11.6 Graphics and CAD Based Vision, CAD Models

Chapter Contents (Back)
CAD. Descriptions, CAD.

Inventor, Maya, AutoCAD, etc.
WWW Link. Vendor, CAD. 2D and 3D modelling and animation software. Also 3-D models from photos
See also Project Photofly.

3DS Max Online,
3DS Max resources. 2009.
WWW Link. Vendor, CAD. Resources for Autodesk 3DS Max products.

Bhanu, B.[Bir], (Ed.)
CAD-Based Robot Vision,
Computer(20), No. 8, August, 1987. Special issue. Survey, CAD. CAD, Survey. BibRef 8708

Aizawa, T.[Tamio], Takahara, K.[Kyoji],
Shape modeling system,
US_Patent4,858,150, August 15, 1989.
HTML Version. Generate 3-D shape from 2-D wire frame drawings. BibRef 8908

Diebel, H.[Heinz], Peterhoff, R.[Ralf], Thuemling, E.[Evelyn],
Method and apparatus for generating representations of 3-dimensional objects,
US_Patent5,010,502, April 23, 1991.
HTML Version. BibRef 9104

Roberts, A.F.[Andrew F.], Sachs, E.M.[Emanuel M.], Stoops, D.R.[David R.], Ulrich, K.T.[Karl T.], Siler, T.L.[Todd L.], Gossard, D.C.[David C.], Celniker, G.W.[George W.],
Computer aided drawing in three dimensions,
US_Patent5,237,647, August 17, 1993.
HTML Version. BibRef 9308

Bowyer, K.W.[Kevin W.],
Special Issue on Directions in CAD-Based Vision,
CVGIP(55), No. 2, March 1992, pp. 107-108.
Elsevier DOI Intro. BibRef 9203

Ikeuchi, K., Flynn, P.J.[Patrick J.],
Recent Progress in CAD-Based Vision,
CVIU(61), No. 3, May 1995, pp. 293-294.
DOI Link Introduction to a special issue. BibRef 9505

Camps, O.I.[Octavia I.], Flynn, P.J.[Patrick J.], Stockman, G.C.[George C.],
Recent Progress in CAD-Based Computer Vision: An Introduction to the Special Issue,
CVIU(69), No. 3, March 1998, pp. 251-252.
DOI Link BibRef 9803

Fisher, R.B., (editor),
Design and Application of Curves and Surfaces: Mathematics of Surfaces V,
Oxford University Press1994. BibRef 9400 EdinburghConference on CAD, surface shape, 3D vision. BibRef

Flynn, P.J., and Jain, A.K.,
BONSAI: 3D Object Recognition Using Constrained Search,
PAMI(13), No. 10, October 1991, pp. 1066-1075.
IEEE DOI BibRef 9110
Earlier: ICCV90(263-267).
IEEE DOI See comparison:
See also Experimental Comparison of Range Image Segmentation Algorithms, An. For related indexing work:
See also 3D Object Recognition Using Invariant Feature Indexing of Interpretation Tables. BibRef

Flynn, P.J., and Jain, A.K.,
On Reliable Curvature Estimation,
IEEE DOI BibRef 8900
Surface Classification: Hypothesis Testing and Parameter Estimation,
IEEE DOI Shape, Three-Dimensional - Evaluation. Evaluation of 5 different techniques for curvature estimation. Classify the surface based on a quadratic model. BibRef

Flynn, P.J., and Jain, A.K.,
CAD-Based Computer Vision: From CAD Models to Relational Graphs,
PAMI(13), No. 2, February 1991, pp. 114-132.
IEEE DOI BibRef 9102
Earlier: SMC-C89(162-167). Attributed Graphs. Discussion of different techniques for object recognition systems. Describes the GEOMOD CSG modelling package for vision models. BibRef

Flynn, P.J.,
CAD-Based Computer Vision: Modeling and Recognition Strategies,
Ph.D.Thesis (CS), 1990. BibRef 9000 MSULansing MI. Segmentation derived from:
See also Segmentation and Classification of Range Images. BibRef

Newman, T.S., Flynn, P.J., and Jain, A.K.,
Model-Based Classification of Quadric Surfaces,
CVGIP(58), No. 2, September 1993, pp. 235-249.
DOI Link BibRef 9309
Model-based Surface Classification,
SPIE(1570), 1991, pp. 250-261. Surface positions and normals.
See also Range-Intensity Histogram for Segmenting LADAR Images. BibRef

