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Publications of year 1998

Books and proceedings

  1. E. Cuchet and G. Subsol, editors. Model-Based 3D Image Analysis, IIT, Mumbai (Inde), 1998. IEEE Computer Society.
    @proceedings{MB3IA98,
    address = {IIT, Mumbai (Inde)},
    editor = {E. Cuchet and G. Subsol},
    organization = {IEEE Computer Society},
    title = {Model-Based 3D Image Analysis},
    year = {1998} 
    }
    


  2. J. L. Dugelay, G. Eude, and G. Subsol, editors. 6èmes Journées de Travail du GT Réalité Virtuelle, Issy-les-Moulineaux (France), 1998.
    @proceedings{JTGTRV6.98,
    address = {Issy-les-Moulineaux (France)},
    editor = {J. L. Dugelay and G. Eude and G. Subsol},
    title = {6\`emes Journ\'ees de Travail du GT R\'ealit\'e Virtuelle},
    url = {http://www.inria.fr/epidaure/GT-RV/gt-rv.html},
    year = {1998} 
    }
    


Thesis

  1. L. Soler. Une nouvelle méthode de segmentation des structures anatomiques et pathologiques : application aux angioscanners 3D du foie pour la planification chirurgicale. Thèse de sciences, université de Paris XI, Orsay, November 1998.
    @phdthesis{Soler:these:1998,
    author = {L. Soler},
    month = {November},
    school = {universit\'e de Paris XI, Orsay},
    title = {Une nouvelle m\'ethode de segmentation des structures anatomiques et pathologiques : application aux angioscanners 3D du foie pour la planification chirurgicale},
    type = {Th\`ese de sciences},
    url-publisher = {http://www.inria.fr/rrrt/tu-0566.html},
    year = {1998} 
    }
    


Articles in journal, book chapters

  1. Nicholas Ayache. L'analyse automatique des images médicales, état de l'art et perspectives. Annales de l'Institut Pasteur, 9(1):13-21, avril--juin 1998. Note: Numéro spécial sur les progrès récents de l'imagerie médicale.
    @article{ayache-pasteur98,
    author = {Nicholas Ayache},
    journal = {Annales de l'Institut Pasteur},
    month = {avril--juin},
    note = {num\'ero sp\'ecial sur les progr\`es r\'ecents de l'imagerie m\'edicale},
    number = {1},
    pages = {13--21},
    publisher = {Elsevier},
    title = {L'analyse automatique des images m\'edicales, \'etat de l'art et perspectives},
    volume = {9},
    year = {1998} 
    }
    


  2. N. Ayache, S. Cotin, H. Delingette, J.-M. Clément, J. Marescaux, and M. Nord. Simulation of Endoscopic Surgery. Journal of Minimally Invasive Therapy and Allied Technologies (MITAT), 7(2):71-77, July 1998. Keyword(s): journal, simulation.
    @article{cotin_mitat,
    author = {N. Ayache and S. Cotin and H. Delingette and J.-M. Cl\'ement and J. Marescaux and M. Nord},
    journal = {Journal of Minimally Invasive Therapy and Allied Technologies (MITAT)},
    keywords = {journal, simulation},
    month = {July},
    number = {2},
    pages = {71-77},
    title = {Simulation of Endoscopic Surgery},
    url = {https://www-sop.inria.fr/asclepios/Publications/Herve.Delingette/mitat.pdf},
    volume = {7},
    year = {1998} 
    }
    


  3. Eric Bardinet, Laurent D. Cohen, and Nicholas Ayache. A parametric deformable model to fit unstructured 3D data. Computer Vision and Image Understanding, 71(1):39-54, 1998.
    @article{Bardinet:CVIU:98,
    author = {Eric Bardinet and Laurent D. Cohen and Nicholas Ayache},
    journal = {Computer Vision and Image Understanding},
    number = {1},
    pages = {39--54},
    title = {A parametric deformable model to fit unstructured 3D data},
    url = {https://www-sop.inria.fr/asclepios/Publications/Misc/CVIU_Bardinet.pdf},
    volume = {71},
    year = {1998} 
    }
    


  4. Serge Benayoun and Nicholas Ayache. Dense non-rigid motion estimation in sequences of medical images using differential constraints. International Journal of Computer Vision, 26(1):25-40, 1998. Keyword(s): registration, matching, deformations, motion tracking.
    @article{Benayoun:IJCV:98,
    author = {Serge Benayoun and Nicholas Ayache},
    journal = {International Journal of Computer Vision},
    keywords = {registration, matching, deformations, motion tracking},
    number = {1},
    pages = {25--40},
    title = {Dense non-rigid motion estimation in sequences of medical images using differential constraints},
    url = {https://www-sop.inria.fr/asclepios/Publications/Nicholas.Ayache/BenayounIJCV1998.pdf},
    volume = {26},
    year = {1998} 
    }
    


  5. J. Declerck, J. Feldmar, and N. Ayache. Definition of a four-dimensional continuous planispheric transformation for the tracking and the analysis of left-ventricle motion. Medical Image Analysis, 2(2):197-213, June 1998. Keyword(s): Motion tracking, Heart, 4D.
    @article{Declerck-98.6,
    author = {J. Declerck and J. Feldmar and N. Ayache},
    journal = {Medical Image Analysis},
    keywords = {Motion tracking, Heart, 4D},
    month = {June},
    number = {2},
    pages = {197-213},
    title = {Definition of a four-dimensional continuous planispheric transformation for the tracking and the analysis of left-ventricle motion},
    url = {https://www-sop.inria.fr/asclepios/Publications/Misc/MEDIA2_2.2.pdf},
    volume = {2},
    year = {1998} 
    }
    


  6. H. Delingette. Towards Realistic Soft Tissue Modeling in Medical Simulation. Proceedings of the IEEE, pp 512-523, April 1998. Note: Special Issue on Surgery Simulation. Keyword(s): journal, simulation.
    @article{delingette_ieee98,
    author = {H. Delingette},
    journal = {Proceedings of the IEEE},
    keywords = {journal, simulation},
    month = {April},
    note = {Special Issue on Surgery Simulation},
    pages = {512--523},
    title = {Towards Realistic Soft Tissue Modeling in Medical Simulation},
    url = {https://www-sop.inria.fr/asclepios/Publications/Herve.Delingette/ieee-proceedings98.pdf},
    year = {1998} 
    }
    


  7. Márta Fidrich. Iso-surface Extraction in $n$-D applied to Tracking Feature Curves across Scale. Image and Vision Computing, 16(8):545-556, 1998.
    @article{Fidrich98d,
    author = {M\'arta Fidrich},
    journal = {Image and Vision Computing},
    number = {8},
    pages = {545-556},
    title = {Iso-surface Extraction in $n$-D applied to Tracking Feature Curves across Scale},
    volume = {16},
    year = {1998} 
    }
    


  8. Márta Fidrich and Jean-Philippe Thirion. Stability of Corner Points in Scale Space: The Effect of Small Non-Rigid Deformations. Computer Vision and Image Understanding, 72(1):72-83, 1998.
    @article{Fidrich98b,
    author = {M\'arta Fidrich and Jean-Philippe Thirion},
    journal = {Computer Vision and Image Understanding},
    number = {1},
    pages = {72--83},
    title = {Stability of Corner Points in Scale Space: The Effect of Small Non-Rigid Deformations},
    volume = {72},
    year = {1998} 
    }
    


