BACK TO INDEX

Publications of year 1995

Books and proceedings

  1. N. Ayache, editor. First international conference on computer vision, virtual reality and robotics in medicine, CVRMed'95, volume 905 of Lecture Notes in Computer Science, Nice, France, April 1995. Springer.
    @proceedings{CVRMed95,
    address = {Nice, France},
    editor = {N. Ayache},
    month = {April},
    publisher = {Springer},
    series = {Lecture Notes in Computer Science},
    title = {First international conference on computer vision, virtual reality and robotics in medicine, CVRMed'95},
    volume = {905},
    year = {1995} 
    }
    


Thesis

  1. E. Bardinet. Modèles déformables contraints - applications à l'imagerie cardiaque. Thèse de sciences, université Paris IX Dauphine, December 1995.
    @phdthesis{bardinet:these:1995,
    author = {E. Bardinet},
    month = {December},
    school = {universit\'e Paris IX Dauphine},
    title = {Mod\`eles d\'eformables contraints - applications \`a l'imagerie cardiaque},
    type = {Th\`ese de sciences},
    url-publisher = {http://www.inria.fr/rrrt/tu-0444.html},
    year = {1995} 
    }
    


  2. L. D. Cohen. Méthodes Variationnelles en traitement d'images. Habilitation à diriger des recherches, Ceremade-Université Paris IX Dauphine, June 1995.
    @phdthesis{cohen_these,
    author = {L. D. Cohen},
    month = {June},
    school = {Ceremade-Universit\'e Paris IX Dauphine},
    title = {M\'ethodes Variationnelles en traitement d'images},
    type = {Habilitation \`a diriger des recherches},
    year = {1995} 
    }
    


  3. J. Feldmar. Recalage rigide, non-rigide et projectif d'images médicales tridimensionnelles. Thèse de sciences, École Polytechnique, December 1995. Keyword(s): registration, matching, deformations.
    @phdthesis{Feldmar:these:1995,
    author = {J. Feldmar},
    keywords = {registration, matching, deformations},
    month = {December},
    school = {\'Ecole Polytechnique},
    title = {Recalage rigide, non-rigide et projectif d'images m\'edicales tridimensionnelles},
    type = {Th\`ese de sciences},
    url-publisher = {http://www.inria.fr/rrrt/tu-0461.html},
    year = {1995} 
    }
    


  4. A. Gourdon. Applications de la Géométrie Différentielle à l'Imagerie Médicale Multidimensionelle. Thèse de sciences, Université Paris XI-Orsay, January 1995.
    @phdthesis{gourdon_these,
    author = {A. Gourdon},
    month = {January},
    school = {Universit\'e Paris XI-Orsay},
    title = {Applications de la G\'eom\'etrie Diff\'erentielle \`a l'Imagerie M\'edicale Multidimensionelle},
    type = {Th\`ese de sciences},
    year = {1995} 
    }
    


  5. Gérard Subsol. Construction automatique d'atlas anatomiques à partir d'images médicales tridimensionnelles : applications à un atlas du crâne et du cerveau. Thèse de sciences, École Centrale de Paris, December 1995.
    @phdthesis{subsol:these:1995,
    author = {G\'erard Subsol},
    month = {December},
    school = {\'Ecole Centrale de Paris},
    title = {Construction automatique d'atlas anatomiques \`a partir d'images m\'edicales tridimensionnelles : applications \`a un atlas du cr\^ane et du cerveau},
    type = {Th\`ese de sciences},
    url-publisher = {http://www.inria.fr/rrrt/tu-0379.html},
    year = {1995} 
    }
    


Articles in journal, book chapters

  1. N. Ayache. Medical Computer Vision, Virtual Reality and Robotics. Image and Vision Computing, 13(4):295-313, May 1995.
    @article{ayache-ivc,
    author = {N. Ayache},
    journal = {Image and Vision Computing},
    month = {May},
    number = {4},
    pages = {295--313},
    title = {Medical Computer Vision, Virtual Reality and Robotics},
    url = {https://www-sop.inria.fr/asclepios/Publications/Nicholas.Ayache/AyacheIVC1995.pdf},
    volume = {13},
    year = {1995} 
    }
    