Newman, T.S., Jain, A.K.[Anil K.],
A System for 3D CAD-Based Inspection Using Range Images,
PR(28), No. 10, October 1995, pp. 1555-1574.
Elsevier DOI CAD model, inspection. Planar or quadratic surfaces. BibRef 9510

Newman, T.S., Jain, A.K.[Anil K.], Keshavan, H.R.,
3D CAD-Based Inspection I: Coarse Verification,
IEEE DOI BibRef 9200

Newman, T.S., Jain, A.K.[Anil K.], Enbody, R.J.,
3D Object Recognition: Interpretation Tree Search on a MIMD Machine,
IEEE DOI BibRef 9200

Raja, N.S.[Narayan S.], Jain, A.K.[Anil K.],
Obtaining Generic Parts from Range Images Using a Multiview Representation,
CVGIP(60), No. 1, July 1994, pp. 44-64.
DOI Link BibRef 9407
Earlier: SPIE(1708), 1992, pp. 602-613. 12 geon-like 3D part primitives. BibRef

Yoshiura, H., Fujimura, K., Kunii, T.L.,
Top-Down Construction of 3-D Mechanical Object Shapes from Engineering Drawings,
Computer(17), No. 12, December 1984, pp. 32-40. BibRef 8412

Sinha, S.S., Skifstad, K., and Jain, R.C.,
From 3-D Imaging to CAD: Bridging the Gap to Growth,
Advanced ImagingNovember 1992, pp. 42-45. BibRef 9211

Bhanu, B., Ho, C.C.,
CAD-Based 3D Object Representation for Robot Vision,
Computer(20), No. 8, August 1987, pp. 19-35. CAD. Part of the special issue. More discussion of CAD like representations for robot vision. BibRef 8708

Bhanu, B., Henderson, T.C., and Thomas, S.,
3-D Model Building using CAGD Techniques,
CVPR85(234-239). (Univ. of Utah) BibRef 8500
CAGD Based 3-D Vision,
CRA85(411-417). BibRef

Bhanu, B.[Bir], Ho, C.C.[Chih Cheng], and Henderson, T.C.[Thomas C.],
3-D Model Building for Computer Vision,
PRL(5), 1987, pp. 349-356. BibRef 8700

Bhanu, B.[Bir], and Ho, C.C.[Chih Cheng],
Computer-Aided Geometric Design Based 3-D Models for Machine Vision,
ICPR86(107-110). BibRef 8600

Hansen, C.[Chuck], Henderson, T.C.[Thomas C.],
CAGD Based Computer Vision,
PAMI(11), No. 11, November 1989, pp. 1181-1193.
IEEE DOI BibRef 8911
Earlier: CVWS87(100-105). CAD. A technique for combining CAD descriptions and range data analysis. BibRef

Henderson, T.C.[Thomas C.], Hansen, C.[Chuck], Samal, A.[Ashok], Ho, C.C., and Bhanu, B.[Bir],
CAGD-Based 3-D Visual Recognition,
ICPR86(230-232). BibRef 8600

Henderson, T.C.[Thomas C.], Samal, A.[Ashok],
Multiconstraint Shape Analysis,
IVC(4), No. 2, May 1986, pp. 84-96.
Elsevier DOI Multiple semantic constraints based on relaxation. BibRef 8605

Henderson, T.C.[Thomas C.], Weitz, E.[Eliot], Hansen, C.[Chuck], Grupen, R.[Rod], Ho, C.C., and Bhanu, B.[Bir],
CAD-Based Robotics,
CRA87(631-635). BibRef 8700

Bhanu, B., Lee, S., Ho, C.C., Henderson, T.,
Range Data Processing: Representation of Surfaces by Edges,
ICPR86(236-238). BibRef 8600

Henderson, T.C., Evans, J., Grayston, L., Sanderson, A., Stoller, L., Weitz, E.,
CBCV: A CAD-Based Computer Vision System,
CADBV91(146-154). BibRef 9100

Requicha, A.A.G.,
Representations for Rigid Solids: Theory, Methods and Systems,
Surveys(12), No. 4, December 1980, pp. 437-464. Survey, Representation. BibRef 8012

