Differences
This shows you the differences between two versions of the page.
Both sides previous revisionPrevious revisionNext revision | Previous revisionNext revisionBoth sides next revision | ||
start [2018/02/02 13:08] – [Short summary] guilherme | start [2018/03/13 11:14] – guilherme | ||
---|---|---|---|
Line 1: | Line 1: | ||
- | ====== | + | ====== |
The research group **Geometry, imaGes, learninG and alGorithms** (G4) is a member of the [[http:// | The research group **Geometry, imaGes, learninG and alGorithms** (G4) is a member of the [[http:// | ||
Line 12: | Line 12: | ||
====== Short summary ====== | ====== Short summary ====== | ||
- | The research topics of this group are centered on n-dimensional data modeling and analysis, from both methodology and application points of view. The team's interdisciplinary skills result in projects that cover a wide range of scientific topics | + | The research topics of this group are centered on n-dimensional data modeling and analysis, from both methodology and application points of view. The team's interdisciplinary skills result in projects that cover a wide range of scientific topics |
- | Our research | + | For a brief description of our main research |
* **Machine learning**: We address several | * **Machine learning**: We address several | ||
Line 26: | Line 26: | ||
* **Computational geometry**: We design algorithms and data structures for numerous geometric problems related to range searching, geometric graphs, and several other topics. We analyze that asymptotic complexity of these algorithms and also prove lower bounds for the complexity of the problems. | * **Computational geometry**: We design algorithms and data structures for numerous geometric problems related to range searching, geometric graphs, and several other topics. We analyze that asymptotic complexity of these algorithms and also prove lower bounds for the complexity of the problems. | ||
- | * **Image and video processing**, addressed from both a methodological (definition of image analysis methods in n dimension) and application points of view (tracking of ballistics in thermal videos of volcanoes, design of computer assisted maps for visually impaired people, | + | * **Image and video processing**: We address |
+ | |||
+ | National collaborations include: | ||
+ | |||
+ | LITIS (Rouen), LMV (Clermont-Ferrand), | ||
- | Some domestic partners are LITIS (Rouen), LMV (Clermont-Ferrand), | ||
International collaborations include: | International collaborations include: | ||
Line 36: | Line 39: | ||
* Hong Kong: Hong Kong University of Science and Technology | * Hong Kong: Hong Kong University of Science and Technology | ||
* Norway: University of Bergen | * Norway: University of Bergen | ||
- | * USA: University of California Los Angeles, Florida State University, | + | * USA: University of California Los Angeles, Florida State University, |
===== News ===== | ===== News ===== | ||
* **January 2018:** first public version of [[http:// | * **January 2018:** first public version of [[http:// |