  9. G. Malandain and S. Fernández-Vidal. Euclidean Skeletons. Image and Vision Computing, 16(5):317-327, April 1998.
    @article{malandain-vidal98,
    author = {G. Malandain and S. Fern\'andez-Vidal},
    journal = {Image and Vision Computing},
    month = {April},
    number = {5},
    pages = {317--327},
    postscript = {https://www-sop.inria.fr/asclepios/Publications/Gregoire.Malandain/malandain-ivc-1998.ps.gz},
    title = {Euclidean Skeletons},
    volume = {16},
    year = {1998} 
    }
    


  10. J Marescaux, J M Clement, V Tassetti, C Koehl, S Cotin, Y Russier, D Mutter, H Delingette, and N Ayache. Virtual reality applied to hepatic surgery simulation: the next revolution. Annals of Surgery, 228(5):627-34, November 1998. Keyword(s): Computer Simulation, Digestive System Surgical Procedures, methods, Image Processing Computer-Assisted, Liver, surgery, Support Non-U.S. Gov't, journal, simulation.
    Abstract:
    OBJECTIVE: This article describes a preliminary work on virtual reality applied to liver surgery and discusses the repercussions of assisted surgical strategy and surgical simulation on tomorrow's surgery. SUMMARY BACKGROUND DATA: Liver surgery is considered difficult because of the complexity and variability of the organ. Common generic tools for presurgical medical image visualization do not fulfill the requirements for the liver, restricting comprehension of a patient's specific liver anatomy. METHODS: Using data from the National Library of Medicine, a realistic three-dimensional image was created, including the envelope and the four internal arborescences. A computer interface was developed to manipulate the organ and to define surgical resection planes according to internal anatomy. The first step of surgical simulation was implemented, providing the organ with real-time deformation computation. RESULTS: The three-dimensional anatomy of the liver could be clearly visualized. The virtual organ could be manipulated and a resection defined depending on the anatomic relations between the arborescences, the tumor, and the external envelope. The resulting parts could also be visualized and manipulated. The simulation allowed the deformation of a liver model in real time by means of a realistic laparoscopic tool. CONCLUSIONS: Three-dimensional visualization of the organ in relation to the pathology is of great help to appreciate the complex anatomy of the liver. Using virtual reality concepts (navigation, interaction, and immersion), surgical planning, training, and teaching for this complex surgical procedure may be possible. The ability to practice a given gesture repeatedly will revolutionize surgical training, and the combination of surgical planning and simulation will improve the efficiency of intervention, leading to optimal care delivery.

    @article{marescaux:as:1998,
    abstract = {OBJECTIVE: This article describes a preliminary work on virtual reality applied to liver surgery and discusses the repercussions of assisted surgical strategy and surgical simulation on tomorrow's surgery. SUMMARY BACKGROUND DATA: Liver surgery is considered difficult because of the complexity and variability of the organ. Common generic tools for presurgical medical image visualization do not fulfill the requirements for the liver, restricting comprehension of a patient's specific liver anatomy. METHODS: Using data from the National Library of Medicine, a realistic three-dimensional image was created, including the envelope and the four internal arborescences. A computer interface was developed to manipulate the organ and to define surgical resection planes according to internal anatomy. The first step of surgical simulation was implemented, providing the organ with real-time deformation computation. RESULTS: The three-dimensional anatomy of the liver could be clearly visualized. The virtual organ could be manipulated and a resection defined depending on the anatomic relations between the arborescences, the tumor, and the external envelope. The resulting parts could also be visualized and manipulated. The simulation allowed the deformation of a liver model in real time by means of a realistic laparoscopic tool. CONCLUSIONS: Three-dimensional visualization of the organ in relation to the pathology is of great help to appreciate the complex anatomy of the liver. Using virtual reality concepts (navigation, interaction, and immersion), surgical planning, training, and teaching for this complex surgical procedure may be possible. The ability to practice a given gesture repeatedly will revolutionize surgical training, and the combination of surgical planning and simulation will improve the efficiency of intervention, leading to optimal care delivery.},
    author = {J Marescaux and J M Clement and V Tassetti and C Koehl and S Cotin and Y Russier and D Mutter and H Delingette and N Ayache},
    journal = {Annals of Surgery},
    keywords = {Computer Simulation, Digestive System Surgical Procedures, methods, Image Processing Computer-Assisted, Liver, surgery, Support Non-U.S. Gov't, journal, simulation},
    month = {November},
    number = {5},
    pages = {627-34},
    title = {Virtual reality applied to hepatic surgery simulation: the next revolution},
    volume = {228},
    year = {1998} 
    }
    


  11. J Marescaux, J M Clement, M Vix, Y Russier, V Tassetti, D Mutter, S Cotin, and N Ayache. [A new concept in surgery of the digestive tract: surgical procedure assisted by computer, from virtual reality to telemanipulation]. Chirurgie, 123(1):16-24, February 1998. Note: In french. Keyword(s): Anatomy Cross-Sectional, Computer Simulation, English Abstract, Forecasting, Hepatectomy, instrumentation, Human, Image Processing Computer-Assisted, instrumentation, Liver Neoplasms, surgery, Phantoms Imaging, Robotics, instrumentation, Surgical Procedures Operative, trends, User-Computer Interface.
    Abstract:
    Surgical simulation increasingly appears to be an essential aspect of tomorrow's surgery. The development of a hepatic surgery simulator is an advanced concept calling for a new writing system which will transform the medical world: virtual reality. Virtual reality extends the perception of our five senses by representing more than the real state of things by the means of computer sciences and robotics. It consists of three concepts: immersion, navigation and interaction. Three reasons have led us to develop this simulator: the first is to provide the surgeon with a comprehensive visualisation of the organ. The second reasons is to allow for planning and surgical simulation that could be compared with the detailed flight-plan for a commercial jet pilot. The third lies in the fact that virtual reality is an integrated part of the concept of computer assisted surgical procedure. The project consists of a sophisticated simulator which must include five requirements: a) visual fidelity, b) interactivity, c) physical properties, d) physiological properties, e) sensory input and output. In this report we describe how to obtain a realistic 3D model of the liver from bi-dimensional 2D medical images for anatomical and surgical training. The introduction of a tumor and the consequent planning and virtual resection is also described, as are force feedback and real-time interaction.

    @article{marescaux:chirurgie:1998,
    abstract = {Surgical simulation increasingly appears to be an essential aspect of tomorrow's surgery. The development of a hepatic surgery simulator is an advanced concept calling for a new writing system which will transform the medical world: virtual reality. Virtual reality extends the perception of our five senses by representing more than the real state of things by the means of computer sciences and robotics. It consists of three concepts: immersion, navigation and interaction. Three reasons have led us to develop this simulator: the first is to provide the surgeon with a comprehensive visualisation of the organ. The second reasons is to allow for planning and surgical simulation that could be compared with the detailed flight-plan for a commercial jet pilot. The third lies in the fact that virtual reality is an integrated part of the concept of computer assisted surgical procedure. The project consists of a sophisticated simulator which must include five requirements: a) visual fidelity, b) interactivity, c) physical properties, d) physiological properties, e) sensory input and output. In this report we describe how to obtain a realistic 3D model of the liver from bi-dimensional 2D medical images for anatomical and surgical training. The introduction of a tumor and the consequent planning and virtual resection is also described, as are force feedback and real-time interaction.},
    author = {J Marescaux and J M Clement and M Vix and Y Russier and V Tassetti and D Mutter and S Cotin and N Ayache},
    journal = {Chirurgie},
    keywords = {Anatomy Cross-Sectional, Computer Simulation, English Abstract, Forecasting, Hepatectomy, instrumentation, Human, Image Processing Computer-Assisted, instrumentation, Liver Neoplasms, surgery, Phantoms Imaging, Robotics, instrumentation, Surgical Procedures Operative, trends, User-Computer Interface},
    month = {February},
    note = {in french},
    number = {1},
    pages = {16-24},
    title = {[A new concept in surgery of the digestive tract: surgical procedure assisted by computer, from virtual reality to telemanipulation]},
    volume = {123},
    year = {1998} 
    }
    