  2. G. Bertrand and G. Malandain. A note on ``Building skeleton models via 3D medial surface-axis thinning algorithms''. Graphical Models and Image Processing, 57(6):537-538, November 1995.
    @article{bertrand-al95,
    author = {G. Bertrand and G. Malandain},
    journal = {Graphical Models and Image Processing},
    month = {November},
    number = {6},
    pages = {537--538},
    title = {A note on ``Building skeleton models via 3D medial surface-axis thinning algorithms''},
    volume = {57},
    year = {1995} 
    }
    


  3. M. Hébert, H. Delingette, and K. Ikeuchi. Shape Representation and Image Segmentation Using Deformable Surfaces. IEEE Transactions on Pattern Analysis and Machine Intelligence, 17(7), June 1995. Keyword(s): journal, recognition.
    @article{delingette_pami_95,
    author = {M. H\'ebert and H. Delingette and K. Ikeuchi},
    journal = {IEEE Transactions on Pattern Analysis and Machine Intelligence},
    keywords = {journal, recognition},
    month = {June},
    number = {7},
    title = {Shape Representation and Image Segmentation Using Deformable Surfaces},
    url = {https://www-sop.inria.fr/asclepios/Publications/Herve.Delingette/pami.pdf},
    volume = {17},
    year = {1995} 
    }
    


  4. O. Monga and S. Benayoun. Using partial derivatives of 3D images to extract typical surface features. Computer Vision and Image Understanding, 61(2):171-189, March 1995. Note: Aussi rapport de recherche INRIA numero 1599, Février 1992.
    Abstract:
    Three-dimensional edge detection in voxel images is used to locate points corresponding to surfaces of 3D structures. The next stage is to characterize the local geometry of these surfaces in order to extract points or lines which may be used by registration and tracking procedures. Typically one must calculate second-order differential characteristics of the surfaces such as the maximum, mean, and Gaussian curvature. The classical approach is to use local surface fitting, thereby confronting the problem of establishing links between 3D edge detection and local surface approximation. To avoid this problem, we propose to compute the curvatures at locations designated as edge points using directly the partial derivatives of the image. By assuming that the surface is defined locally by a isointensity contour (i.e., the 3D gradient at an edge point corresponds to the normal to the surface), one can calculate directly the curvatures and characterize the local curvature extrema (ridge points) from the first, second, and third derivatives of the gray level function. These partial derivatives can be computed using the operators of the edge detection. In the more general case where the contours are not isocontours (i.e., the gradient at an edge point only approximates the normal to the surface), the only differential invariants of the image are in R^4. This leads us to treat the 3D image as a hypersurface (a three-dimensional manifold) in R^4. We give the relationships between the curvatures of the hypersurface and the curvatures of the surface defined by edge points. The maximum curvature at a point on the hypersurface depends on the second partial derivatives of the 3D image. We note that it may be more efficient to smooth the data in R^4. Moreover, this approach could also be used to detect corners of vertices. We present experimental results obtained using real data (X ray scanner data) and applying these two methods. As an example of the stability, we extract ridge lines in two 3D X ray scanner data of a skull taken in different positions.