Requicha, A.A.G., and Voelcker, H.B.,
Solid Modeling: A Historical Summary and Contemporary Assessment,
IEEE_CGA(2), No. 2, March 1982, pp. 9-24. BibRef 8203
Solid Modeling: Current Status and Research Directions,
IEEE_CGA(3), No. 7, October 1983, pp. 25-37. BibRef

Vandenbrande, J.H., and Requicha, A.A.G.,
Spatial Recognition for the Automatic Recognition of Machinable Features in Solid Models,
PAMI(15), No. 12, December 1993, pp. 1269-1285.
IEEE DOI BibRef 9312

Requicha, A.A.G., Voelcker, H.B.,
Boolean Operations in Solid Modeling: Boundary Evaluation and Merging Algorithms,
PIEEE(73), 1985, pp. 30-44. BibRef 8500

Requicha, A.A., Chan, S.C.,
Representation of Geometric Features, Tolerances, and Attributes in Solid Modelers Based on Constructive Geometry,
RA(2), 1986, pp. 156-166. BibRef 8600

Kronlof, K., Tamminen, M.,
A Viewing Pipeline for Discrete Solid Modeling,
VC(1), 1985, pp. 24-36. BibRef 8500

Hoffmann, C., Hopcroft, J.,
Automatic Surface Generation in Computer Aided Design,
VC(1), 1985, pp. 92-100. BibRef 8500

Kitaoka, S.,
Experimental CSG Environment for Modelling Solid,
VC(2), 1986, pp. 9-14. BibRef 8600

Trika, S.N., Kashyap, R.L.,
Geometric Reasoning for Extraction of Manufacturing Features in Iso-Oriented Polyhedra,
PAMI(16), No. 11, November 1994, pp. 1087-1100.
IEEE DOI Derivation of the shapes using the fact that they are manufactured. Missing faces are derived. BibRef 9411

Streilein, A.,
Towards Automation In Architectural Photogrammetry: CAD-Based 3D-Feature Extraction,
PandRS(49), No. 5, October 1994, pp. 4-15. BibRef 9410

Hwang, S.C., Yang, H.S.,
A High-Quality 3D Multiview Model-Building Technique Based on CAD,
MVA(7), No. 3, 1994, pp. 209-216. BibRef 9400

Wilson, R.H.[Randall H.], and Latombe, J.C.[Jean-Claude],
Geometric Reasoning About Mechanical Assembly,
AI(71), No. 2, December 1994, pp. 371-396.
Elsevier DOI In which order can it be disassembled. BibRef 9412

Kumar, V.[Vijay], Bajcsy, R.[Ruzena], Harwin, W.S.[William S.], Harker, P.[Patrick],
Rapid Design and Prototyping of Customized Rehabilitation Aids,
CACM(39), No. 2, February 1996, pp. 55-61. Various issues, only partly vision related. Computer models of parts for a better fit. BibRef 9602

Sanna, A., Montuschi, P.,
Spatial Bounding of Complex CSG Objects,
IEE-P(CDT 142), No. 6, November 1995, pp. 431-439. BibRef 9511

Schmid, C.[Cordelia], Bobet, P.[Philippe], Lamiroy, B.[Bart], Mohr, R.[Roger],
An Image Oriented CAD Approach,
ORCV96(221) 9611

Dekhil, M., Sobh, T.M., Henderson, T.C., Mecklenburg, R.,
UPE: Utah Prototyping Environment for Robot Manipulators,
JIRS(17), No. 1, September 1996, pp. 31-60. 9611

Koivunen, V., and Vezien, J.M.,
Machine Vision Tools for CAGD,
PRAI(10), 1996, pp. 165-182. BibRef 9600

Varady, T., Martin, R.R., Cox, J.,
Reverse Engineering Of Geometric-Models: An Introduction,
CAD(29), No. 4, April 1997, pp. 255-268. 9703

Hwang, S.C., Jung, S.K., Yang, H.S.,
Efficient 3-D Object Representation and Recognition Based on CAD,
PRL(14), 1993, pp. 679-687. BibRef 9300

Henderson, T.C., Bhanu, B.,
Intrinsic Characteristics as the Interface Between CAD and Machine Vision Systems,
PRL(3), 1985, pp. 425-430. BibRef 8500

Majumdar, J., Seethalakshmy, A.G.,
A CAD Model-Based System for Object Recognition,
JIRS(18), No. 4, April 1997, pp. 351-365. 9708

