Cornelia Fermüller
Research Scientist
4216 Iribe Center
(301) 405-1768
(301) 314 9115
Research Group(s):
Education:
Ph.D., Technical University of Vienna, Austria (Applied Mathematics)
Biography:
Cornelia Fermüller is a research scientist in the University of Maryland Institute for Advanced Computer Studies.
Her research focuses on computer vision, robotics and human vision, emphasizing biologically-inspired solutions for active vision systems. Fermüller models perception problems using geometry, statistics and signal processing, while developing software for multiple view geometry, motion, navigation and action recognition.
Go here to view Fermüller's academic publications on Google Scholar.
Publications
1999
1999. Shape from Video. Computer Vision and Pattern Recognition, IEEE Computer Society Conference on. 2:2146-2146.
1998
1998. Effects of Errors in the Viewing Geometry on Shape Estimation* 1,* 2. Computer Vision and Image Understanding. 71(3):356-372.
1998. Effects of Errors in the Viewing Geometry on Shape Estimation. Computer Vision and Image Understanding. 71(3):356-372.
1998. Beyond the Epipolar Constraint: Integrating 3D Motion and Structure Estimation. 3D Structure from Multiple Images of Large-Scale Environments3D Structure from Multiple Images of Large-Scale Environments. 1506:109-123.
1998. Self-calibration from image derivatives. Sixth International Conference on Computer Vision, 1998. :83-89.
1998. Shape from video: Beyond the epipolar constraint. Proceedings of the DARPA Image Understanding Workshop.
1998. Simultaneous estimation of viewing geometry and structure. Computer Vision — ECCV'98Computer Vision — ECCV'98. 1406:342-358.
1998. Ambiguity in Structure from Motion: Sphere versus Plane. International Journal of Computer Vision. 28(2):137-154.
1998. Which shape from motion? Sixth International Conference on Computer Vision, 1998. :689-695.
1998. 3D motion and shape representations in visual servo control. The International Journal of Robotics Research. 17(1):4-4.
1998. Directions of Motion Fields are Hardly Ever Ambiguous. International Journal of Computer Vision. 26(1):5-24.
1998. The Video Yardstick. Modelling and Motion Capture Techniques for Virtual EnvironmentsModelling and Motion Capture Techniques for Virtual Environments. 1537:144-158.
1997
1997. Toward motion picture grammars. Computer Vision — ACCV'98Computer Vision — ACCV'98. 1352:283-290.
1997. Families of Stationary Patterns Producing Illusory Movement: Insights into the Visual System. Proceedings of the Royal Society of London. Series B: Biological SciencesProc. R. Soc. Lond. B. 264(1383):795-806.
1997. Visual space distortion. Biological Cybernetics. 77(5):323-337.
1997. DIRECT MOTION PERCEPTION. Visual navigation: from biological systems to unmanned ground vehicles. :135-135.
1997. On the Geometry of Visual Correspondence. International Journal of Computer Vision. 21(3):223-247.
1997. The confounding of translation and rotation in reconstruction from multiple views. , 1997 IEEE Computer Society Conference on Computer Vision and Pattern Recognition, 1997. Proceedings. :250-256.
1997. The geometry of visual space distortion. Algebraic Frames for the Perception-Action CycleAlgebraic Frames for the Perception-Action Cycle. 1315:249-277.
1996
1996. The synthesis of vision and action. Exploratory vision: the active eye. :205-205.
1996. Spatiotemporal representations for visual navigation. Computer Vision — ECCV '96Computer Vision — ECCV '96. 1064:671-684.
1996. Ordinal representations of visual space. Proc. Image Understanding Workshop. :897-904.
1996. Directions of motion fields are hardly ever ambiguous. Computer Vision — ECCV '96Computer Vision — ECCV '96. 1065:119-128.
1996. Qualitative depth and FOE information via smoothed flow. Proceedings of the 20th workshop of the Austrian Association for Pattern Recognition (OAGM/AAPR) on Pattern recognition 1996. :207-213.
1995
1995. Global rigidity constraints in image displacement fields. Proceedings of Fifth International Conference on Computer Vision, 1995. :245-250.
1995. Seeing and understanding: representing the visual world. ACM Comput. Surv.. 27(3):307-309.
1995. Global rigidity constraints in image displacement fields. , Fifth International Conference on Computer Vision, 1995. Proceedings. :245-250.
1995. The information in the direction of image flow. , International Symposium on Computer Vision, 1995. Proceedings. :461-466.
1995. Vision and action* 1. Image and vision computing. 13(10):725-744.
1995. 3D motion representations in visual servo control. Proceedings of International Symposium on Computer Vision, 1995. :61-66.
1995. Passive navigation as a pattern recognition problem. International Journal of Computer Vision. 14(2):147-158.
1995. Vision and action. Image and Vision Computing. 13(10):725-744.
1995. Direct Perception of Three-Dimensional Motion from Patterns of Visual Motion. ScienceScience. 270(5244):1973-1976.
1995. Representations for active vision. Proceedings of the 14th international joint conference on Artificial intelligence - Volume 1. :20-26.
1995. Qualitative egomotion. International Journal of Computer Vision. 15(1):7-29.
1994
1994. A syntactic approach to scale-space-based corner description. IEEE Transactions on Pattern Analysis and Machine Intelligence. 16(7):748-751.
1993
1993. Recognizing 3-D Motion. INTERNATIONAL JOINT CONFERENCE ON ARTIFICIAL IN℡LIGENCE. 13:1624-1624.
1993. Global 3D motion estimation. , 1993 IEEE Computer Society Conference on Computer Vision and Pattern Recognition, 1993. Proceedings CVPR '93. :415-421.
1993. Motion constraint patterns. , Proceedings of IEEE Workshop on Qualitative Vision, 1993. :128-139.
1993. The role of fixation in visual motion analysis. International Journal of Computer Vision. 11(2):165-186.
1992
1992. Behavioral Visual Motion Analysis,". Proceedings, DARPA Image Understanding Workshop. :521-541.
1992. Tracking facilitates 3-D motion estimation. Biological Cybernetics. 67(3):259-268.
1992. Hierarchical curve representation. , 11th IAPR International Conference on Pattern Recognition, 1992. Vol.III. Conference C: Image, Speech and Signal Analysis, Proceedings. :143-146.
1992. Perceptual computational advantages of tracking. , 11th IAPR International Conference on Pattern Recognition, 1992. Vol.I. Conference A: Computer Vision and Applications, Proceedings. :599-602.
1992. Multi-resolution shape description by corners. , 1992 IEEE Computer Society Conference on Computer Vision and Pattern Recognition, 1992. Proceedings CVPR '92. :271-276.