    @article{monga-benayoun95,
    abstract = {Three-dimensional edge detection in voxel images is used to locate points corresponding to surfaces of 3D structures. The next stage is to characterize the local geometry of these surfaces in order to extract points or lines which may be used by registration and tracking procedures. Typically one must calculate second-order differential characteristics of the surfaces such as the maximum, mean, and Gaussian curvature. The classical approach is to use local surface fitting, thereby confronting the problem of establishing links between 3D edge detection and local surface approximation. To avoid this problem, we propose to compute the curvatures at locations designated as edge points using directly the partial derivatives of the image. By assuming that the surface is defined locally by a isointensity contour (i.e., the 3D gradient at an edge point corresponds to the normal to the surface), one can calculate directly the curvatures and characterize the local curvature extrema (ridge points) from the first, second, and third derivatives of the gray level function. These partial derivatives can be computed using the operators of the edge detection. In the more general case where the contours are not isocontours (i.e., the gradient at an edge point only approximates the normal to the surface), the only differential invariants of the image are in R^4. This leads us to treat the 3D image as a hypersurface (a three-dimensional manifold) in R^4. We give the relationships between the curvatures of the hypersurface and the curvatures of the surface defined by edge points. The maximum curvature at a point on the hypersurface depends on the second partial derivatives of the 3D image. We note that it may be more efficient to smooth the data in R^4. Moreover, this approach could also be used to detect corners of vertices. We present experimental results obtained using real data (X ray scanner data) and applying these two methods. As an example of the stability, we extract ridge lines in two 3D X ray scanner data of a skull taken in different positions.},
    author = {O. Monga and S. Benayoun},
    doi = {doi:10.1006/cviu.1995.1014},
    journal = {Computer Vision and Image Understanding},
    month = {March},
    note = {aussi rapport de recherche INRIA numero 1599, F\'evrier 1992},
    number = {2},
    pages = {171-189},
    title = {Using partial derivatives of 3D images to extract typical surface features},
    volume = {61},
    year = {1995} 
    }
    


  5. J.-P. Thirion and A Gourdon. Computing the Differential Characteristics of Isointensity Surfaces. Journal of Computer Vision and Image Understanding, 61(2):190-202, March 1995.
    @article{Thirion95c,
    author = {J.-P. Thirion and A Gourdon},
    journal = {Journal of Computer Vision and Image Understanding},
    month = {March},
    number = {2},
    pages = {190--202},
    title = {Computing the Differential Characteristics of Isointensity Surfaces},
    volume = {61},
    year = {1995} 
    }
    


  6. N. Ayache, P. Cinquin, I. Cohen, L. D. Cohen, I. L. Herlin, F. Leitner, and O. Monga. Segmentation of Complex 3D medical Objects: a challenge and a requirement for computer assisted surgery planning and performing. In Computer Integrated Surgery. MIT-Press, 1995.
    @incollection{ayache_inbook,
    author = {N. Ayache and P. Cinquin and I. Cohen and L. D. Cohen and I. L. Herlin and F. Leitner and O. Monga},
    booktitle = {Computer Integrated Surgery},
    hal-identifiant = {inria-00532673},
    publisher = {MIT-Press},
    title = {Segmentation of Complex 3D medical Objects: a challenge and a requirement for computer assisted surgery planning and performing},
    url-hal = {http://hal.inria.fr/inria-00532673/en/},
    year = {1995} 
    }
    


Conference articles

  1. N. Ayache. Medical Computer Vision, Virtual Reality and Robotics. In Proceedings of the British Machine Vision Conference, Birmingham, September 1995.
    @inproceedings{ayache-bmvc,
    address = {Birmingham},
    author = {N. Ayache},
    booktitle = {Proceedings of the British Machine Vision Conference},
    month = {September},
    title = {Medical Computer Vision, Virtual Reality and Robotics},
    year = {1995} 
    }
    


  2. N. Ayache, J. Feldmar, G. Malandain, E. Maurincomme, C. Picard, and Y. Trousset. Recalage sans cadre stéréotaxique d'images volumiques et projectives en radiologie interventionnelle. In Mini colloque INSERM de radiologie interventionnelle, Paris, June 1995.
    @inproceedings{Feldmar_inserm,
    address = {Paris},
    author = {N. Ayache and J. Feldmar and G. Malandain and E. Maurincomme and C. Picard and Y. Trousset},
    booktitle = {Mini colloque INSERM de radiologie interventionnelle},
    month = {June},
    title = {Recalage sans cadre st\'er\'eotaxique d'images volumiques et projectives en radiologie interventionnelle},
    year = {1995} 
    }
    