Dong, J., Vijayan, S.,
Manufacturing Feature Determination and Extraction I: Optimal Volume Segmentation,
CAD(29), No. 6, June 1997, pp. 427-440. 9705

Ji, Q., Marefat, M.M.,
Machine Interpretation of CAD Data for Manufacturing Applications,
Surveys(29), No. 3, September 1997, pp. 264-311. 9710
Survey, CAD. BibRef

Yau, H.T., Chen, J.S.,
Reverse Engineering of Complex Geometry Using Rational B-Splines,
IJAMT(13), No. 8, 1997, pp. 548-555. 9712

Chen, L.C., Lin, G.C.I.,
A Vision Aided Reverse Engineering Approach to Reconstructing Free Form Surfaces,
RobCIM(13), No. 4, December 1997, pp. 323-336. 9801

Byne, J.H.M., Anderson, J.A.D.W.,
A CAD Based Computer Vision System,
IVC(16), No. 8, June 1998, pp. 533-539.
Elsevier DOI 9807
Rigid and articulated 3D objects in image. BibRef

Werghi, N., Fisher, R.B., Ashbrook, A.P., Robertson, C.,
Object reconstruction by incorporating geometric constraints in reverse engineering,
CAD(31), No. 6, 1999, pp. 363-399. BibRef 9900 Edinburgh
PS File. BibRef
Towards object modelling by incorporating geometric constraints,
Model3D98(45-53). BibRef Edinburgh BibRef
Modelling Objects Having Quadric Surfaces Incorporating Geometric Constraints,
ECCV98(II: 185).
Springer DOI BibRef Edinburgh BibRef
Improving model shape acquisition by incorporating geometric constraints,
BMVC97(520-529). BibRef Edinburghreverse engineering, shape constraints
HTML Version. Or:
PS File. BibRef

Pulli, K.[Kari], Shapiro, L.G.[Linda G.],
Surface Reconstruction and Display from Range and Color Data,
GM(62), No. 3, May 2000, pp. 165-201. 0005

Pulli, K.[Kari], Cohen, M.[Michael], Duchamp, T.[Tom], Hoppe, H.[Hugues], McDonald, J.[John], Shapiro, L.G.[Linda G.], Stuetzle, W.[Werner],
Surface modeling and display from range and color data,
CIAP97(I: 385-397).
Springer DOI 9709

Pulli, K.[Kari], Piiroinen, S., Duchamp, T.[Tom], Stuetzle, W.[Werner],
Projective surface matching of colored 3D scans,

Pulli, K.[Kari], Abi-Rached, H., Duchamp, T., Shapiro, L.G.[Linda G.], Stuetzle, W.,
Acquisition and Visualization of Colored 3D Objects,
ICPR98(Vol I: 11-15).

Krissian, K.[Karl], Malandain, G.[Grégoire], Ayache, N.[Nicholas], Vaillant, R.[Régis], Trousset, Y.[Yves],
Model-Based Detection of Tubular Structures in 3D Images,
CVIU(80), No. 2, November 2000, pp. 130-171.
DOI Link 0012
Model-based Multiscale Detection of 3D Vessels,

Krissian, K.[Karl], Malandain, G., Ayache, N.,
Directional Anisotropic Diffusion Applied to Segmentation of Vessels in 3D Images,
ScaleSpace97(xx). 9702

Krissian, K.,
A New Variational Image Restoration Applied to 3D Angiographies,
LevelSet01(xx-yy). 0106

Han, J.H.[Jung Hyun], Han, I.H.[In-Ho], Lee, E.S.[Eun-Seok], Yi, J.H.[June-Ho],
Manufacturing feature recognition toward integration with process planning,
SMC-B(31), No. 3, June 2001, pp. 373-380.
IEEE Top Reference. 0108

Lim, T., Corney, J.R., Clark, D.E.R.,
Laminae-Based Feature Recognition,
PAMI(23), No. 9, September 2001, pp. 1043-1048.
Recognize shape features on geometric models. Use a network of adjacent bounded surfaces (Laminae) derived from a CAD model. BibRef

Meeran, S., Zulkifli, A.H.,
Recognition of simple and complex interacting non-orthogonal features,
PR(35), No. 11, November 2002, pp. 2341-2353.
Elsevier DOI 0208
Convert CAD models into 2-D representation for neural network based recognition system. Search for feature volumes, transform to edges and vertices. BibRef

