vinayakb | 0c86039 | 2012-10-06 18:47:20 +0000 | [diff] [blame] | 1 | 0|real time active range finder using light intensity modulation |
| 2 | 1|strategies for registering range images from unknown camera positions |
| 3 | 2|high resolution ultrafast 3d imaging |
| 4 | 3|optoelectronic dimensional integral inspection of hollow cylinder type articles for conveyor line |
| 5 | 4|development of a 3d digitizer for breast surgery procedures |
| 6 | 5|automatic reconstruction of large 3d models of real environments from unregistered data sets |
| 7 | 6|three line high power three dimensional sensor |
| 8 | 7|9multispectral pattern projection range finder |
| 9 | 8|high speed three dimensional laser sensor |
| 10 | 9|3d range optical sensor analysis of the measurement errors and development of procedures for their compensation |
| 11 | 10|3d profilometry using a dynamically configurable confocal microscope |
| 12 | 11|examining laser triangulation system performance using a software simulation |
| 13 | 12|effect of sway on image fidelity in whole body digitizing |
| 14 | 13|moly a prototype handheld 3d digitizer with diffraction optics |
| 15 | 14|reconstruction of the surface of the human body from 3d scanner data using 13 splines |
| 16 | 15|reverse engineering using optical 3d sensors |
| 17 | 16|wrapping 3d scanning data |
| 18 | 17|spherical harmonic surface representation with feedback control |
| 19 | 18|efficient free form surface representation with application in orthodontics |
| 20 | 19|real time 3d shape measurement with digital stripe projection by texas instruments micro mirror devices dmd |
| 21 | 20|multiscale analysis of 3d surface image application to clam shell characterization |
| 22 | 21|multiple structured light system for the 3d measurement of feet |
| 23 | 22|pose and motion estimation using dual quaternion based extended kalman filtering |
| 24 | 23|direct estimation of 3d motion parameters and relative depth using the minimum description length principle |
| 25 | 24|depth based selective image reconstruction using spatiotemporal image analysis |
| 26 | 25|toward a handheld laser range scanner integrating observation based motion compensation |
| 27 | 26|slicing, fitting, and linking (sfl) a modular triangulation approach |
| 28 | 27|3d object reconstruction from a sequence of images using voxel coloring |
| 29 | 28|3d profiling by optical demodulation with an image intensifier |
| 30 | 29|restoration of broken earthenware using close range photogrammetry and a cad system |
| 31 | 30|real time 3d reconstruction system using cam based highly parallel processing board |
| 32 | 31|novel fully integrated computer system for custom footwear from 3d digitization to manufacturing |
| 33 | 32|reconstruction of complete 3d object model from multiview range images |
| 34 | 33|color digitizing and modeling of free form 3d objects |
| 35 | 34|object modeling in multiple object 3d scene using deformable simplex meshes |
| 36 | 35|robust 3d reconstruction system for human jaw modeling |
| 37 | 36|acquisition of 3d image representation in multimedia ambiance communication using 3d laser scanner and digital camera |
| 38 | 37|new approach for the modeling and smoothing of scattered 3d data |
| 39 | 38|fast shape from focus using dynamic programming |
| 40 | 39|axi vision camera a three dimensional camera |
| 41 | 40|real time structured light depth extraction |
| 42 | 41|impact of intensity edge map on segmentation of noisy range images |
| 43 | 42|interpolation of ray space data by adaptive filtering |
| 44 | 43|three steps to make shape from shading work consistently on real scenes |
| 45 | 44|robust cooperation concept for low level vision modules |
| 46 | 45|error sensitivity of rotation angles in the icp algorithm |
| 47 | 46|3d surface real time measurement using phase shifted interference fringe technique for craniofacial identification |
| 48 | 47|automated fudicial labeling on human body data |
| 49 | 48|segmenting 3d surface scan data of the human body by 2d projection |
| 50 | 49|extracting surface area coverage by superimposing 3d scan data |