  3. E. Bardinet, L.D. Cohen, and N. Ayache. Superquadrics and free-form deformations: a global model to fit and track 3D medical data. In Proceedings of the Conference on Computer Vision, Virtual Reality and Robotics in Medecine (CVRMed'95), volume 905 of Lecture Notes in Computer Science, Nice, France, April 1995. Springer. Keyword(s): FFD, Superquadrique, Deformations, motion tracking.
    @inproceedings{BCA95a,
    address = {Nice, France},
    author = {E. Bardinet and L.D. Cohen and N. Ayache},
    booktitle = {Proceedings of the Conference on Computer Vision, Virtual Reality and Robotics in Medecine (CVRMed'95)},
    keywords = {FFD, Superquadrique, Deformations, motion tracking},
    month = {April},
    publisher = {Springer},
    series = {Lecture Notes in Computer Science},
    title = {Superquadrics and free-form deformations: a global model to fit and track 3D medical data},
    volume = {905},
    year = {1995} 
    }
    


  4. E. Bardinet, L.D. Cohen, and N. Ayache. Tracking medical 3D data with a parametric deformable model. In IEEE Symposium on Computer Vision, Coral Gables, Florida, November 1995.
    @inproceedings{BCA95e,
    address = {Coral Gables, Florida},
    author = {E. Bardinet and L.D. Cohen and N. Ayache},
    booktitle = {IEEE Symposium on Computer Vision},
    month = {November},
    title = {Tracking medical 3D data with a parametric deformable model},
    year = {1995} 
    }
    


  5. F. Betting and J. Feldmar. 3D-2D projective registration of anatomical surfaces with their projections. In XIVth International Conference on Information Processing in Medical Imaging (IPMI'95), Brest, pages 275-286, June 1995.
    @inproceedings{Feldmar2,
    address = {Brest},
    author = {F. Betting and J. Feldmar},
    booktitle = {XIVth International Conference on Information Processing in Medical Imaging (IPMI'95)},
    month = {June},
    pages = {275--286},
    title = {3D-2D projective registration of anatomical surfaces with their projections},
    year = {1995} 
    }
    


  6. F. Betting, J. Feldmar, N. Ayache, and F. Devernay. A new framework for fusing stereo images with volumetric medical images. In Proceedings of the Conference on Computer Vision, Virtual Reality and Robotics in Medecine (CVRMed'95), volume 905 of Lecture Notes in Computer Science, Nice, pages 30-39, April 1995. Springer.
    @inproceedings{Feldmar3,
    address = {Nice},
    author = {F. Betting and J. Feldmar and N. Ayache and F. Devernay},
    booktitle = {Proceedings of the Conference on Computer Vision, Virtual Reality and Robotics in Medecine (CVRMed'95)},
    month = {April},
    pages = {30--39},
    publisher = {Springer},
    series = {Lecture Notes in Computer Science},
    title = {A new framework for fusing stereo images with volumetric medical images},
    volume = {905},
    year = {1995} 
    }
    


  7. J.N. Bruneton, F. Schikli, B. Padovani, H. Delingette, and Catherine Maestro. Volumétrie tumorale obtenue à partir d'images scannographiques. In Actes du 1er Colloque sur l'Imagerie et Traitement d'Images, Cannes, France, April 1995. Keyword(s): workshop, medical.
    @inproceedings{delingette_iti95,
    address = {Cannes, France},
    author = {J.N. Bruneton and F. Schikli and B. Padovani and H. Delingette and Catherine Maestro},
    booktitle = {Actes du 1er Colloque sur l'Imagerie et Traitement d'Images},
    keywords = {workshop, medical},
    month = {April},
    title = {Volum\'etrie tumorale obtenue \`a partir d'images scannographiques},
    year = {1995} 
    }
    


  8. S. Cotin, H. Delingette, and N. Ayache. New Perspectives for Realistic Simulations of Hepatic Surgery. In Actes du Congrès Mondial de Télémedecine, Toulouse, France, December 1995. Keyword(s): workshop, simulation.
    @inproceedings{Cotin95_toulouse,
    address = {Toulouse, France},
    author = {S. Cotin and H. Delingette and N. Ayache},
    booktitle = {Actes du Congr\`es Mondial de T\'el\'emedecine},
    keywords = {workshop, simulation},
    month = {December},
    title = {New Perspectives for Realistic Simulations of Hepatic Surgery},
    year = {1995} 
    }
    


