3D Computer Vision: Efficient Methods and Applications, Second Edition
- 8h 23m
- Christian Wöhler
- Springer
- 2013
This indispensable text introduces the foundations of three-dimensional computer vision and describes recent contributions to the field. Fully revised and updated, this much-anticipated new edition reviews a range of triangulation-based methods, including linear and bundle adjustment based approaches to scene reconstruction and camera calibration, stereo vision, point cloud segmentation, and pose estimation of rigid, articulated, and flexible objects. Also covered are intensity-based techniques that evaluate the pixel grey values in the image to infer three-dimensional scene structure, and point spread function based approaches that exploit the effect of the optical system. The text shows how methods which integrate these concepts are able to increase reconstruction accuracy and robustness, describing applications in industrial quality inspection and metrology, human-robot interaction, and remote sensing.
About the Author
Christian Wöhler is Professor of Image Analysis at the Department of Electrical Engineering and Information Technology of TU Dortmund, Germany. His scientific interests are in the domains of computer vision, photogrammetry, remote sensing, and pattern classification, with applications in various fields including machine vision, robotics, advanced driver assistance systems, and planetary science.
In this Book
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Triangulation-Based Approaches to Three-Dimensional Scene Reconstruction
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Three-Dimensional Pose Estimation and Segmentation Methods
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Intensity-Based and Polarisation-Based Approaches to Three-Dimensional Scene Reconstruction
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Point Spread Function-Based Approaches to Three-Dimensional Scene Reconstruction
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Integrated Frameworks for Three-Dimensional Scene Reconstruction
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Applications to Industrial Quality Inspection
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Applications to Safe Human—Robot Interaction
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Applications to Lunar Remote Sensing
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Conclusion