Ji, Q.A.[Qi-Ang], Marefat, M.M.[Michael M.],
A Dempster-Shafer approach for recognizing machine features from CAD models,
PR(36), No. 6, June 2003, pp. 1355-1368.
Elsevier DOI 0304

See also Mathematical Theory of Evidence, A. Manufacturing features from solid model. BibRef

Rehg, J.M., Pavlovic, V., Huang, T.S., Freeman, W.T.,
Guest editors' introduction to the special section on graphical models in computer vision,
PAMI(25), No. 7, July 2003, pp. 785-786.
IEEE Abstract. 0307

Ji, Q.A.[Qi-Ang], Luo, J.B.[Jie-Bo], Metaxas, D.N.[Dimitris N.], Torralba, A.B.[Antonio B.], Huang, T.S.[Thomas S.], Sudderth, E.B.[Erik B.],
Guest Editors' Introduction to the Special Section on Probabilistic Graphical Models,
PAMI(31), No. 10, October 2009, pp. 1729-1732.

Pan, Z.G.[Zhi-Geng], Zhang, M.M.[Ming-Min], Zhou, K.[Kun], Cheng, C.Y.[Chi-Yi], Shi, J.Y.[Jiao-Ying],
Level of Detail and Multi-Resolution Modeling for Virtual Prototyping,
IJIG(1), No. 2, April 2001, pp. 329-343. 0104

Arisandi, R., Otsuki, M., Kimura, A., Shibata, F., Tamura, H.,
Virtual Handcrafting: Building Virtual Wood Models Using ToolDevice,
PIEEE(102), No. 2, February 2014, pp. 185-195.
solid modelling BibRef

Foster, S.[Shaun], Halbstein, D.[David],
Integrating 3D Modeling, Photogrammetry and Design,

Springer2014. ISBN 978-1-4471-6328-2.
WWW Link. 1404

Carballal, A.[Adrian], Pazos-Pérez, R.I.[Rafael Iván], Rodriguez-Fernandez, N.[Nereida], Santos, I.[Iria], García-Vidaurrázaga, M.D.[María D.], Rabuñal, J.R.[Juan R.],
A point-based redesign algorithm for designing geometrically complex surfaces. A case study: Miralles's croissant paradox,
IET-IPR(14), No. 12, October 2020, pp. 2948-2956.
DOI Link 2010

Ren, D.[Daxuan], Zheng, J.M.[Jian-Min], Cai, J.F.[Jian-Fei], Li, J.T.[Jia-Tong], Jiang, H.Y.[Hai-Yong], Cai, Z.A.[Zhong-Ang], Zhang, J.Z.[Jun-Zhe], Pan, L.[Liang], Zhang, M.Y.[Ming-Yuan], Zhao, H.[Haiyu], Yi, S.[Shuai],
CSG-Stump: A Learning Friendly CSG-Like Representation for Interpretable Shape Parsing,
Point cloud compression, Shape, Neural networks, 3D from a single image and shape-from-x, BibRef

Wu, R.[Rundi], Xiao, C.[Chang], Zheng, C.X.[Chang-Xi],
DeepCAD: A Deep Generative Network for Computer-Aided Design Models,
Point cloud compression, Solid modeling, Design automation, Shape, Computational modeling, Neural generative models, Representation learning BibRef

Iuso, D.[Domenico], Nazemi, E.[Ehsan], Six, N.[Nathanaël], de Samber, B.[Björn], de Beenhouwer, J.[Jan], Sijbers, J.[Jan],
CAD-Based Scatter Compensation for Polychromatic Reconstruction of Additive Manufactured Parts,
Radiography, Solid modeling, Interpolation, Additives, Computed tomography, Computational modeling, Noise reduction, X-ray computed tomography BibRef

Desobry, D.[David], Protais, F.[François], Ray, N.[Nicolas], Corman, E.[Etienne], Sokolov, D.[Dmitry],
Frame Fields for CAD Models,
Springer DOI 2112

Lambourne, J.G.[Joseph G.], Willis, K.D.D.[Karl D. D.], Jayaraman, P.K.[Pradeep Kumar], Sanghi, A.[Aditya], Meltzer, P.[Peter], Shayani, H.[Hooman],
BRepNet: A topological message passing system for solid models,
bRep models. Manifolds, Solid modeling, Design automation, Computational modeling, Image edge detection, Neural networks, Data structures BibRef