  12. J. Montagnat and H. Delingette. Globally constrained deformable models for 3D object reconstruction. Signal Processing, 71(2):173-186, 1998. Keyword(s): journal, reconstruction.
    @article{Montagnat-SPAIJ98,
    author = {J. Montagnat and H. Delingette},
    journal = {Signal Processing},
    keywords = {journal, reconstruction},
    number = {2},
    pages = {173--186},
    title = {Globally constrained deformable models for 3D object reconstruction},
    url = {https://www-sop.inria.fr/asclepios/Publications/Herve.Delingette/spaij.pdf},
    volume = {71},
    year = {1998} 
    }
    


  13. Xavier Pennec. Toward a generic framework for recognition based on uncertain geometric features. Videre: Journal of Computer Vision Research, 1(2):58-87, 1998. Keyword(s): registration, matching, uncertainty.
    @article{Pennec:Videre:98,
    author = {Xavier Pennec},
    journal = {Videre: Journal of Computer Vision Research},
    keywords = {registration, matching, uncertainty},
    number = {2},
    pages = {58--87},
    title = {Toward a generic framework for recognition based on uncertain geometric features},
    url = {http://mitpress.mit.edu/e-journals/Videre/001/articles/v1n2003.pdf},
    url-publisher = {http://mitpress.mit.edu/e-journals/Videre/001/v12.html},
    volume = {1},
    year = {1998} 
    }
    


  14. Xavier Pennec and Nicholas Ayache. A geometric algorithm to find small but highly similar 3D substructures in proteins. Bioinformatics, 14(6):516-522, 1998. Keyword(s): registration, matching, protein structure.
    @article{Pennec:CABIOS:98,
    author = {Xavier Pennec and Nicholas Ayache},
    doi = {10.1093/bioinformatics/14.6.516},
    journal = {Bioinformatics},
    keywords = {registration, matching, protein structure},
    number = {6},
    pages = {516--522},
    pmid = {9694990},
    postscript = {https://www-sop.inria.fr/asclepios/Publications/Xavier.Pennec/Pennec.Bioinformatics98.official.ps.gz},
    title = {A geometric algorithm to find small but highly similar 3D substructures in proteins},
    url = {https://www-sop.inria.fr/asclepios/Publications/Xavier.Pennec/Pennec.Bioinformatics98.pdf},
    url-publisher = {http://bioinformatics.oxfordjournals.org/cgi/content/abstract/14/6/516},
    volume = {14},
    year = {1998} 
    }
    


  15. Xavier Pennec and Nicholas Ayache. Uniform distribution, distance and expectation problems for geometric features processing. Journal of Mathematical Imaging and Vision, 9(1):49-67, July 1998. Note: A preliminary version appeared as INRIA Research Report 2820, March 1996. Keyword(s): statistics, geometry, Riemannian geometry.
    @article{Pennec:JMIV:98,
    author = {Xavier Pennec and Nicholas Ayache},
    doi = {10.1023/A:1008270110193},
    hal-identifiant = {inria-00615085},
    journal = {Journal of Mathematical Imaging and Vision},
    keywords = {statistics, geometry, Riemannian geometry},
    month = {July},
    note = {A preliminary version appeared as INRIA Research Report 2820, March 1996.},
    number = {1},
    pages = {49--67},
    postscript = {https://www-sop.inria.fr/asclepios/Publications/Xavier.Pennec/Pennec.JMIV98.ps.gz},
    title = {Uniform distribution, distance and expectation problems for geometric features processing},
    url = {https://www-sop.inria.fr/asclepios/Publications/Xavier.Pennec/Pennec.JMIV98.pdf},
    url-hal = {https://hal.inria.fr/inria-00615085},
    url-publisher = {http://www.springerlink.com/openurl.asp?genre=article&issn=0924-9907&volume=9&issue=1&spage=49},
    volume = {9},
    year = {1998} 
    }
    


  16. L. Robert and G. Malandain. Fast Binary Image Processing Using Binary Decision Diagrams. Computer Vision and Image Understanding, 72(1):1-9, October 1998.
    @article{robert-al98,
    author = {L. Robert and G. Malandain},
    journal = {Computer Vision and Image Understanding},
    month = {October},
    number = {1},
    pages = {1--9},
    title = {Fast Binary Image Processing Using Binary Decision Diagrams},
    volume = {72},
    year = {1998} 
    }
    


  17. L. Soler, G. Malandain, and H. Delingette. Segmentation automatique : application aux angioscanners 3D du foie. Traitement du signal, 15(5):411-431, 1998. Keyword(s): journal, reconstruction.
    @article{soler-tsi98,
    author = {L. Soler and G. Malandain and H. Delingette},
    journal = {Traitement du signal},
    keywords = {journal, reconstruction},
    number = {5},
    pages = {411-431},
    title = {Segmentation automatique : application aux angioscanners 3D du foie},
    volume = {15},
    year = {1998} 
    }
    


  18. G. Subsol, J.-Ph. Thirion, and N. Ayache. A Scheme for Automatically Building 3D Morphometric Anatomical Atlases: application to a Skull Atlas. Medical Image Analysis, 2(1):37-60, 1998. Keyword(s): registration, matching, atlas, deformations, Algorithms, Anatomy Artistic, methods, Comparative Study, Craniofacial Abnormalities, pathology, Diagnosis Computer-Assisted, methods, Human, Medical Illustration, Skull, anatomy & histology.
    Abstract:
    We present a general scheme for automatically building a morphometric anatomical atlas. We detail each stage of the method, including the non-rigid registration algorithm, three-dimensional line averaging and statistical processes. We apply the method to obtain a quantitative atlas of skull crest lines. Finally, we use the resulting atlas to study a craniofacial disease; we show how we can obtain qualitative and quantitative results by contrasting a skull affected by a mandible deformation with the atlas.

