Standard tools of linear algebra are used to guide the reader through the various aspects of epipolar geometry, stereo vision, motion analysis, and object recognition, and to deal with some of the oldest problems in Computer Vision: to recover the 3-D geometric and kinematic structures of the world from two images, and to recognize a 3-D object in a cluttered scene from one or several views of this object in a different setting. Their approach allows 1-D search tasks, and ties the projective, affine, and Euclidean structures of the scene to those of images. Annotation c. by Book News, Inc., Portland, Or.
This book deals with one of the oldest problems in Computer Vision, namely to recover the 3-D geometric and kinematic structures of the world from two images, and to recognise a 3-D object in a cluttered scene from one or several views of this object in a different setting. Several different problems have been unified through the use of a unique geometric concept. On the one hand, the geometrical point of view naturally leads to the consideration of the projective geometric structure which relates two images of the same object, the epipolar structure. On the other hand, the practitioner's point of view allows the reduction of the difficult 2-D search tasks encountered in the fundamental problems to much simpler 1-D search tasks, and, for the theoretically inclined reader, it ties the projective, affine and Euclidean structures of the scene to those of the images. Audience: The authors have managed to avoid projective geometry in their exposition, and to guide the reader through the various aspects of epipolar geometry, stereo vision, motion analysis and object recognition using only the standard tools of linear algebra, thus making this a valuable book for a wide audience of researchers and engineers in image-related fields like vision, image processing, computer graphics, robotics, multi-media, and virtual reality.