Jayaraman, P.K.[Pradeep Kumar], Sanghi, A.[Aditya], Lambourne, J.G.[Joseph G.], Willis, K.D.D.[Karl D. D.], Davies, T.[Thomas], Shayani, H.[Hooman], Morris, N.[Nigel],
UV-Net: Learning from Boundary Representations,
Operate on CAD models, bRep. Geometry, Solid modeling, Computational modeling, Neural networks, Data models, Topology BibRef

Xu, X.H.[Xiang-Hao], Peng, W.Z.[Wen-Zhe], Cheng, C.Y.[Chin-Yi], Willis, K.D.D.[Karl D.D.], Ritchie, D.[Daniel],
Inferring CAD Modeling Sequences Using Zone Graphs,
Solid modeling, Design automation, Shape, Computational modeling, Search problems, Solids BibRef

Nickchen, T.[Tobias], Heindorf, S.[Stefan], Engels, G.[Gregor],
Generating Physically Sound Training Data for Image Recognition of Additively Manufactured Parts,
Training, Visualization, Solid modeling, Image recognition, Training data, Production BibRef

Corsia, M., Chabardès, T., Bouchiba, H., Serna, A.,
Large Scale 3D Point Cloud Modeling from CAD Database in Complex Industrial Environments,
DOI Link 2012

Kuo, W.C.[Wei-Cheng], Angelova, A.[Anelia], Lin, T.Y.[Tsung-Yi], Dai, A.[Angela],
Mask2CAD: 3d Shape Prediction by Learning to Segment and Retrieve,
Springer DOI 2012

Cherenkova, K., Aouada, D., Gusev, G.,
Pvdeconv: Point-Voxel Deconvolution for Autoencoding CAD Construction in 3D,
Solid modeling, Training, Decoding, Data models, Convolution, Deconvolution, CC3D, Scan2CAD BibRef

Avetisyan, A., Dai, A., Niessner, M.,
End-to-End CAD Model Retrieval and 9DoF Alignment in 3D Scans,
CAD, convolutional neural nets, geometry, image reconstruction, nearest neighbour methods, object detection, solid modelling, Feature extraction BibRef

Dahnert, M., Dai, A., Guibas, L.J.[Leonidas J.], Niessner, M.,
Joint Embedding of 3D Scan and CAD Objects,
CAD, image retrieval, learning (artificial intelligence), solid modelling, ranked scan-CAD similarity annotations, Decoding BibRef

Koch, S.[Sebastian], Matveev, A.[Albert], Jiang, Z.S.[Zhong-Shi], Williams, F.[Francis], Artemov, A.[Alexey], Burnaev, E.[Evgeny], Alexa, M.[Marc], Zorin, D.[Denis], Panozzo, D.[Daniele],
ABC: A Big CAD Model Dataset for Geometric Deep Learning,

Balashova, E.[Elena], Singh, V.[Vivek], Wang, J.P.[Jiang-Ping], Teixeira, B.[Brian], Chen, T.[Terrence], Funkhouser, T.[Thomas],
Structure-Aware Shape Synthesis,
image segmentation, solid modelling, implausible shapes, structurally unrealistic shapes, structural constraints, neural networks BibRef

Birdal, T., Ilic, S.,
CAD Priors for Accurate and Flexible Instance Reconstruction,
CAD, computer graphics, image reconstruction, object detection, shape recognition, CAD constraint, CAD model, BibRef

Al Tarawneh, R., Griesser, A., Bauer, J., Humayoun, S.R., Ebert, A.,
3DintEx: A tool to explore interactively the structural and behavioral aspects of system models in 3D environments,
CAD BibRef

Denker, K., Hagel, D., Raible, J., Umlauf, G., Hamann, B.,
On-Line Reconstruction of CAD Geometry,
Reverse engineering of CAD. Point clouds. BibRef

Munaretto, D., Roggero, M.,
Solid Image Extraction FROM LIDAR Point Clouds,
DOI Link 1308
Laser scan for architectural models. Extract orthogonal projections. BibRef

Li, K., Shahwan, A., Trlin, M., Foucault, G., Léon, J.C.[Jean-Claude],
Automated Contextual Annotation of B-Rep CAD Mechanical Components Deriving Technology And Symmetry Information To Support Partial Retrieval,
DOI Link 1301

