Talks and Poster Presentations (with Proceedings-Entry):
Ej Kim, S. Ordyniak, St. Szeider:
"The Complexity of Repairing, Adjusting, and Aggregating of Extensions in Abstract Argumentation";
Talk: Theory and Applications of Formal Argumentation (TAFA),
Quebec, Canada;
2013-08-03
- 2013-08-05; in: "TAFA 2013",
LNAI / Springer,
8306
(2014),
158
- 175.
English abstract:
We study the computational complexity of problems that arise in abstract argumentation in the context of dynamic argumentation, minimal change, and aggregation. In particular, we consider the following problems where always an argumentation framework F and a small positive integer k are given.
The Repair problem asks whether a given set of arguments can be modified into an extension by at most k elementary changes (i.e., the extension is of distance k from the given set).
The Adjust problem asks whether a given extension can be modified by at most k elementary changes into an extension that contains a specified argument.
The Center problem asks whether, given two extensions of distance k, whether there is a "center" extension that is of distance at most k-1 from both given extensions.
We study these problems in the framework of parameterized complexity, and take the distance k as the parameter. Our results cover several different semantics, including admissible, complete, preferred, semi-stable and stable semantics.
Related Projects:
Project Head Stefan Szeider:
The Parameterized Complexity of Reasoning Problems
Created from the Publication Database of the Vienna University of Technology.