    @article{Subsol98,
    abstract = {We present a general scheme for automatically building a morphometric anatomical atlas. We detail each stage of the method, including the non-rigid registration algorithm, three-dimensional line averaging and statistical processes. We apply the method to obtain a quantitative atlas of skull crest lines. Finally, we use the resulting atlas to study a craniofacial disease; we show how we can obtain qualitative and quantitative results by contrasting a skull affected by a mandible deformation with the atlas.},
    author = {G. Subsol and J.-Ph. Thirion and N. Ayache},
    journal = {Medical Image Analysis},
    keywords = {registration, matching, atlas, deformations, Algorithms, Anatomy Artistic, methods, Comparative Study, Craniofacial Abnormalities, pathology, Diagnosis Computer-Assisted, methods, Human, Medical Illustration, Skull, anatomy & histology},
    number = {1},
    pages = {37-60},
    title = {A Scheme for Automatically Building 3D Morphometric Anatomical Atlases: application to a Skull Atlas},
    url = {https://www-sop.inria.fr/asclepios/Publications/Nicholas.Ayache/SubsolMedia1998.pdf},
    volume = {2},
    year = {1998} 
    }
    


  19. J.-P. Thirion. Image matching as a diffusion process: an analogy with Maxwell's demons. Medical Image Analysis, 2(3):243-260, 1998. Keyword(s): registration, matching, deformations, Algorithms, Animals, Brain, anatomy & histology, Computer Simulation, Diagnostic Imaging, methods, Dogs, Heart, anatomy & histology, Human, Image Processing Computer-Assisted, methods, Models Theoretical, Thermodynamics.
    Abstract:
    In this paper, we present the concept of diffusing models to perform image-to-image matching. Having two images to match, the main idea is to consider the objects boundaries in one image as semi-permeable membranes and to let the other image, considered as a deformable grid model, diffuse through these interfaces, by the action of effectors situated within the membranes. We illustrate this concept by an analogy with Maxwell's demons. We show that this concept relates to more traditional ones, based on attraction, with an intermediate step being optical flow techniques. We use the concept of diffusing models to derive three different non-rigid matching algorithms, one using all the intensity levels in the static image, one using only contour points, and a last one operating on already segmented images. Finally, we present results with synthesized deformations and real medical images, with applications to heart motion tracking and three-dimensional inter-patients matching.

    @article{Thirion98,
    abstract = {In this paper, we present the concept of diffusing models to perform image-to-image matching. Having two images to match, the main idea is to consider the objects boundaries in one image as semi-permeable membranes and to let the other image, considered as a deformable grid model, diffuse through these interfaces, by the action of effectors situated within the membranes. We illustrate this concept by an analogy with Maxwell's demons. We show that this concept relates to more traditional ones, based on attraction, with an intermediate step being optical flow techniques. We use the concept of diffusing models to derive three different non-rigid matching algorithms, one using all the intensity levels in the static image, one using only contour points, and a last one operating on already segmented images. Finally, we present results with synthesized deformations and real medical images, with applications to heart motion tracking and three-dimensional inter-patients matching.},
    author = {J.-P. Thirion},
    journal = {Medical Image Analysis},
    keywords = {registration, matching, deformations, Algorithms, Animals, Brain, anatomy & histology, Computer Simulation, Diagnostic Imaging, methods, Dogs, Heart, anatomy & histology, Human, Image Processing Computer-Assisted, methods, Models Theoretical, Thermodynamics},
    number = {3},
    pages = {243--260},
    title = {Image matching as a diffusion process: an analogy with Maxwell's demons},
    url = {https://www-sop.inria.fr/asclepios/Publications/Gregoire.Malandain/thirion-media-1998.pdf},
    volume = {2},
    year = {1998} 
    }
    


  20. Nicholas Ayache, Stephane Cotin, and Hervé Delingette. Surgery Simulation with visual and haptic feedback. In Y. Shirai and S. Hirose, editors, Robotics Research, the Eigth International Symposium, pages 311-316. Springer, 1998. Keyword(s): workshop, simulation.
    @incollection{ayache-isrr98,
    author = {Nicholas Ayache and Stephane Cotin and Herv\'e Delingette},
    booktitle = {Robotics Research, the Eigth International Symposium},
    editor = {Y. Shirai and S. Hirose},
    keywords = {workshop, simulation},
    pages = {311--316},
    publisher = {Springer},
    title = {Surgery Simulation with visual and haptic feedback},
    year = {1998} 
    }
    


  21. G. Subsol. Crest Lines for Curve Based Warping. In A. W. Toga, editor, Brain Warping, chapter 13, pages 225-246. Academic Press, 1998.
    @incollection{Subsol98.2,
    author = {G. Subsol},
    booktitle = {Brain Warping},
    chapter = {13},
    editor = {A. W. Toga},
    pages = {225-246},
    publisher = {Academic Press},
    title = {Crest Lines for Curve Based Warping},
    year = {1998} 
    }
    


  22. J.-P. Thirion. Diffusing Models and Applications. In A. W. Toga, editor, Brain Warping, chapter 9, pages 143-155. Academic Press, 1998. Keyword(s): registration, matching.
    @incollection{Thirion98b,
    author = {J.-P. Thirion},
    booktitle = {Brain Warping},
    chapter = {9},
    editor = {A. W. Toga},
    keywords = {registration, matching},
    pages = {143--155},
    publisher = {Academic Press},
    title = {Diffusing Models and Applications},
    year = {1998} 
    }
    


Conference articles

  1. Nicholas Ayache. Medical Image Analysis: a challenge for computer vision research. In Int. Conf. on Pattern Recognition, ICPR'98, Brisbane, Australie, pages 1255-1256, August 1998. IEEE.
    @inproceedings{ayache-icpr98,
    address = {Brisbane, Australie},
    author = {Nicholas Ayache},
    booktitle = {Int. Conf. on Pattern Recognition, ICPR'98},
    month = {August},
    pages = {1255--1256},
    publisher = {IEEE},
    title = {Medical Image Analysis: a challenge for computer vision research},
    year = {1998} 
    }
    


  2. G. Calmon, N. Roberts, P.R. Eldridge, and J.-P. Thirion. Automatic quantification of changes in the volume of brain structures. In Proc. of First Int. Conf. on Medical Image Computing and Computer-Assisted Intervention (MICCAI'98), number 1496 of LNCS, Cambridge, USA, pages 769-769, October 1998. Springer.
    @inproceedings{Calmon:MICCAI:98,
    address = {Cambridge, USA},
    author = {G. Calmon and N. Roberts and P.R. Eldridge and J.-P. Thirion},
    booktitle = {Proc. of First Int. Conf. on Medical Image Computing and Computer-Assisted Intervention (MICCAI'98)},
    month = {October},
    number = {1496},
    pages = {769--769},
    publisher = {Springer},
    series = {LNCS},
    title = {Automatic quantification of changes in the volume of brain structures},
    year = {1998} 
    }
    


  3. G. Calmon, N. Roberts, Q. Gong, P.R. Eldridge, A.R. Brodbelt, B. Jones, and J.-P. Thirion. Automatic quantification of changes in tumor volume and mass effect following radiotherapy. In Proc. of Medical Image Understanding and Analysis (MIUA'98), Leeds, UK, 1998.
    @inproceedings{Calmon:MIUA:98,
    address = {Leeds, UK},
    author = {G. Calmon and N. Roberts and Q. Gong and P.R. Eldridge and A.R. Brodbelt and B. Jones and J.-P. Thirion},
    booktitle = {Proc. of Medical Image Understanding and Analysis (MIUA'98)},
    title = {Automatic quantification of changes in tumor volume and mass effect following radiotherapy},
    year = {1998} 
    }
    


  4. H. Delingette. Initialization of Deformable Models from 3D Data. In Proceedings of the Sixth Int. Conf. on Computer Vision (ICCV'98), Bombay, India, pages 311-316, January 1998. Keyword(s): conference, reconstruction.
    @inproceedings{delingette-iccv98,
    address = {Bombay, India},
    author = {H. Delingette},
    booktitle = {Proceedings of the Sixth Int. Conf. on Computer Vision (ICCV'98)},
    keywords = {conference, reconstruction},
    month = {January},
    pages = {311-316},
    title = {Initialization of Deformable Models from 3D Data},
    url = {https://www-sop.inria.fr/asclepios/Publications/Herve.Delingette/iccv98.pdf},
    year = {1998} 
    }
    