  9. J. Declerck, G. Subsol, J.-P. Thirion, and N. Ayache. Automatic retrieval of anatomical structures in 3D medical images. In N. Ayache, editor, Proceedings of the Conference on Computer Vision, Virtual Reality and Robotics in Medecine (CVRMed'95), volume 905 of Lecture Notes in Computer Science, Nice (France), pages 153-162, April 1995. Springer.
    @inproceedings{Declerck95.1,
    address = {Nice (France)},
    author = {J. Declerck and G. Subsol and J.-P. Thirion and N. Ayache},
    booktitle = {Proceedings of the Conference on Computer Vision, Virtual Reality and Robotics in Medecine (CVRMed'95)},
    editor = {N. Ayache},
    month = {April},
    pages = {153-162},
    publisher = {Springer},
    series = {Lecture Notes in Computer Science},
    title = {Automatic retrieval of anatomical structures in 3D medical images},
    volume = {905},
    year = {1995} 
    }
    


  10. J. Feldmar, N. Ayache, and F. Betting. 3D-2D projective registration of free-form curves and surfaces. In IEEE Proceedings of the Fifth International Conference on Computer Vision (ICCV'95), Cambridge, Ma, pages 549-556, June 1995.
    @inproceedings{Feldmar1,
    address = {Cambridge, Ma},
    author = {J. Feldmar and N. Ayache and F. Betting},
    booktitle = {IEEE Proceedings of the Fifth International Conference on Computer Vision (ICCV'95)},
    month = {June},
    pages = {549--556},
    title = {3D-2D projective registration of free-form curves and surfaces},
    year = {1995} 
    }
    


  11. S. Fernández-Vidal and G. Malandain. Digital Euclidean skeleton in n-D. In 9th Scandinavian Conference on Image Analysis (SCIA'95), Uppsala, Sweden, pages 517-524, June 1995. IAPR.
    @inproceedings{vidal-al95,
    address = {Uppsala, Sweden},
    author = {S. Fern\'andez-Vidal and G. Malandain},
    booktitle = {9th Scandinavian Conference on Image Analysis (SCIA'95)},
    month = {June},
    organization = {IAPR},
    pages = {517--524},
    title = {Digital Euclidean skeleton in n-D},
    year = {1995} 
    }
    


  12. Márta Fidrich, Jacques Feldmar, and J.-P. Thirion. Topological Changes in Scale Space as a Function of Image Transformations. In Theo Moons, editor, Computer Vision and Applied Geometry, Lecture Notes in Computer Science, Nordfjordeid, Norway, August 1995. Springer.
    @inproceedings{Fidrich95c,
    address = {Nordfjordeid, Norway},
    author = {M\'arta Fidrich and Jacques Feldmar and J.-P. Thirion},
    booktitle = {Computer Vision and Applied Geometry},
    editor = {Theo Moons},
    month = {August},
    publisher = {Springer},
    series = {Lecture Notes in Computer Science},
    title = {Topological Changes in Scale Space as a Function of Image Transformations},
    year = {1995} 
    }
    


  13. Márta Fidrich and J.-P. Thirion. Multiscale Extraction of Features from Medical Images. In V. Hlavác and R. Sára, editors, International Conference on Computer Analysis of Images and Patterns, volume 970 of LNCS, Prague, pages 637-642, September 1995. Keyword(s): scale space.
    @inproceedings{Fidrich95b,
    address = {Prague},
    author = {M\'arta Fidrich and J.-P. Thirion},
    booktitle = {International Conference on Computer Analysis of Images and Patterns},
    editor = {V. Hlav\'ac and R. S\'ara},
    keywords = {scale space},
    month = {September},
    pages = {637-642},
    series = {LNCS},
    title = {Multiscale Extraction of Features from Medical Images},
    volume = {970},
    year = {1995} 
    }
    


