Coding Theory
From SIAG-AG
(Difference between revisions)
Revision as of 21:23, 16 January 2017 (edit) Manganiello (Talk | contribs) (→'''Organizers''') ← Previous diff |
Current revision (22:34, 16 January 2017) (edit) (undo) Manganiello (Talk | contribs) |
||
(One intermediate revision not shown.) | |||
Line 1: | Line 1: | ||
- | Coding theory is a branch of Information Theory that comes as an answer to the problem of reliable communication over noisy networks. The session focuses on the algebraic aspect of it and divides in two main parts: | + | Coding Theory comes as an answer to the problem of reliable communication over noisy channels. As a research field, Coding Theory intersects Mathematics, Information Theory, and Electrical Engineering. The minisymposium session we propose focuses on the algebraic aspect of the theory of error-correcting codes, both in the context of Classical Coding Theory and Network Coding, a new emerging research field that studies network transmissions. Algebra plays a crucial role in Coding Theory, as it provides the main tools for the construction of error-correcting codes and their analysis. |
- | * Network coding, concerning message transmission from multiple sources to multiple sinks. This part of the session focuses on algebraic constructions and bounds for subspace codes for communication over multicast networks. | + | |
- | * Algebraic coding theory, dealing with communication over noisy unicast networks. This part of the session broadly focuses on the mathematical aspects of coding theory. | + | |
=='''Organizers'''== | =='''Organizers'''== | ||
Line 7: | Line 5: | ||
* Felice Manganiello (Clemson University, USA) | * Felice Manganiello (Clemson University, USA) | ||
* Gretchen Matthews (Clemson University, USA) | * Gretchen Matthews (Clemson University, USA) | ||
- | * Alberto Ravagnani (University of Neuchâtel, Switzerland) | + | * Alberto Ravagnani (University of Toronto, Canada) |
=='''Speakers'''== | =='''Speakers'''== | ||
- | * Network Coding | + | * Daniel Augot (INRIA Paris, France) |
- | ** Amaro Barreal (University of Aalto, Finland) | + | * Maria Bras-Amorós (Universitat Rovira i Virgili, Spain) |
- | ** Anton Betten (Colorado State University, USA) | + | * Eimear Byrne (University College Dublin, Ireland) |
- | ** Eimear Byrne (UC Dublin, Ireland) | + | * Iwan Duursma (University of Illinois at Urbana-Champaign, USA) |
- | ** Heide Gluesing-Luerssen (University of Kentucky, USA) | + | * Olav Geil (Aalborg University, Denmark) |
- | ** Elisa Gorla (University of Neuchâtel, Switzerland) | + | * Heide Gluesing-Luerssen (University of Kentucky, USA) |
- | ** Relinde Jurrius (University of Neuchâtel, Switzerland) | + | * Elisa Gorla (University of Neuchâtel, Switzerland) |
- | ** Joachim Rosenthal (University of Zurich, Switzerland) | + | * Cem Güneri (Sebanci University, Turkey) |
- | ** Thomas Westerbäck (University of Aalto, Finland) | + | * Felice Manganiello (Clemson University, USA) |
- | + | * Umberto Martinez-Penas (Aalborg University, Denmark) | |
- | * Algebraic Coding Theory | + | * Gretchen Matthews (Clemson University, USA) |
- | ** Chaoping Xing (Nanyang Technological University) | + | * Muriel Médard (Massachusetts Institute of Technology, USA) |
- | ** Lingfei Jin (Sudan University) | + | * Piermarco Milione (Aalto University, dFinlan) |
- | ** Jon-Lark Kim (Sogang University) | + | * Alberto Ravagnani (University of Toronto, Canada) |
- | ** Patric Solé (Telecom ParisTech, France) | + | * Joachim Rosenthal (University of Zurich, Switzerland) |
- | ** Shuhong Gao (Clemson University, USA) | + | * Diego Ruano (Aalborg University, Denmark) |
- | ** Yoonjin Lee (Ewha Womans University, Korea) | + | * John Sheekey (University College Dublin, Ireland) |
- | ** Daniele Bartoli (Ghent University, Belgium) | + | * Fernando Torres (University of Campinas, Brasil) |
- | ** Edgar Martinez-Moro (University of Valladolid, Spain) | + | |
- | ** Leo Storme (Ghent University, Belgium) | + |
Current revision
Coding Theory comes as an answer to the problem of reliable communication over noisy channels. As a research field, Coding Theory intersects Mathematics, Information Theory, and Electrical Engineering. The minisymposium session we propose focuses on the algebraic aspect of the theory of error-correcting codes, both in the context of Classical Coding Theory and Network Coding, a new emerging research field that studies network transmissions. Algebra plays a crucial role in Coding Theory, as it provides the main tools for the construction of error-correcting codes and their analysis.
[edit] Organizers
- Felice Manganiello (Clemson University, USA)
- Gretchen Matthews (Clemson University, USA)
- Alberto Ravagnani (University of Toronto, Canada)
[edit] Speakers
- Daniel Augot (INRIA Paris, France)
- Maria Bras-Amorós (Universitat Rovira i Virgili, Spain)
- Eimear Byrne (University College Dublin, Ireland)
- Iwan Duursma (University of Illinois at Urbana-Champaign, USA)
- Olav Geil (Aalborg University, Denmark)
- Heide Gluesing-Luerssen (University of Kentucky, USA)
- Elisa Gorla (University of Neuchâtel, Switzerland)
- Cem Güneri (Sebanci University, Turkey)
- Felice Manganiello (Clemson University, USA)
- Umberto Martinez-Penas (Aalborg University, Denmark)
- Gretchen Matthews (Clemson University, USA)
- Muriel Médard (Massachusetts Institute of Technology, USA)
- Piermarco Milione (Aalto University, dFinlan)
- Alberto Ravagnani (University of Toronto, Canada)
- Joachim Rosenthal (University of Zurich, Switzerland)
- Diego Ruano (Aalborg University, Denmark)
- John Sheekey (University College Dublin, Ireland)
- Fernando Torres (University of Campinas, Brasil)