  5. K. Fintzel, J.-L. Dugelay, S. Valente, P. Dubois, and H. Delingette. Vers la Téléconférence Virtuelle. In Actes des 6èmes Journées de Travail du GT-RV, Issy-les-Moulineaux, France, pages 21-29, 12-13 mars 1998. Keyword(s): workshop, reconstruction.
    @inproceedings{fintzel98,
    address = {Issy-les-Moulineaux, France},
    author = {K. Fintzel and J.-L. Dugelay and S. Valente and P. Dubois and H. Delingette},
    booktitle = {Actes des 6\`emes Journ\'ees de Travail du GT-RV},
    keywords = {workshop, reconstruction},
    month = {12-13 mars},
    pages = {21--29},
    title = {Vers la T\'el\'econf\'erence Virtuelle},
    year = {1998} 
    }
    


  6. M. A. González Ballester, A. Zisserman, and M. Brady. Combined Statistical and Geometrical 3D Segmentation and Measurement of Brain Structures. In B. Vemuri, editor, Proc. of Workshop on Biomedical Image Analysis WBIA'98, Santa Barbara, 1998. IEEE.
    @inproceedings{Gonzalez:WBIA:1998,
    address = {Santa Barbara},
    author = {Gonz\'alez Ballester, M. A. and A. Zisserman and M. Brady},
    booktitle = {Proc. of Workshop on Biomedical Image Analysis WBIA'98},
    editor = {B. Vemuri},
    organization = {IEEE},
    title = {Combined Statistical and Geometrical 3D Segmentation and Measurement of Brain Structures},
    year = {1998} 
    }
    


  7. M. A. González Ballester, A. Zisserman, and M. Brady. Measurement of Brain Structures based on Statistical and Geometrical 3D Segmentation. In Proc. of First Int. Conf. on Medical Image Computing and Computer-Assisted Intervention (MICCAI'98), volume 1496 of Lecture Notes in Computer Science, Cambridge, USA, pages 499-508, October 1998. Springer.
    @inproceedings{Gonzalez:MICCAI:98,
    address = {Cambridge, USA},
    author = {Gonz\'alez Ballester, M. A. and A. Zisserman and M. Brady},
    booktitle = {Proc. of First Int. Conf. on Medical Image Computing and Computer-Assisted Intervention (MICCAI'98)},
    month = {October},
    pages = {499--508},
    publisher = {Springer},
    series = {Lecture Notes in Computer Science},
    title = {Measurement of Brain Structures based on Statistical and Geometrical 3D Segmentation},
    url = {https://www-sop.inria.fr/asclepios/Publications/Gonzalez/Gonzalez_MICCAI_1998.pdf},
    volume = {1496},
    year = {1998} 
    }
    


  8. M. A. González Ballester, A. Zisserman, and M. Brady. Segmentation and Measurement of Brain Structures from MRI. In First International Workshop on Recent Advances in Brain Morphometry, Kent, UK, 1998.
    @inproceedings{Gonzalez:Leeds:1998,
    address = {Kent, UK},
    author = {Gonz\'alez Ballester, M. A. and A. Zisserman and M. Brady},
    booktitle = {First International Workshop on Recent Advances in Brain Morphometry},
    title = {Segmentation and Measurement of Brain Structures from MRI},
    year = {1998} 
    }
    


  9. A. Guimond, J. Meunier, and J.-P. Thirion. Automatic Computation of Average Brain Models. In Proc. of First Int. Conf. on Medical Image Computing and Computer-Assisted Intervention (MICCAI'98), volume 1496 of LNCS, Cambridge, USA, pages 631-640, October 1998. Springer. Keyword(s): registration, matching, atlas.
    @inproceedings{guimond98.2,
    address = {Cambridge, USA},
    author = {A. Guimond and J. Meunier and J.-P. Thirion},
    booktitle = {Proc. of First Int. Conf. on Medical Image Computing and Computer-Assisted Intervention (MICCAI'98)},
    keywords = {registration, matching, atlas},
    month = {October},
    pages = {631--640},
    publisher = {Springer},
    series = {LNCS},
    title = {Automatic Computation of Average Brain Models},
    volume = {1496},
    year = {1998} 
    }
    


  10. A. Guimond, J. Webb, C. Mackay, N. Roberts, P. Eldridge, J. Meunier, and J.-P. Thirion. Automatic Detection of Hippocampal Atrophy. In A. W. Toga, R. S. J. Frackowiak, and J. C. Mazziotta, editors, Human Brain Mapping Conference Proceedings, Montréal, Canada, pages 704, May 1998. Academic Press. Note: In NeuroImage 7(4).
    @inproceedings{guimond98.1,
    address = {Montr\'eal, Canada},
    author = {A. Guimond and J. Webb and C. Mackay and N. Roberts and P. Eldridge and J. Meunier and J.-P. Thirion},
    booktitle = {Human Brain Mapping Conference Proceedings},
    editor = {A. W. Toga and R. S. J. Frackowiak and J. C. Mazziotta},
    month = {May},
    note = {in NeuroImage 7(4)},
    pages = {704},
    publisher = {Academic Press},
    title = {Automatic Detection of Hippocampal Atrophy},
    year = {1998} 
    }
    


  11. K. Krissian, G. Malandain, N. Ayache, R. Vaillant, and Y. Trousset. Model-Based Multiscale Detection of 3D Vessels. In Proc. of the IEEE Conf. on Computer Vision and Pattern Recognition, CVPR'98, Santa Barbara, pages 722-727, 1998.
    @inproceedings{Karl-CVPR98,
    address = {Santa Barbara},
    author = {K. Krissian and G. Malandain and N. Ayache and R. Vaillant and Y. Trousset},
    booktitle = {Proc. of the IEEE Conf. on Computer Vision and Pattern Recognition, CVPR'98},
    pages = {722-727},
    title = {Model-Based Multiscale Detection of 3D Vessels},
    year = {1998} 
    }
    


  12. K. Krissian, G. Malandain, N. Ayache, R. Vaillant, and Y. Trousset. Model-Based Multiscale Detection of 3D Vessels. In B. Vemuri, editor, Proc. of Worshop on Biomedical Image Analysis WBIA'98, Santa Barbara, pages 202-208, 1998.
    @inproceedings{Karl-WBIA98,
    address = {Santa Barbara},
    author = {K. Krissian and G. Malandain and N. Ayache and R. Vaillant and Y. Trousset},
    booktitle = {Proc. of Worshop on Biomedical Image Analysis WBIA'98},
    editor = {B. Vemuri},
    pages = {202-208},
    title = {Model-Based Multiscale Detection of 3D Vessels},
    year = {1998} 
    }
    


  13. Xavier Pennec, Charles R.G. Guttmann, and Jean-Philippe Thirion. Feature-based Registration of Medical Images: Estimation and Validation of the Pose Accuracy. In Proc. of First Int. Conf. on Medical Image Computing and Computer-Assisted Intervention (MICCAI'98), volume 1496 of LNCS, Cambridge, USA, pages 1107-1114, October 1998. Springer. Keyword(s): registration, matching, magnetic resonance, validation, uncertainty.
    @inproceedings{Pennec:MICCAI:98,
    address = {Cambridge, USA},
    author = {Xavier Pennec and Charles R.G. Guttmann and Jean-Philippe Thirion},
    booktitle = {Proc. of First Int. Conf. on Medical Image Computing and Computer-Assisted Intervention (MICCAI'98)},
    doi = {10.1007/BFb0056300},
    keywords = {registration, matching, magnetic resonance, validation, uncertainty},
    month = {October},
    pages = {1107--1114},
    postscript = {https://www-sop.inria.fr/asclepios/Publications/Xavier.Pennec/Pennec.MICCAI98.letter.ps.gz},
    publisher = {Springer},
    series = {LNCS},
    title = {Feature-based Registration of Medical Images: Estimation and Validation of the Pose Accuracy},
    url = {https://www-sop.inria.fr/asclepios/Publications/Xavier.Pennec/Pennec.MICCAI98.pdf},
    url-publisher = {http://www.springerlink.com/openurl.asp?genre=article&issn=0302-9743&volume=1496&spage=1107},
    volume = {1496},
    year = {1998} 
    }
    


