A Volumetric Method for Building Complex Models from Range Images

                          Brian Curless and Marc Levoy
                          Computer Science Department
                              Stanford University


Contact information:
        Gates Computer Science Building 3B
        Stanford University
        Stanford, CA  94305
        {curless,levoy}@cs.stanford.edu
        http://www-graphics.stanford.edu


Contents of this directory:

    dragon.jpg
	High resolution figure 11:
	Reconstruction of a dragon.
	(JPEG image, 185KB)

    drill.jpg
	High resolution figure 9:
	Merging range images of a drill bit.
	(JPEG image, 64KB)

    happy.jpg
	High resolution figure 12:
	Reconstruction of the "Happy Buddha".
	(JPEG image, 200KB)

    happy_h.mpg
	Video camera recording of the the stereolithography hardcopy
	of the "Happy Buddha" model.
	(MPEG video, 855KB)

    happy_p.mpg
	Video camera recording of the original "Happy Buddha" statuette 
	after painting to simplify scanning.
	(MPEG video, 725KB)

    happy_r.mpg 
	Rendered sequence of the acquired "Happy Buddha" computer
	model with accessibility shading and manual segmentation 
        into an ivory body and a rosewood base.  This rendering was 
        generated with a decimated version of the mesh.  
	(MPEG video, 1.5MB)

	happy_u.mpg
	Video camera recording of the original "Happy Buddha" statuette 
	before painting.
	(MPEG video, 938KB)

    holefill.jpg
	High resolution figure 6:
	Volumetric grid with space carving and hole filling.
	(JPEG image, 85KB)

    profil2d.jpg
	High resolution figure 4:
	Combination of signed distance and weight functions in two 
	dimensions.
	(JPEG image, 91KB)