Bey, A.[Aurelien], Chaine, R.[Raphaelle], Marc, R.[Raphael], Thibault, G.[Guillaume],
Effective Shapes Generation for Bayesian CAD Model Reconstruction,
DOI Link 1301

Li, J.G.[Jing-Gao], Han, S.H.[Soon-Hung],
Profile-based Feature Representation Based on Guide Curve Approximation Using Line and Arc Segments,
ISVC12(I: 533-543).
Springer DOI 1209
CAD systems interoperation. BibRef

Sinha, S.[Shriprakash], ter Horst, G.J.[Gert J.],
Bounded multivariate surfaces on monovariate internal functions,

Jiang, S.Y.[Shi-Yin], Zhang, H.[Hua], Wang, H.[Heng], Liu, M.[Manlu], Xiao, Y.F.[Yu-Feng], Zhang, J.[Jing],
Three-dimensional modeling of a telerobot based on SolidWorks and Open Inventor,

Hou, J.[Jin], Zhang, D.S.[Deng-Sheng], Chen, Z.[Zeng], Xu, X.R.[Xue-Rong], Nakamura, T.,
Composite feature modeling and retrieval,

Kawashima, K.[Kazuaki], Kanai, S.[Satoshi], Date, H.[Hiroaki],
Automatic Recognition Of Piping System From Large-Scale Terrestrial Laser Scan Data,
DOI Link 1109
Pipes from Lidar data. BibRef

Conforti, D., Garnero, G., Godone, D., Bacciocchi, M., Skripkin, A.,
Survey applications using the Optech ILRIS 3D laser scanner and photogrammetry for a complete detailed CAD reconstruction of the objects,
PDF File. 0902

de Lucia, A.[Andrea], Risi, M.[Michele], Rizzi, L.[Luigi], Scanniello, G.[Giuseppe],
A Visual Framework for the Definition and Execution of Reverse Engineering Processes,
Springer DOI 0809

Priyadarshi, A.K.[Alok K.], Gupta, S.K.[Satyandra K.],
Finding Mold-Piece Regions Using Computer Graphics Hardware,
Springer DOI 0607

Banerjee, A.G.[Ashis Gopal], Gupta, S.K.[Satyandra K.],
A Step Towards Automated Design of Side Actions in Injection Molding of Complex Parts,
Springer DOI 0607

Chen, X.R.[Xiao-Rui], McMains, S.[Sara],
Finding All Undercut-Free Parting Directions for Extrusions,
Springer DOI 0607

Rappoport, A.[Ari], Spitz, S.[Steven], Etzion, M.[Michal],
Two-Dimensional Selections for Feature-Based Data Exchange,
Springer DOI 0607
Faces and surfaces in CAD. BibRef

Langbein, F.C., Li, M., Martin, R.R.,
A Comment on 'Constructing Regularity Feature Trees for Solid Models',
Springer DOI 0804
Earlier: A2, A1, A3:
Constructing Regularity Feature Trees for Solid Models,
Springer DOI 0607
Automatic models get the structure, but not the design intent. Find regularity and symmetry to determine intent. BibRef

Quinn, J.A., Langbein, F.C., Martin, R.R., Elber, G.,
Density-Controlled Sampling of Parametric Surfaces Using Adaptive Space-Filling Curves,
Springer DOI 0607

Karbacher, S., Laboureux, X., Schon, N., Hausler, G.,
Processing range data for reverse engineering and virtual reality,

Svirsky, D.[Dmitry], Polozkov, Y.[Yuri],
The Industrial Application of the Irregular 3D-Objects Image Processing in the Compact Reverse Engineering System,
CAIP01(457 ff.).
Springer DOI 0210

Braun, E.[Elke], Fritsch, J.[Jannik], Sagerer, G.[Gerhard],
Incorporating Process Knowledge into Object Recognition for Assemblies,
ICCV01(I: 726-732).

de Saint Germain, H.J.[H. James], Stark, S.R.[Stevan R.], Thompson, W.B.[William B.], Henderson, T.C.[Thomas C.],
Constraint Optimization and Feature-Based Model Construction for Reverse Engineering,
DARPA97(927-934). BibRef 9700

Goulette, F.[François],
Automatic CAD Modelling of Industrial Pipes from Range Images,
3DIM97(9 - Environment Modeling) 9702