  14. S. Prima, J.-P. Thirion, and G. Subsol. Analyse statistique de la dissymétrie dans les images médicales volumiques. In Reconnaissance des Formes et Intelligence Artificielle, RFIA'98, Clermont-Ferrand, France, pages 175-184, January 1998.
    @inproceedings{Prima98a,
    address = {Clermont-Ferrand, France},
    author = {S. Prima and J.-P. Thirion and G. Subsol},
    booktitle = {Reconnaissance des Formes et Intelligence Artificielle, RFIA'98},
    month = {January},
    pages = {175-184},
    title = {Analyse statistique de la dissym\'etrie dans les images m\'edicales volumiques},
    year = {1998} 
    }
    


  15. S. Prima, J.-P. Thirion, G. Subsol, and N. Roberts. Automatic Analysis of Normal Brain Dissymmetry of Males and Females in MR Images. In Proc. of First Int. Conf. on Medical Image Computing and Computer-Assisted Intervention (MICCAI'98), volume 1496 of LNCS, Cambridge, USA, pages 770-779, October 1998. Springer.
    @inproceedings{Prima:miccai:98,
    address = {Cambridge, USA},
    author = {S. Prima and J.-P. Thirion and G. Subsol and N. Roberts},
    booktitle = {Proc. of First Int. Conf. on Medical Image Computing and Computer-Assisted Intervention (MICCAI'98)},
    month = {October},
    pages = {770--779},
    publisher = {Springer},
    series = {LNCS},
    title = {Automatic Analysis of Normal Brain Dissymmetry of Males and Females in MR Images},
    url-publisher = {http://link.springer.de/link/service/series/0558/papers/1496/14960770.pdf},
    volume = {1496},
    year = {1998} 
    }
    


  16. Alexis Roche, Grégoire Malandain, Xavier Pennec, and Nicholas Ayache. The Correlation Ratio as a New Similarity Measure for Multimodal Image Registration. In Proc. of First Int. Conf. on Medical Image Computing and Computer-Assisted Intervention (MICCAI'98), volume 1496 of LNCS, Cambridge, USA, pages 1115-1124, October 1998. Springer. Keyword(s): registration, matching, multimodal, correlation ratio.
    @inproceedings{Roche:MICCAI:98,
    address = {Cambridge, USA},
    author = {Alexis Roche and Gr\'egoire Malandain and Xavier Pennec and Nicholas Ayache},
    booktitle = {Proc. of First Int. Conf. on Medical Image Computing and Computer-Assisted Intervention (MICCAI'98)},
    hal-identifiant = {cea-00333675},
    keywords = {registration, matching, multimodal, correlation ratio},
    month = {October},
    pages = {1115--1124},
    postscript = {https://www-sop.inria.fr/asclepios/Publications/Roche/miccai98.ps.gz},
    publisher = {Springer},
    series = {LNCS},
    title = {The Correlation Ratio as a New Similarity Measure for Multimodal Image Registration},
    url = {https://www-sop.inria.fr/asclepios/Publications/Roche/miccai98.pdf},
    url-hal = {http://hal.inria.fr/cea-00333675/en/},
    url-publisher = {http://www.springerlink.com/openurl.asp?genre=article&issn=0302-9743&volume=1496&spage=1115},
    volume = {1496},
    year = {1998} 
    }
    


  17. M. Thiriet and G. Malandain. Modélisation numérique de l'écoulement dans les anévrismes cérébraux. In XXIIIème congrès de la société de Biomécanique, Lyon, France, 17-18 septembre 1998.
    @inproceedings{thiriet-al98b,
    address = {Lyon, France},
    author = {M. Thiriet and G. Malandain},
    booktitle = {XXIII\`eme congr\`es de la soci\'et\'e de Biom\'ecanique},
    month = {17-18 septembre},
    title = {Mod\'elisation num\'erique de l'\'ecoulement dans les an\'evrismes c\'er\'ebraux},
    year = {1998} 
    }
    


  18. M. Thiriet, S. Piperno, G. Malandain, P. Frey, J. Bittoun, and A. Gaston. Computational models of flow in cerebral aneurisms. In $11^{\rm th}$ Conference of the European Society of Biomechanics, Toulouse, France, pages 20, 8-11 juillet 1998.
    @inproceedings{thiriet-al98,
    address = {Toulouse, France},
    author = {M. Thiriet and S. Piperno and G. Malandain and P. Frey and J. Bittoun and A. Gaston},
    booktitle = {$11^{\rm th}$ Conference of the European Society of Biomechanics},
    month = {8-11 juillet},
    pages = {20},
    title = {Computational models of flow in cerebral aneurisms},
    year = {1998} 
    }
    


  19. J.-P. Thirion, S. Prima, G. Subsol, and N. Roberts. Statistical Analysis of Normal and Abnormal Dissymmetry in Volumetric Medical Images. In IEEE Workshop on Biomedical Image Analysis, WBIA'98, Santa Barbara, USA, pages 74-83, June 1998. Keyword(s): statistics.
    @inproceedings{Thirion98a,
    address = {Santa Barbara, USA},
    author = {J.-P. Thirion and S. Prima and G. Subsol and N. Roberts},
    booktitle = {IEEE Workshop on Biomedical Image Analysis, WBIA'98},
    keywords = {statistics},
    month = {June},
    pages = {74-83},
    title = {Statistical Analysis of Normal and Abnormal Dissymmetry in Volumetric Medical Images},
    url = {https://www-sop.inria.fr/asclepios/Publications/Thirion/Thirion98a.pdf},
    year = {1998} 
    }
    


  20. S. Valente, J.-L. Dugelay, and H. Delingette. An Analysis/Synthesis Cooperation for Head Tracking and Video Face Cloning. In Workshop on Perception of Human Action, ECCV Conference, Freiburg, Germany, 6 juin 1998. Keyword(s): workshop, reconstruction.
    @inproceedings{valente-eccv98,
    address = {Freiburg, Germany},
    author = {S. Valente and J.-L. Dugelay and H. Delingette},
    booktitle = {Workshop on Perception of Human Action, ECCV Conference},
    keywords = {workshop, reconstruction},
    month = {6 juin},
    title = {An Analysis/Synthesis Cooperation for Head Tracking and Video Face Cloning},
    year = {1998} 
    }
    


Internal reports

  1. S. Cotin, H. Delingette, and N. Ayache. Efficient Linear Elastic Models of Soft Tissues for real-time surgery simulation. Research report RR-3510, INRIA, 1998. Keyword(s): tech-report, reconstruction.
    @techreport{Cotin2-RR,
    author = {S. Cotin and H. Delingette and N. Ayache},
    hal-identifiant = {inria-00073174},
    institution = {INRIA},
    keywords = {tech-report, reconstruction},
    number = {RR-3510},
    title = {Efficient Linear Elastic Models of Soft Tissues for real-time surgery simulation},
    type = {Research report},
    url-hal = {http://hal.inria.fr/inria-00073174/en/},
    url-publisher = {http://www.inria.fr/rrrt/RR-3510.html},
    year = {1998} 
    }
    