  14. Márta Fidrich and J.-P. Thirion. Multiscale Representation and Analysis of Features from Medical Images. In N. Ayache, editor, Proceedings of the Conference on Computer Vision, Virtual Reality and Robotics in Medecine (CVRMed'95), volume 905 of Lecture Notes in Computer Science, Nice, pages 358-364, April 1995. Springer. Keyword(s): scale space.
    @inproceedings{Fidrich95a,
    address = {Nice},
    author = {M\'arta Fidrich and J.-P. Thirion},
    booktitle = {Proceedings of the Conference on Computer Vision, Virtual Reality and Robotics in Medecine (CVRMed'95)},
    editor = {N. Ayache},
    keywords = {scale space},
    month = {April},
    pages = {358-364},
    publisher = {Springer},
    series = {Lecture Notes in Computer Science},
    title = {Multiscale Representation and Analysis of Features from Medical Images},
    volume = {905},
    year = {1995} 
    }
    


  15. M.L. Goris, G. Malandain, and I. Marque. Automatic registration of Myocardial Perfusion study using a Potential Based Rigid Transformation. In 2nd International Conference of Nuclear Cardiology, Cannes France, April 1995. Note: Also in Journal of Nuclear Cardiology 1995; 2: S82.
    @inproceedings{goris-al95,
    address = {Cannes France},
    author = {M.L. Goris and G. Malandain and I. Marque},
    booktitle = {2nd International Conference of Nuclear Cardiology},
    month = {April},
    note = {also in Journal of Nuclear Cardiology 1995; 2: S82},
    title = {Automatic registration of Myocardial Perfusion study using a Potential Based Rigid Transformation},
    year = {1995} 
    }
    


  16. G. Malandain and S. Fernández-Vidal. Topologically correct skeleton in $n-D$. In 5th Discrete Geometry for Computer Imagery (DGCI'95), Clermont-Ferrand, France, pages 199-208, September 1995.
    @inproceedings{malandain-al95d,
    address = {Clermont-Ferrand, France},
    author = {G. Malandain and S. Fern\'andez-Vidal},
    booktitle = {5th Discrete Geometry for Computer Imagery (DGCI'95)},
    month = {September},
    pages = {199--208},
    title = {Topologically correct skeleton in $n-D$},
    year = {1995} 
    }
    


  17. Xavier Pennec and Jean-Philippe Thirion. Validation of 3D Registration Methods based on Points and Frames. In Proc. of the 5th Int. Conf on Comp. Vision (ICCV'95), Cambridge, Ma, pages 557-562, June 1995. Note: Published in Int. J. of Comp. Vision 25(3), 1997, p. 203-229. Keyword(s): registration, matching, uncertainty, validation.
    @inproceedings{Pennec:ICCV:95,
    address = {Cambridge, Ma},
    author = {Xavier Pennec and Jean-Philippe Thirion},
    booktitle = {Proc. of the 5th Int. Conf on Comp. Vision (ICCV'95)},
    doi = {10.1109/ICCV.1995.466890},
    keywords = {registration, matching, uncertainty, validation},
    month = {June},
    note = {Published in Int. J. of Comp. Vision 25(3), 1997, p. 203-229},
    pages = {557--562},
    postscript = {https://www-sop.inria.fr/asclepios/Publications/Xavier.Pennec/Pennec.ICCV95.ps.gz},
    title = {Validation of 3D Registration Methods based on Points and Frames},
    year = {1995} 
    }
    


  18. G. Quatrehomme, H. Delingette, S. Cotin, G. Subsol, M. Fidrich, P. Bailet, G. Grevin, and A. Ollier. A Fully Tridimensional Method for Facial Reconstruction based on Deformable Models. In International Association for Craniofacial Identification, November 1995. Keyword(s): workshop, medical.
    @inproceedings{Cotin95,
    author = {G. Quatrehomme and H. Delingette and S. Cotin and G. Subsol and M. Fidrich and P. Bailet and G. Grevin and A. Ollier},
    booktitle = {International Association for Craniofacial Identification},
    keywords = {workshop, medical},
    month = {November},
    title = {A Fully Tridimensional Method for Facial Reconstruction based on Deformable Models},
    year = {1995} 
    }
    