Fichera, O., Pellegretti, P., Roli, F., Serpico, S.B.,
Automatic Acquisition of Visual Models for Image Recognition,
IEEE DOI BibRef 9200

He, S., Abe, N., Kitahashi, T.,
Assembly Planning Based On Assembly Illustration Understanding,
IEEE DOI BibRef 9200
Understanding Assembly Illustrations in An Assembly Manual Without Any Model of Mechanical Parts,

Milanova, M., Kunchev, R., Alexandrov, I.,
Three Dimensional Computer Vision for Computer Design and Manufacturing Applications,
ICPR96(A93.5). 9608
(Tech. Univ., BG) BibRef

Owen, J.C., de Saint Germain, H.J.[H. James], Stark, S.R., Henderson, T.C., Thompson, W.B.,
Calibrated Imagery for Quantitative Evaluation of IU Classification, Pose-Estimation, and Stereo Algorithms,
ARPA96(1459-1464). How to generate the imagery and how to get it. BibRef 9600

Thompson, W.B., Riesenfeld, R.F., Owen, J.C.,
Determining the Similarity of Geometric Models,
ARPA96(1157-1160). How good is the the computed model? BibRef 9600

Thompson, W.B., de Saint Germain, H.J.[H. James], Henderson, T.C., Owen, J.C.,
Constructing High-Precision Geometric Models from Sensed Position Data,
ARPA96(987-994). Use manfactured models, so ground truth is known. Derive the CAD model. BibRef 9600

Owen, J.C.[Jonathan C.], Sloan, P.P.J.[Peter-Pike J.], and Thompson, W.B.[William B.],
Interactive Feature-Based Reverse Engineering of Mechanical Parts,
ARPA94(II:1115-1124). Reverse Engineering. BibRef 9400

Abrams, S.[Steven], Allen, P.K.[Peter K.], and Reed, M.K.[Michael K.],
CAD Model Acquisition using Binary Space Partitioning Trees,
ARPA94(II:1167-1173). BibRef 9400

Marefat, M., Kashyap, R.L.,
Planning for Inspection Based on CAD Models,
IEEE DOI BibRef 9200

Park, H.D., and Mitchell, O.R.,
CAD Based Planning and Execution of Inspection,
IEEE DOI BibRef 8800

Patel, R.M., and McLeod, A.J.,
Engineering Feature Description in Mechanical Engineering Design,
CAEJ(xx), October 1988, pp. 180-183. BibRef 8810

Camps, O.I.[Octavia I.],
Towards a robust physics-based object recognition system,
Springer DOI 9412

Camps, O.I.[Octavia I.], Shapiro, L.G.[Linda G.], and Haralick, R.M.[Robert M.],
PREMIO: An Overview,
CADBV91(11-21). BibRef 9100
PREMIO: The Use of Prediction in a CAD-Model-Based Vision System,
EE-ISL-89-01, Department of Electrical Engineering, Univ. of Washington1989. BibRef

Shapiro, L.G.,
A CAD-Model-Based System for Object Localization,
SPIE(938), April 1988, pp. 408-418. BibRef 8804

Idesawa, M.[Manasori],
3-D model Reconstruction and Processing for CAE,
ICPR86(220-225). BibRef 8600

Idesawa, M.[Manasori], and Yatagai, T.,
3-D Shape Input and Processing by Moire Technique,
ICPR80(1085-1090). BibRef 8000

Lee, Y.C., and Fu, K.S.,
Machine Understanding of CSG: Extraction and Unification of Manufacturing Features,
IEEE_CGA(7), January 1987, pp. 20-32. BibRef 8701

Shah, J.J.[Jami J.], and Rogers, M.T.[Mary T.],
Functional Requirements and Conceptual Design of the Feature-Based Modelling System,
CAEJ(xx), February 1988, pp. 9-15. BibRef 8802

Cohen, E., Wolfson, H.J.,
Partial Matching of 3-D Objects in CAD/CAM Systems,
IEEE DOI BibRef 9400

Teh, C.H., Chin, R.T.,
Two Dimensional CAD-Based Object Recognition,
ICPR88(I: 382-384).
IEEE DOI BibRef 8800

Chapter on 3-D Object Description and Computation Techniques, Surfaces, Deformable, View Generation, Video Conferencing continues in
SuperQuadric Representations .

Last update:Jun 19, 2022 at 13:58:21