  2. S. Cotin, H. Delingette, and N. Ayache. Real-time elastic deformations of soft tissues for surgery simulation. Research report RR-3511, INRIA, 1998. Keyword(s): tech-report, simulation.
    @techreport{Cotin1-RR,
    author = {S. Cotin and H. Delingette and N. Ayache},
    hal-identifiant = {inria-00073173},
    institution = {INRIA},
    keywords = {tech-report, simulation},
    number = {RR-3511},
    title = {Real-time elastic deformations of soft tissues for surgery simulation},
    type = {Research report},
    url = {http://hal.inria.fr/inria-00073173/document},
    url-hal = {http://hal.inria.fr/inria-00073173/en/},
    year = {1998} 
    }
    


  3. J. Declerck, N. Ayache, and E.R. McVeigh. Use of a 4D planispheric transformation for the tracking and the analysis of LV motion with tagged MR images. Research report RR-3535, INRIA, October 1998.
    @techreport{Declerck-98,
    author = {J. Declerck and N. Ayache and E.R. McVeigh},
    hal-identifiant = {inria-00073150},
    institution = {INRIA},
    month = {October},
    number = {RR-3535},
    title = {Use of a 4D planispheric transformation for the tracking and the analysis of LV motion with tagged MR images},
    type = {Research report},
    url-hal = {http://hal.inria.fr/inria-00073150/en/},
    url-publisher = {http://www.inria.fr/rrrt/RR-3535.html},
    year = {1998} 
    }
    


  4. H. Delingette. Towards Realistic Soft Tissue Modeling in Medical Simulation. Research report RR-3506, INRIA, 1998. Keyword(s): tech-report, reconstruction.
    @techreport{Delingette-RR98,
    author = {H. Delingette},
    hal-identifiant = {inria-00073178},
    institution = {INRIA},
    keywords = {tech-report, reconstruction},
    number = {RR-3506},
    url = {http://hal.inria.fr/inria-00073178/document},
    title = {Towards Realistic Soft Tissue Modeling in Medical Simulation},
    type = {Research report},
    url-hal = {http://hal.inria.fr/inria-00073178/en/},
    year = {1998} 
    }
    


  5. K. Krissian, G. Malandain, and N. Ayache. Model Based Multiscale Detection and Reconstruction of 3D Vessels. Research report RR-3442, INRIA, March 1998.
    @techreport{seg:RR-karl,
    author = {K. Krissian and G. Malandain and N. Ayache},
    hal-identifiant = {inria-00073248},
    institution = {INRIA},
    month = {March},
    number = {RR-3442},
    title = {Model Based Multiscale Detection and Reconstruction of 3D Vessels},
    type = {Research report},
    url-hal = {http://hal.inria.fr/inria-00073248/en/},
    url-publisher = {http://www.inria.fr/rrrt/RR-3442.html},
    year = {1998} 
    }
    


  6. Sébastien Ourselin, Alexis Roche, Gérard Subsol, Xavier Pennec, and Christophe Sattonnet. Automatic Alignment of Histological Sections for 3D Reconstruction and Analysis. Research report RR-3595, INRIA, December 1998. Keyword(s): registration, histology.
    @techreport{Ourselin:RR:98,
    author = {S\'ebastien Ourselin and Alexis Roche and G\'erard Subsol and Xavier Pennec and Christophe Sattonnet},
    hal-identifiant = {inria-00073084},
    institution = {INRIA},
    keywords = {registration, histology},
    month = {December},
    number = {RR-3595},
    title = {Automatic Alignment of Histological Sections for 3D Reconstruction and Analysis},
    type = {Research report},
    url-hal = {http://hal.inria.fr/inria-00073084/en/},
    url-publisher = {http://www.inria.fr/rrrt/rr-3595.html},
    year = {1998} 
    }
    


  7. Xavier Pennec. Computing the mean of geometric features - Application to the mean rotation. Research report RR-3371, INRIA, March 1998. Keyword(s): statistics, geometry, uncertainty.
    @techreport{Pennec:RR:98,
    author = {Xavier Pennec},
    hal-identifiant = {inria-00073318},
    institution = {INRIA},
    keywords = {statistics, geometry, uncertainty},
    month = {March},
    number = {RR-3371},
    title = {Computing the mean of geometric features - Application to the mean rotation},
    type = {Research report},
    url-hal = {http://hal.inria.fr/inria-00073318/en/},
    url-publisher = {http://www.inria.fr/rrrt/rr-3371.html},
    year = {1998} 
    }
    


  8. Xavier Pennec. Registration of Uncertain Geometric Features: Estimating the Pose and its Accuracy. Technical report AIM-1623, MIT Artificial Intelligence Lab, January 1998. Keyword(s): registration, matching, uncertainty, geometry, validation, statistics.
    @techreport{Pennec:AIM-2:98,
    author = {Xavier Pennec},
    institution = {MIT Artificial Intelligence Lab},
    keywords = {registration, matching, uncertainty, geometry, validation, statistics},
    month = {January},
    number = {AIM-1623},
    postscript = {https://www-sop.inria.fr/asclepios/Publications/Xavier.Pennec/Pennec.AIM-1623.ps.gz},
    title = {Registration of Uncertain Geometric Features: Estimating the Pose and its Accuracy},
    year = {1998} 
    }
    


  9. Xavier Pennec. Toward a generic framework for recognition based on uncertain geometric features. Memo AIM-1622, MIT Artificial Intelligence Lab, January 1998. Note: Published in Videre 1(2), 1998, p.58-87. Keyword(s): registration, matching, uncertainty.
    @techreport{Pennec:AIM-1:98,
    author = {Xavier Pennec},
    institution = {MIT Artificial Intelligence Lab},
    keywords = {registration, matching, uncertainty},
    month = {January},
    note = {Published in Videre 1(2), 1998, p.58-87},
    number = {AIM-1622},
    postscript = {https://www-sop.inria.fr/asclepios/Publications/Xavier.Pennec/Pennec.AIM-1622.ps.gz},
    title = {Toward a generic framework for recognition based on uncertain geometric features},
    type = {Memo},
    year = {1998} 
    }
    


  10. D. Rey, G. Subsol, H. Delingette, and N. Ayache. Automatic detection and segmentation of evolving processes in 3D medical images: application to multiple sclerosis. Research report RR-3559, INRIA, November 1998. Keyword(s): tech-report, reconstruction, segmentation, automatic detection, evolving processes, vector field analysis, multiple sclerosis.
    @techreport{Rey:RR:98,
    author = {D. Rey and G. Subsol and H. Delingette and N. Ayache},
    hal-identifiant = {inria-00073125},
    institution = {INRIA},
    keywords = {tech-report, reconstruction, segmentation, automatic detection, evolving processes, vector field analysis, multiple sclerosis},
    month = {November},
    number = {RR-3559},
    title = {Automatic detection and segmentation of evolving processes in 3D medical images: application to multiple sclerosis},
    type = {Research report},
    url-hal = {http://hal.inria.fr/inria-00073125/en/},
    year = {1998} 
    }
    


