10.1007/978-3-030-03635-5

UID:

Umfang: 1 online resource (XII, 237 p.) : , 160 illus., 119 illus. in color.)

Ausgabe: 1st ed. 2019.

ISBN: 3-030-03635-9

Serie: Coastal Research Library, 31

Inhalt: This open access peer-reviewed volume was inspired by the UNESCO UNITWIN Network for Underwater Archaeology International Workshop held at Flinders University, Adelaide, Australia in November 2016. Content is based on, but not limited to, the work presented at the workshop which was dedicated to 3D recording and interpretation for maritime archaeology. The volume consists of contributions from leading international experts as well as up-and-coming early career researchers from around the globe. The content of the book includes recording and analysis of maritime archaeology through emerging technologies, including both practical and theoretical contributions. Topics include photogrammetric recording, laser scanning, marine geophysical 3D survey techniques, virtual reality, 3D modelling and reconstruction, data integration and Geographic Information Systems. The principal incentive for this publication is the ongoing rapid shift in the methodologies of maritime archaeology within recent years and a marked increase in the use of 3D and digital approaches. This convergence of digital technologies such as underwater photography and photogrammetry, 3D sonar, 3D virtual reality, and 3D printing has highlighted a pressing need for these new methodologies to be considered together, both in terms of defining the state-of-the-art and for consideration of future directions. As a scholarly publication, the audience for the book includes students and researchers, as well as professionals working in various aspects of archaeology, heritage management, education, museums, and public policy. It will be of special interest to those working in the field of coastal cultural resource management and underwater archaeology but will also be of broader interest to anyone interested in archaeology and to those in other disciplines who are now engaging with 3D recording and visualization.

Anmerkung: Calibration of Camera Systems for Underwater Photogrammetry -- Presenting Photogrammetric 3D Recording Essays in the Submerged Harbour Infrastructure of the Ancient and Medieval Harbour of Kyllene/Glarentza -- Using Digital Visualisation of Archival Sources to Enhance Archaeological Interpretation of the 'Life History' of Ships -- Presenting Computer Vision Photogrammetry (CVP) for Maritime Archaeology Research and Public Outreach -- High-Resolution Sub-Seabed Survey and Visualisation -- From Integration to Explanation: Moving from 3 to 4 Dimensions -- 3D Scanning and Mapping of the City of Adelaide -- Recent 3D Survey Work in Egypt -- Innomar's Parametric Sub-Bottom Profiler (SBP) Survey of Sub-Seabed Viking Fortifications in the Baltic -- Early Results of the High-Resolution Imaging of HMAS Sydney and HSK Kormoran -- Underwater Archaeology using Riegl Bathymetric Lidars -- The 17th/18th Century Drumbeg Shipwreck in Scotland -- James Matthews Trial Sub-Bottom Profile Survey -- Image-Based 3D Underwater Recording and Ocularcentrism -- 3D Photogrammetry for an by the Public -- Integration of Topographical and Bathymetrical Surveys in High-Resolution Textured 3D Prints. , English

Weitere Ausg.: ISBN 3-030-03634-0

Sprache: Englisch

DOI: 10.1007/978-3-030-03635-5

UID:

Umfang: 1 online resource (XII, 237 p.) : , 160 illus., 119 illus. in color.)

Ausgabe: 1st ed. 2019.

ISBN: 3-030-03635-9

Serie: Coastal Research Library, 31

Inhalt: This open access peer-reviewed volume was inspired by the UNESCO UNITWIN Network for Underwater Archaeology International Workshop held at Flinders University, Adelaide, Australia in November 2016. Content is based on, but not limited to, the work presented at the workshop which was dedicated to 3D recording and interpretation for maritime archaeology. The volume consists of contributions from leading international experts as well as up-and-coming early career researchers from around the globe. The content of the book includes recording and analysis of maritime archaeology through emerging technologies, including both practical and theoretical contributions. Topics include photogrammetric recording, laser scanning, marine geophysical 3D survey techniques, virtual reality, 3D modelling and reconstruction, data integration and Geographic Information Systems. The principal incentive for this publication is the ongoing rapid shift in the methodologies of maritime archaeology within recent years and a marked increase in the use of 3D and digital approaches. This convergence of digital technologies such as underwater photography and photogrammetry, 3D sonar, 3D virtual reality, and 3D printing has highlighted a pressing need for these new methodologies to be considered together, both in terms of defining the state-of-the-art and for consideration of future directions. As a scholarly publication, the audience for the book includes students and researchers, as well as professionals working in various aspects of archaeology, heritage management, education, museums, and public policy. It will be of special interest to those working in the field of coastal cultural resource management and underwater archaeology but will also be of broader interest to anyone interested in archaeology and to those in other disciplines who are now engaging with 3D recording and visualization.

Anmerkung: Calibration of Camera Systems for Underwater Photogrammetry -- Presenting Photogrammetric 3D Recording Essays in the Submerged Harbour Infrastructure of the Ancient and Medieval Harbour of Kyllene/Glarentza -- Using Digital Visualisation of Archival Sources to Enhance Archaeological Interpretation of the 'Life History' of Ships -- Presenting Computer Vision Photogrammetry (CVP) for Maritime Archaeology Research and Public Outreach -- High-Resolution Sub-Seabed Survey and Visualisation -- From Integration to Explanation: Moving from 3 to 4 Dimensions -- 3D Scanning and Mapping of the City of Adelaide -- Recent 3D Survey Work in Egypt -- Innomar's Parametric Sub-Bottom Profiler (SBP) Survey of Sub-Seabed Viking Fortifications in the Baltic -- Early Results of the High-Resolution Imaging of HMAS Sydney and HSK Kormoran -- Underwater Archaeology using Riegl Bathymetric Lidars -- The 17th/18th Century Drumbeg Shipwreck in Scotland -- James Matthews Trial Sub-Bottom Profile Survey -- Image-Based 3D Underwater Recording and Ocularcentrism -- 3D Photogrammetry for an by the Public -- Integration of Topographical and Bathymetrical Surveys in High-Resolution Textured 3D Prints. , English

Weitere Ausg.: ISBN 3-030-03634-0

Sprache: Englisch

DOI: 10.1007/978-3-030-03635-5