Bisheng Yang, Fuxun Liang, Xiaoxin Mi, Zhen Dong
Ubiquitous Point Cloud
Theory, Model, and Applications
Bisheng Yang, Fuxun Liang, Xiaoxin Mi, Zhen Dong
Ubiquitous Point Cloud
Theory, Model, and Applications
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This book provides the theory and methodology for 3D digitalization with point clouds and AI to better serve remote sensing, 3D vision, autonomous driving, metaverse, and other industries. It addresses various aspects of 3D geoinformation including data collection, fusion, interpretation, representation, and applications in different fields.
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This book provides the theory and methodology for 3D digitalization with point clouds and AI to better serve remote sensing, 3D vision, autonomous driving, metaverse, and other industries. It addresses various aspects of 3D geoinformation including data collection, fusion, interpretation, representation, and applications in different fields.
Produktdetails
- Produktdetails
- Verlag: Taylor & Francis Ltd
- Seitenzahl: 264
- Erscheinungstermin: 9. Dezember 2024
- Englisch
- Abmessung: 234mm x 156mm
- ISBN-13: 9781032780467
- ISBN-10: 1032780460
- Artikelnr.: 71263120
- Verlag: Taylor & Francis Ltd
- Seitenzahl: 264
- Erscheinungstermin: 9. Dezember 2024
- Englisch
- Abmessung: 234mm x 156mm
- ISBN-13: 9781032780467
- ISBN-10: 1032780460
- Artikelnr.: 71263120
Dr. Bisheng Yang is a professor in Lidar and Photogrammetry at Wuhan University, China, and Director of State Key Laboratory of Information Engineering in Surveying, Mapping and Remote Sensing (LIESMARS). His research expertise includes Lidar and UAV Photogrammetry, point cloud processing, GeoAI, and GIS and remote sensing applications. He has so far published more than 100 papers in peer-review journal articles, conferences, and workshop proceedings. He is Co-Chair of Point Cloud Processing Workgroup in the Photogrammetry Commission of the International Society for Photogrammetry and Remote Sensing (ISPRS) since 2016. Currently, He is the Associate Editor of the ISPRS Journal of Photogrammetry and Remote Sensing. He is the recipient of many academic awards including Carl Pulfrich Award (2019), and the Smart City Technology Innovation Award Gold Medal (2023). Dr. Zhen Dong received his Ph.D. in Remote Sensing and Photogrammetry from Wuhan University in 2018. He is a professor at LIESMARS, Wuhan University. His research is focused on 3D computer vision, particularly 3D reconstruction, scene understanding, point cloud processing, as well as their applications in intelligent transportation systems, digital twin cities, urban sustainable development, and robotics. Dr. Fuxun Liang received his Ph.D. degree in Remote Sensing and Photogrammetry from Wuhan University. He is currently a postdoctoral fellow in the State Key Laboratory of Information Engineering in Surveying, Mapping and Remote Sensing (LIESMARS), Wuhan University. His research is focused on point cloud processing and its applications in building and energy. Dr Xiaoxin Mi received her Ph.D. degree in the State Key Laboratory of Information Engineering in Surveying, Mapping, and Remote Sensing (LIESMARS), Wuhan University. She is currently a postdoctoral fellow at Wuhan University of Technology. Her research interests include point cloud classification and segmentation, and road infrastructure modeling.
Part I: Introduction. 1. Introduction to Point Cloud. 2. Ubiquitous Point
Cloud. Part II: INtroduction of Fusion and Enhancement. 3. Multiview Point
Clouds Registration. 4. Cross-Platform Points Clouds Registration. 5. Point
Clouds and Panoramic Images Registration. Part III: Introduction of
Detection and Segmentation. 6. 3D Object Detection. 7. Point Cloud Semantic
Segmentation. 8. Point Cloud Instance Segmentation. Part IV: Introduction
of Modeling Analysis. 9. 3D Terrain Modeling. 10. 3D Building
Reconstruction. 11. 3D Road Reconstruction. Part V: Software Applications.
12. Point Cloud Processing Software - Point2Model. 13. Applications of
Uniquitous Point Cloud. 14. Conclusion and Outlooks.
Cloud. Part II: INtroduction of Fusion and Enhancement. 3. Multiview Point
Clouds Registration. 4. Cross-Platform Points Clouds Registration. 5. Point
Clouds and Panoramic Images Registration. Part III: Introduction of
Detection and Segmentation. 6. 3D Object Detection. 7. Point Cloud Semantic
Segmentation. 8. Point Cloud Instance Segmentation. Part IV: Introduction
of Modeling Analysis. 9. 3D Terrain Modeling. 10. 3D Building
Reconstruction. 11. 3D Road Reconstruction. Part V: Software Applications.
12. Point Cloud Processing Software - Point2Model. 13. Applications of
Uniquitous Point Cloud. 14. Conclusion and Outlooks.
Part I: Introduction. 1. Introduction to Point Cloud. 2. Ubiquitous Point
Cloud. Part II: INtroduction of Fusion and Enhancement. 3. Multiview Point
Clouds Registration. 4. Cross-Platform Points Clouds Registration. 5. Point
Clouds and Panoramic Images Registration. Part III: Introduction of
Detection and Segmentation. 6. 3D Object Detection. 7. Point Cloud Semantic
Segmentation. 8. Point Cloud Instance Segmentation. Part IV: Introduction
of Modeling Analysis. 9. 3D Terrain Modeling. 10. 3D Building
Reconstruction. 11. 3D Road Reconstruction. Part V: Software Applications.
12. Point Cloud Processing Software - Point2Model. 13. Applications of
Uniquitous Point Cloud. 14. Conclusion and Outlooks.
Cloud. Part II: INtroduction of Fusion and Enhancement. 3. Multiview Point
Clouds Registration. 4. Cross-Platform Points Clouds Registration. 5. Point
Clouds and Panoramic Images Registration. Part III: Introduction of
Detection and Segmentation. 6. 3D Object Detection. 7. Point Cloud Semantic
Segmentation. 8. Point Cloud Instance Segmentation. Part IV: Introduction
of Modeling Analysis. 9. 3D Terrain Modeling. 10. 3D Building
Reconstruction. 11. 3D Road Reconstruction. Part V: Software Applications.
12. Point Cloud Processing Software - Point2Model. 13. Applications of
Uniquitous Point Cloud. 14. Conclusion and Outlooks.