  11. Alexis Roche, Grégoire Malandain, Xavier Pennec, and Nicholas Ayache. Multimodal Image Registration by Maximization of the Correlation Ratio. Research report RR-3378, INRIA, August 1998. Note: Published in MICCAI'98, Cambridge, USA, LNCS 1496, p. 1115-1124. Keyword(s): registration, matching, multimodal, correlation ratio.
    @techreport{Roche:RR:98,
    author = {Alexis Roche and Gr\'egoire Malandain and Xavier Pennec and Nicholas Ayache},
    hal-identifiant = {inria-00073311},
    institution = {INRIA},
    keywords = {registration, matching, multimodal, correlation ratio},
    month = {August},
    note = {Published in MICCAI'98, Cambridge, USA, LNCS 1496, p. 1115-1124},
    number = {RR-3378},
    title = {Multimodal Image Registration by Maximization of the Correlation Ratio},
    type = {Research report},
    url-hal = {http://hal.inria.fr/inria-00073311/en/},
    url-publisher = {http://www.inria.fr/rrrt/rr-3378.html},
    year = {1998} 
    }
    


  12. Luc Soler, G. Malandain, and H. Delingette. Segmentation automatique des réseaux vasculaires dans les images d'angiographie 3D. Research report RR-3496, INRIA, 1998. Keyword(s): tech-report, reconstruction.
    @techreport{luc-art:98:2,
    author = {Luc Soler and G. Malandain and H. Delingette},
    hal-identifiant = {inria-00073190},
    institution = {INRIA},
    keywords = {tech-report, reconstruction},
    number = {RR-3496},
    title = {Segmentation automatique des r\'eseaux vasculaires dans les images d'angiographie 3D},
    type = {Research report},
    url-hal = {http://hal.inria.fr/inria-00073190/en/},
    url-publisher = {http://www.inria.fr/rapports/sophia/RR-3496.html},
    year = {1998} 
    }
    


  13. S. Valente, J.-L. Dugelay, and H. Delingette. Geometric and Photometric Head Modeling for Facial Analysis Technologies. Technical report RR-98-041, Institut Eurecom, 1998. Keyword(s): tech-report, reconstruction.
    @techreport{valente_RR98,
    author = {S. Valente and J.-L. Dugelay and H. Delingette},
    institution = {Institut Eurecom},
    keywords = {tech-report, reconstruction},
    number = {RR-98-041},
    title = {Geometric and Photometric Head Modeling for Facial Analysis Technologies},
    year = {1998} 
    }
    


Patents, standards

  1. Grégoire Malandain and Luc Robert. Dispositif de traitement de données d'acquisition, notamment de données d'image. FR9808087, 1998.
    @patent{malandain:patent:1998,
    address = {},
    author = {Gr\'egoire Malandain and Luc Robert},
    note = {},
    number = {FR9808087},
    optabstract = {},
    optdoi = {},
    opthal-date-depot = {},
    opthal-identifiant = {},
    opthal-version = {},
    optisbn = {},
    optissn = {},
    optkeywords = {},
    opturl = {},
    opturl-publisher = {},
    optx-scientific-popularization = {},
    title = {Dispositif de traitement de donn\'ees d'acquisition, notamment de donn\'ees d'image},
    x-language = {},
    x-pays = {},
    year = {1998} 
    }
    


Miscellaneous

  1. S. Ourselin. Alignement automatique de coupes histologiques pour la reconstruction et l'analyse tridimensionnelles. Rapport de D.E.A., université de Nice / Sophia Antipolis, 1998.
    @mastersthesis{Ourselin98,
    author = {S. Ourselin},
    school = {universit\'e de Nice / Sophia Antipolis},
    title = {Alignement automatique de coupes histologiques pour la reconstruction et l'analyse tridimensionnelles},
    type = {Rapport de D.E.A.},
    year = {1998} 
    }
    


  2. D. Rey. Détection et quantification automatiques de processus évolutifs dans des images tridimensionnelles. Rapport de D.E.A., université de Clermont-Ferrand / ISIMA, 1998. Keyword(s): multiple sclerosis.
    @mastersthesis{Rey98,
    author = {D. Rey},
    keywords = {multiple sclerosis},
    school = {universit\'e de Clermont-Ferrand / ISIMA},
    title = {D\'etection et quantification automatiques de processus \'evolutifs dans des images tridimensionnelles},
    type = {Rapport de D.E.A.},
    year = {1998} 
    }
    


  3. P. Cachier. Recalage d'images ultrasonores tridimensionelles. Rapport de stage de DEA, July 1998.
    @misc{Cachier:DEA:98,
    author = {P. Cachier},
    howpublished = {Rapport de stage de DEA},
    month = {July},
    title = {Recalage d'images ultrasonores tridimensionelles},
    year = {1998} 
    }
    


  4. Béatrice Frison. Segmentation des réseaux vasculaires à l'aide d'outils de topologie discrète. Rapport de stage de $2^{\rm e}$ année de l'ESSI, September 1998.
    @misc{Frison,
    author = {B\'eatrice Frison},
    howpublished = {Rapport de stage de $2^{\rm e}$ ann\'ee de l'ESSI},
    month = {September},
    title = {Segmentation des r\'eseaux vasculaires \`a l'aide d'outils de topologie discr\`ete},
    year = {1998} 
    }
    


  5. Florence Guirardel. Segmentation d'images à l'aide des Level Sets. Rapport de stage de 2eme année de l'ENSIMAG, septembre 1998.
    @misc{Guirardel:Stage:98,
    author = {Florence Guirardel},
    howpublished = {Rapport de stage de 2eme ann\'ee de l'ENSIMAG},
    month = {septembre},
    title = {Segmentation d'images \`a l'aide des Level Sets},
    year = {1998} 
    }
    


  6. Jérémie Roux. Extraction de mouvement à partir de séquences temporelles d'images ultrasonores 3D-cardiaques. Rapport de stage de fin d'études de l'École Centrale de Paris, juin 1998.
    @misc{Roux:Stage:98,
    author = {J\'er\'emie Roux},
    howpublished = {Rapport de stage de fin d'\'etudes de l'\'Ecole Centrale de Paris},
    month = {juin},
    title = {Extraction de mouvement \`a partir de s\'equences temporelles d'images ultrasonores 3D-cardiaques},
    year = {1998} 
    }
    


  7. G. Subsol. A scheme for automatically building 3D morphometric anatomical atlases based on feature lines: a list of references. DIKU International Summer School'98 - Shape Variation - University of Copenhagen - Danemark, 1998.
    @misc{Subsol98.4,
    author = {G. Subsol},
    howpublished = {DIKU International Summer School'98 - Shape Variation - University of Copenhagen - Danemark},
    title = {A scheme for automatically building 3D morphometric anatomical atlases based on feature lines: a list of references},
    url = {http://www.inria.fr/epidaure/personnel/subsol/REFERENCES/references.html},
    year = {1998} 
    }
    


  8. G. Subsol, J. Montagnat, S. Ourselin, and L. Soler. Algorithmes de traitement d'images tridimensionnelles pour des applications pharmaceutiques, 1998. Note: Étude de faisabilité.
    @misc{Subsol98.3,
    author = {G. Subsol and J. Montagnat and S. Ourselin and L. Soler},
    institution = {INRIA / Sanofi-Recherche},
    note = {\'Etude de faisabilit\'e},
    title = {Algorithmes de traitement d'images tridimensionnelles pour des applications pharmaceutiques},
    year = {1998} 
    }
    



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