  19. G. Subsol, J.-P. Thirion, and N. Ayache. A General Scheme for Automatically Building 3D Morphometric Anatomical Atlases: application to a Skull Atlas. In Proceedings of the Conference on Medical Robotics and Computer Assisted Surgery (MRCAS'95), Baltimore, November 1995. Keyword(s): registration, matching, atlas.
    @inproceedings{Subsol95.2,
    address = {Baltimore},
    author = {G. Subsol and J.-P. Thirion and N. Ayache},
    booktitle = {Proceedings of the Conference on Medical Robotics and Computer Assisted Surgery (MRCAS'95)},
    keywords = {registration, matching, atlas},
    month = {November},
    title = {A General Scheme for Automatically Building 3D Morphometric Anatomical Atlases: application to a Skull Atlas},
    year = {1995} 
    }
    


  20. J.-P. Thirion. Fast Non-Rigid Matching of 3D Medical Images. In Proceedings of the Conference on Medical Robotics and Computer Assisted Surgery (MRCAS'95), Baltimore, November 1995. Keyword(s): registration, matching, deformations.
    @inproceedings{Thirion95d,
    address = {Baltimore},
    author = {J.-P. Thirion},
    booktitle = {Proceedings of the Conference on Medical Robotics and Computer Assisted Surgery (MRCAS'95)},
    keywords = {registration, matching, deformations},
    month = {November},
    title = {Fast Non-Rigid Matching of 3D Medical Images},
    year = {1995} 
    }
    


  21. J.-P. Thirion. Software to Assist in Monitoring Treatment. In IBC's 3rd Annual Multiple Sclerosis Conference, Boston, May 1995.
    @inproceedings{Thirion95e,
    address = {Boston},
    author = {J.-P. Thirion},
    booktitle = {IBC's 3rd Annual Multiple Sclerosis Conference},
    month = {May},
    title = {Software to Assist in Monitoring Treatment},
    year = {1995} 
    }
    


Internal reports

  1. E. Bardinet, L.D. Cohen, and N. Ayache. A parametric deformable model to fit unstructured 3D data. Research report RR-2617, INRIA, July 1995.
    @techreport{BCA95b,
    author = {E. Bardinet and L.D. Cohen and N. Ayache},
    hal-identifiant = {inria-00074068},
    institution = {INRIA},
    month = {July},
    number = {RR-2617},
    title = {A parametric deformable model to fit unstructured 3D data},
    type = {Research report},
    url-hal = {http://hal.inria.fr/inria-00074068/en/},
    url-publisher = {http://www.inria.fr/rrrt/rr-2617.html},
    year = {1995} 
    }
    


  2. J. Declerck, G. Subsol, J.-P. Thirion, and N. Ayache. Automatic Retrieval of Anatomical Structures in 3D Medical Images. Research report RR-2485, INRIA, February 1995.
    @techreport{Declerck-95.1,
    author = {J. Declerck and G. Subsol and J.-P. Thirion and N. Ayache},
    hal-identifiant = {inria-00074190},
    institution = {INRIA},
    month = {February},
    number = {RR-2485},
    pages = {153-162},
    title = {Automatic Retrieval of Anatomical Structures in 3D Medical Images},
    type = {Research report},
    url-hal = {http://hal.inria.fr/inria-00074190/en/},
    year = {1995} 
    }
    


  3. G. Malandain, S. Fernández-Vidal, and J.-M. Rocchisani. Physically Based Rigid Registration of 3-D Free-Form Objects: Application to Medical Imaging. Research report RR-2453, INRIA, January 1995.
    @techreport{malandain-al95a,
    author = {G. Malandain and S. Fern\'andez-Vidal and J.-M. Rocchisani},
    hal-identifiant = {inria-00074222},
    institution = {INRIA},
    month = {January},
    number = {RR-2453},
    title = {Physically Based Rigid Registration of 3-D Free-Form Objects: Application to Medical Imaging},
    type = {Research report},
    url-hal = {http://hal.inria.fr/inria-00074222/en/},
    url-publisher = {http://www.inria.fr/rapports/sophia/RR-2453.html},
    year = {1995} 
    }
    


