Wolfgang Pauli Institute (WPI) Vienna

"WorKer 2011 — The Third Workshop on Kernelization" (external website )

Location: Vienna University of Technology, 1040 Vienna, Gußhausstr. 25-29, EI 9 Hlawka Hörsaal, ground floor Fri, 2. Sep (Opening: 8:50) - Sun, 4. Sep 11
Organisation(s)
"Vienna University of Technology"
Organiser(s)
"Serge Gaspers, Sebastian Ordyniak, Stefan Szeider (Chair)"
Research on theory and applications of kernelization is a vibrant and rapidly developing area in algorithm design and complexity. After successful workshops in Bergen 2009 and Leiden 2010, this third workshop aims at consolidating the results achieved in recent years and discussing future research directions. A special aspect this year is to take a closer look at related work from different research areas, in particular from Practical Preprocessing, Property Testing, and Knowledge Compilation. Therefore we have invited leading researchers from these three areas to provide keynote talks. The workshop will feature invited keynote talks as well as several invited and contributed talks with surveys and new technical results. The workshop will also provide opportunities for all participants to engage in joint research and discussions on open problems and future directions.

Talks in the framework of this event


Fomin Fedor V. Vienna University of Technology, 1040 Vienna, Gußhausstr. 25-29, EI 9 Hlawka Hörsaal, ground floor Fri, 2. Sep 11, 9:00
"Protrusions in graphs and their applications"
A protrusion in a graph is a subgraph of constant treewidth that can be separated from the graph by removing a constant number of vertices. We discuss combinatorial properties of graphs implying existence of large protrusions and give a number of algorithmic applications of protrusions.
  • Event: "WorKer 2011 — The Third Workshop on Kernelization" (2011)

Marquis Pierre Vienna University of Technology, 1040 Vienna, Gußhausstr. 25-29, EI 9 Hlawka Hörsaal, ground floor Fri, 2. Sep 11, 11:00
"A Few Words about Knowledge Compilation"
My talk will be about knowledge compilation, a research topic studied in AI for more than twenty years, and which is concerned with pre-processing some pieces of information in order to improve some tasks of interest, computationally speaking. In this talk, after an introduction to knowledge compilation, I will focus on two important points: the definition of compilable problems (roughly, those for which computational improvements via pre-processing can be "guaranteed") and the design of a knowledge compilation map (a multi-criteria evaluation of representation languages which can be used as target languages for knowledge compilation).
  • Event: "WorKer 2011 — The Third Workshop on Kernelization" (2011)

Yeo Anders Vienna University of Technology, 1040 Vienna, Gußhausstr. 25-29, EI 9 Hlawka Hörsaal, ground floor Fri, 2. Sep 11, 14:00
"Simultaneously Satisfying Linear Equations Over F_2: Parameterized Above Average"
In this talk we will mainly be considering the parameterized problem MaxLin2-AA. In MaxLin2-AA, we are given a system of variables x_1,... ,x_n and equations of the form x_{i_1}*x_{i_2}*... *x_{i_r} = b, where {x_{i_1},x_{i_2},...,x_{i_r}} is a subset of {1,2,...,n} and all x_i and b belong to {-1, 1}. Furthermore each equation has a positive integral weight, and we want to decide whether it is possible to simultaneously satisfy equations of total weight at least W/2+k, where W is the total weight of all equations and k is the parameter (if k=0, the possibility is assured). In this talk we begin by (briefly) explaining what it means to parameterize a problem above average and why this seems a natural parameterization. We will motivate why MaxLin2-AA is of interest and outline how to obtain a kernel with at most O(k^2 log k) variables, which solves an open problem of Mahajan et al. (2006). Finally we will mention a number of open problems and conjectures.
  • Event: "WorKer 2011 — The Third Workshop on Kernelization" (2011)

