Software utilizzato

Bibliografia

[1] Guhring J., Dense 3D surface acquisition by structured light using off-the-shelf components, Institute for Photogrammetry, University of Stuttgart, Germany.

[2] Kitajima K,. Maki H., A method of generating both an open shell and a solid model utilizing stereo-visual image pairs from multiple views of 3D objects, Systems and Computers in Japan, Vol.24, No.10, pp.84-89, 1993.

[3] Karbacher S., Hausler G., Schonfeld H., Reverse engineering using optical range sensors, Handbook of Computer Vision and Applications, Vol.3: Systems and Applications, Cap.17, pp.359-380, Copyright 1999 by Academic Press.

[4] Trobina M., Error model of a coded-light range sensor, Communication Technology Laboratory, Image Science Group, ETH-Zentrum, CH-8092, Zurich, 21 September 1995.

[5] Costanzo S., Sviluppo di un sistema di visione Gray-Code per applicazioni di Reverse Engineering, Tesi di Laurea in Ingegneria Meccanica presso la Facoltà di Ingegneria dell’Università degli Studi di Pisa, 2002.

[6] Fusiello A., Visione artificiale: appunti delle lezioni, Dipartimento di informatica, Università di Verona, 12 Giugno 2002.

[7] Roth G., Boulanger P., CAD model building from multiple range images, Institute for Information Technology, Building M50, Montreal Road, National Research Council of Canada, Ottawa, Canada K1A 0R6.

[9] Roth G., Registering two overlapping range images, Proceedings of the Second International Conference on Recent Advances in 3D Digital Imaging and Modeling (3DIM'99), Ottawa On. October 4-8 1999, pp.192-200, NRC 43637.

[10] Fraser C.S., Some thoughts on the emergence of digital close range photogrammetry, Photogrammetric Record, 16(91): 37-50, April 1998.

[11] Bosemann W., Photogrammetric solutions for industrial automation and process control, Photogrammetric Record, 16(92): pp.187-197, October 1998.

[12] Gayde J.C., Humbertclaude C., Lasseur C., Prospects of Close Range Digital Photogrammetry in large physics installations, C.E.R.N., Geneva, Switzerland.

[13] Roberts K.T., Thomas R.C., Photogrammetry application on the Milestone2 Steam Generatorreplacement, Proceedings of the ASME Winter Conference, 93WA/NE- 4, pp.1-6, 28November-3 December 1993, New Orleans, LA, USA.

[14] Atkinson K.B., Close range photogrammetry and machine vision, Typeset by Whittles Publishing Services, Published by Whittles Publishing, Roseleigh House, Latheronwheel, Caithness, KW5 6DW, Scotland, UK, 2001.

[15] Bernardini F., Rushmeier H., Martin I.M., Mittleman J., Taubin G., Building a digital model of Michelangelo's Florentine Pietà, IBM T.J. Watson Research Center, P.O. Box 704, Yorktown Heights, NY 10598.

[16] Levoy M., Pulli K., Curless B., Rusinkiewicz S., Koller D., Pereira L., Ginzton M., Anderson S., Davis J., Ginsberg J., Shade J., Fulk D., The digital Michelangelo project: 3d scanning of large statues, Comp. Graph. Proc., Annual Conf. Series (Siggraph 2000), ACM Siggraph Addison Wesley, July 24-28 2000, pp.131-144.

[17] Vàrady T., Martin R.R., Cox J., Reverse engineering of geometric models – an introduction, Computer Aided Design, Vol.29, No.4, pp.255-268, 1997.

[18] Toci E., Applicazione di tecniche di Reverse Engineering per la ricostruzione di modelli CAD di prototipi fisici, Tesi di Laurea in Ingegneria Meccanica presso la Facoltà di Ingegneria dell’Università degli Studi di Pisa, 2001.

[19] Pinto V., Messa a punto di procedure per il rilievo geometrico di casse compresssori, Tesi di Laurea in Ingegneria Meccanica presso la Facoltà di Ingegneria dell’Università degli Studi di Pisa, 2002.

[20] Fondamenti di rilievo 3D (3D scanning), Active 3D Sensing, Copyright 1997- 2000, National Research Council of Canada.

[21] Scopigno R., 3D scanning technology, ACM SolidModeling'01, CNUCE-CNR, Pisa.

[22] Sansoni G., Patrioli A., Non contact 3D sensing of free-form complex surfaces, Videometrics and Optical Methods for 3D Shape Measurement, Sabry F. El- Hakim, Armin Gruen, Editors, Proceedings of SPIE, Vol.4309 (2001), pp.232-239,

2001 SPIE.

[23] Fraser C., Automated vision metrology: a mature technology for industrial inspection and engineering surveys, 6th South East Asian Surveyors Congress, Fremantle, Western Australia, 1-6 November 1999.

[24] Shortis M.R., Snow W.L., Videometric tracking of wind tunnel aerospace models at Nasa Langley Research Center, Photogrammetric Record 15(89): 673-689, April 1997.

[25] de Fàtima Santos Farias M., da Carvalho J.M., Multi-view technique for 3D polyhedral object recognition using surface representation, Revista Controle &

Automaçao, Vol.10, No.2, pp.107-117, Maio Jun. Jul. e Agosto 1999.

