Dertouzos Distinguished Lecture: The Three R's of Computer Vision: Recognition, Reconstruction and Reorganization
Date: Thursday, October 10, 2013
Time: 4:00 PM to 5:30 PM Note: all times are in the Eastern Time Zone
Refreshments: 3:45 PM
Host: Daniela Rus
Contact: Victoria Palay, 617-253-8924, email@example.com
Speaker URL: None
TALK: Dertouzos Distinguished Lecture: The Three R's of Computer Vision: Recognition, Reconstruction and Reorganization
Over the last two decades, we have seen remarkable progress in computer vision with demonstration of capabilities such as face detection, handwritten digit recognition, reconstructing three-dimensional models of cities, automated monitoring of activities, segmenting out organs or tissues in biological images, and sensing for control of robots and cars. Yet there are many problems where computers still perform significantly below human perception. For example, in the recent PASCAL benchmark challenge on visual object detection, the average precision for most 3D object categories was under 50%.
I will argue that further progress on the classic problems of computational vision: recognition, reconstruction and re-organization requires us to study the interaction among these processes. For example recognition of 3d objects could benefit from a preliminary reconstruction of 3d structure, instead of just treating it as a 2d pattern classification problem. Recognition is also reciprocally linked to reorganization, with bottom up grouping processes generating candidates, which with top-down activations of object and part detectors. In this talk, I will show some of the progress we have made towards the goal of a unified framework for the 3R's of computer vision.
Jitendra Malik received the B.Tech degree in EE from Indian Institute of Technology, Kanpur in 1980 and the PhD degree in CS from Stanford University in 1985. In January 1986, he joined UC Berkeley, where he is currently the Arthur J. Chick Professor in the Department of EECS. He is also on the faculty of the department of Bioengineering, and the Cognitive Science and Vision Science groups. During 2002-2004 he served as the Chair of the Computer Science Division and during 2004-2006 as the Department Chair of EECS.
Jitendra Malik's research group has worked on computer vision, computational modeling of human vision, computer graphics and the analysis of biological images. Several well-known concepts and algorithms arose in this research, such as anisotropic diffusion, normalized cuts, high dynamic range imaging, and shape contexts. According to Google Scholar, eight of his papers have received more than a thousand citations each, and he has graduated 33 PhD students, many of whom are now prominent researchers in academia and industry. Jitendra was awarded the Longuet-Higgins Prize for a contribution that has stood the test of time twice, in 2007 and in 2008. He is a member of the National Academy of Engineering and in 2013 he was elected to the American Academy of Arts and Sciences.
Created by Victoria Palay at Friday, September 06, 2013 at 8:08 AM.