  4. Xavier Pennec and Jean-Philippe Thirion. Validation of 3D Registration Methods based on Points and Frames. Research report RR-2470, INRIA, January 1995. Note: Published in Int. J. of Comp. Vision 25(3), 1997, p. 203-229. Keyword(s): registration, matching, uncertainty, validation.
    @techreport{Pennec:RR:95,
    author = {Xavier Pennec and Jean-Philippe Thirion},
    hal-identifiant = {inria-00074205},
    institution = {INRIA},
    keywords = {registration, matching, uncertainty, validation},
    month = {January},
    note = {Published in Int. J. of Comp. Vision 25(3), 1997, p. 203-229},
    number = {RR-2470},
    title = {Validation of 3D Registration Methods based on Points and Frames},
    type = {Research report},
    url-hal = {http://hal.inria.fr/inria-00074205/en/},
    url-publisher = {http://www.inria.fr/rrrt/rr-2470.html},
    year = {1995} 
    }
    


  5. G. Subsol, J.-P. Thirion, and N. Ayache. A General Scheme for Automatically Building 3D Morphometric Anatomical Atlases: application to a Skull Atlas. Research report RR-2586, INRIA, March 1995. Keyword(s): registration, matching, atlas.
    @techreport{Subsol95.1,
    author = {G. Subsol and J.-P. Thirion and N. Ayache},
    hal-identifiant = {inria-00074098},
    institution = {INRIA},
    keywords = {registration, matching, atlas},
    month = {March},
    number = {RR-2586},
    title = {A General Scheme for Automatically Building 3D Morphometric Anatomical Atlases: application to a Skull Atlas},
    type = {Research report},
    url-hal = {http://hal.inria.fr/inria-00074098/en/},
    year = {1995} 
    }
    


  6. J.-P. Thirion. Fast Non-Rigid Matching of 3D Medical Images. Research report RR-2547, INRIA, May 1995. Keyword(s): registration, matching, deformations.
    @techreport{Thirion95a,
    author = {J.-P. Thirion},
    hal-identifiant = {inria-00077268},
    institution = {INRIA},
    keywords = {registration, matching, deformations},
    month = {May},
    number = {RR-2547},
    title = {Fast Non-Rigid Matching of 3D Medical Images},
    type = {Research report},
    url-hal = {http://hal.inria.fr/inria-00077268/en/},
    year = {1995} 
    }
    


Miscellaneous

  1. F. Schikli, H. Delingette, B. Padovani, C. Maestro, N. Ayache, and J.N. Bruneton. Tomodensimétrie et volumétrie tumorale. Actes des Journées Française de la radiologie (JFR'95), October 1995. Keyword(s): workshop, medical.
    @misc{delingette_jfr95,
    author = {F. Schikli and H. Delingette and B. Padovani and C. Maestro and N. Ayache and J.N. Bruneton},
    howpublished = {Actes des Journ\'ees Fran\c{c}aise de la radiologie (JFR'95)},
    keywords = {workshop, medical},
    month = {October},
    title = {Tomodensim\'etrie et volum\'etrie tumorale},
    year = {1995} 
    }
    



BACK TO INDEX

Disclaimer:

This material is presented to ensure timely dissemination of scholarly and technical work. Copyright and all rights therein are retained by authors or by other copyright holders. All person copying this information are expected to adhere to the terms and constraints invoked by each author's copyright. In most cases, these works may not be reposted without the explicit permission of the copyright holder.

Les documents contenus dans ces répertoires sont rendus disponibles par les auteurs qui y ont contribué en vue d'assurer la diffusion à temps de travaux savants et techniques sur une base non-commerciale. Les droits de copie et autres droits sont gardés par les auteurs et par les détenteurs du copyright, en dépit du fait qu'ils présentent ici leurs travaux sous forme électronique. Les personnes copiant ces informations doivent adhérer aux termes et contraintes couverts par le copyright de chaque auteur. Ces travaux ne peuvent pas être rendus disponibles ailleurs sans la permission explicite du détenteur du copyright.

Last modified: Mon Nov 18 12:30:11 2024
Author: epione-publi.

This document was translated from BibTEX by bibtex2html