[26] Rocchini C., Cignoni P., Montani C., Pingi P., Scopigno R., A low cost 3d scanner based on structured light , Vol.20 (2001), No.3, Eurographics 2001.

[27] Guhring J., Brenner C., Bohm J., Fritsch D., Data processing and calibration of a cross-pattern stripe projector, IAPRS, Vol.33, Amsterdam, 2000.

[28] Bouguet J.Y., Perona P., Camera calibration from points and lines in dual space geometry, Submitted to European Conference on Computer Vision, 1998.

[29] Ganci G., Clement R., BMW applied V-Stars, Leica Geosystems AG, Monchmattweg 5, CH-5035 Unterentfelden, Switzerland.

[30] Van Voorden A., Photogrammetric quality control during the construction of a submarine, Proceedings of SPIE - The International Society for Optical Engineering, Vol.1395, pp.408-416, 1990.

[31] Albertz J., Wiedemann A., Acquisition of CAD data from existing buildings by photogrammetry, Technical University of Berlin, Berlin, Germany.

[32] Veldhuis H., Vosselman G., The 3D reconstruction of straight and curved pipes using digital line photogrammetry, ISPRS, Journal of Photogrammetry and Remote Sensing 53 (1998), pp.6-16.

[33] GOM Optical Measuring Techniques, Quality control and 3D digitizing using photogrammetry and fringe projection.

[34] Bergmann D., Galanulis K., Winter D., Advanced 3d fringe projection systems, GOM mbH, Braunschweig, 1997.

[35] Ganci G., Clement R., The use of self-identifying targeting for feature based measurement , Coordinate Measuring System Committee, July 2000, Dearborn, Michigan.

[36] Ganci G., Handley H., Automation in videogrammetry, Geodetic services, Inc.

1511 S. Riverview Drive, Melbourne, Florida, USA.

[37] Matlab® Camera Calibration Toolbox. Intel Open Source Computer Vision Library.

[38] Malservisi N., Sviluppo di metodi automatici per la creazione dei modelli CAD partendo dai prototipi fisici di componenti di veicoli, Tesi di Laurea in Ingegneria

Meccanica presso la Facoltà di Ingegneria dell’Università degli Studi di Pisa, 2001.

[39] Rocchini C., 3D scanning a basso costo con luce strutturata, Visual Computing Group, ISTI-CNR, Pisa.

[40] Frankowski G., Chen M., Huth T., Real time 3D shape measurement with digital stripe projection by Texas Instruments Micromirror Devices DMDTM, GFMesstechnik GmbH, Warthestr. 21, D-14513 Teltow/Berlin.

[41] Wolf H.G.E., Getting 3D shape by coded light approach in combination with phaseshifting, ABW Automatisierung und Bildverarbeitung Dr. Wolf GmbH, Gutenbergstrabe 9, D-72636 Frickenhausen.

[42] Bernardini F., Mittleman J., Rushmeier H., Silva C., Taubin G., The Ball-Pivoting Algorithm for surface reconstruction, IEEE Transactions on Visualization and Computer Graphics, Vol.5, No.4, pp.349-359, 1999.

[43] Arun K.S., Huang T.S., Blostein S.D., Least-squares fitting of two 3D point sets, IEEE Transactions on Pattern Analysis and Machine Intelligence, Vol.9, No.5, pp.698-700, September 1987.

[44] Rusinkiewicz S., Levoy M., Efficient variants of the ICP algorithm, Stanford University.

[45] Zhang Z., Iterative point matching for registration of free-form curves, Unitè de Recherche INRIASophia Antipolis, Rapports de Recherche, No.1658, Programme 4, Robotique Image et Vision, Mars 1992.

[46] Besl P.J., McKay N.D., A method for registration of 3D shapes, IEEE Transactions on Pattern Analysis and Machine Intelligence, Vol.14, No.2, pp.239- 256, February 1992.

[47] Chen C.S., Hung Y.P., Cheng J.B., RANSAC-Based DARCES: a new approach to fast automatic registration of partially overlapping range images, IEEE Transactions on Pattern Analysis and Machine Intelligence, Vol.21, No.11, pp.1229-1234, November 1999.

[48] Chetverikov D., Stepanov D., Robust Euclidean alignment of 3D point sets, Computer and Automation Research Institute, Budapest, Kende u.13-17, H-1111, Hungary.

Software utilizzato

Pro/ENGINEER® Release 2001 - Parametric Technology Corporation http://www.ptc.com

Microsoft® Word Release 2002 - Microsoft Corporation http://www.microsoft.com

Microsoft® PowerPoint Release 2002 - Microsoft Corporation http://www.microsoft.com

Adobe® Acrobat® Release 5.0 - Adobe Systems, Inc.

http://www.adobe.com/acrobat

I-Deas® Imageware Surfacer® Release 2001 for Windows - Structural Dynamics Research

Corporation

http://www.sdrc.com

Matlab® Version 6 Release 12 - The MathWorks, Inc.

http://www.mathworks.com

RapidForm Release 1.5 Evaluation copy - Inus Technology, Inc.

http://www.rapidform.com