Biere Armin Vienna University of Technology, 1040 Vienna, Gußhausstr. 25-29, EI 9 Hlawka Hörsaal, ground floor Fri, 2. Sep 11, 16:30
"Preprocessing and Inprocessing Techniques in SAT"
SAT solvers are used in many applications in and outside of Computer Science. The success of SAT is based on the use of good decision heuristics, learning, restarts, and compact data structures with fast algorithms. But also efficient and effective encoding, preprocessing and inprocessing techniques are important in practice. In this talk we give an overview of old and more recent inprocessing and preprocessing techniques starting with ancient pure literal reasoning and failed literal probing. Hyper-binary resolution and variable elimination are more recent techniques of this century. We discuss blocked-clause elimination, which gives a nice connection to optimizing encodings and conclude with our recent results on unhiding redundancy fast.
Note:  
  • Event: "WorKer 2011 — The Third Workshop on Kernelization" (2011)

Jansen Bart Vienna University of Technology, 1040 Vienna, Gußhausstr. 25-29, EI 9 Hlawka Hörsaal, ground floor Sat, 3. Sep 11, 9:00
"Kernelization for a Hierarchy of Structural Parameters"
There are various reasons to study the kernelization complexity of non-standard parameterizations. Problems such as Chromatic Number are NP-complete for a constant value of the natural parameter, hence we should not hope to obtain kernels for this parameter. For other problems such as Long Path, the natural parameterization is fixed-parameter tractable but is known not to admit a polynomial kernel unless the polynomial hierarchy collapses. We may therefore guide the search for meaningful preprocessing rules for these problems by studying the existence of polynomial kernels for different parameterizations. Another motivation is formed by the Vertex Cover problem. Its natural parameterization admits a small kernel, but there exist refined parameters (such as the feedback vertex number) which are structually smaller than the natural parameter, for which polynomial kernels still exist; hence we may obtain better preprocessing studying the properties of such refined parameters. In this survey talk we discuss recent results on the kernelization complexity of structural parameterizations of these important graph problems. We consider a hierarchy of structural graph parameters, and try to pinpoint the best parameters for which polynomial kernels still exist.
  • Event: "WorKer 2011 — The Third Workshop on Kernelization" (2011)

Chakraborty Sourav Vienna University of Technology, 1040 Vienna, Gußhausstr. 25-29, EI 9 Hlawka Hörsaal, ground floor Sat, 3. Sep 11, 11:00
"Property Testing: Sublinear Algorithms for Promise Problems"
Deciding weather a graph is $k$-colorable is an NP-complete problem and hence solving this problem is expected to be hard. But if we are given a promise that the graph is either $k$-colorable of "far from being $k$-coloarble", can we make some intelligent deductions "quickly"? Property testing deals with these kind of questions, where the goal is to solve some promise problems. The efficiency of an algorihtm is measured by the number of input bits that are read. In many cases there are algorithms that can correctly answer with high probability by looking at a tiny fraction (sometimes even constant) of the input bits. In the past two decades this area has been at the forefront of research in theoretical computer science - we will take at look at it.
  • Event: "WorKer 2011 — The Third Workshop on Kernelization" (2011)

Lokshtanov Daniel Vienna University of Technology, 1040 Vienna, Gußhausstr. 25-29, EI 9 Hlawka Hörsaal, ground floor Sat, 3. Sep 11, 14:00
"Generalization and Specialization of Kernelization"
  • Event: "WorKer 2011 — The Third Workshop on Kernelization" (2011)

Fellows Michael R. Vienna University of Technology, 1040 Vienna, Gußhausstr. 25-29, EI 9 Hlawka Hörsaal, ground floor Sun, 4. Sep 11, 9:30
"Kernelization and the Larger Picture of Practical Algorithmics, in Contemporary Context "
The natural relationship between Parameterized Complexity and heuristics has been a subject of papers and talks since the beginnings of parameterized complexity, and has been especially recognized within the WorKer kernelization community. In the Journal of Computer and System Sciences (January 2011) celebrating Richard Karp's 2008 Koyoto Prize, and elsewhere, Karp proposes a general program, closely related to the standard FPT technique of iterative compression, as a structured approach to heuristic algorithm design, for problems in computational molecular biology and genetics. This talk will discuss Karp's general program in light of the parameterized complexity framework, and survey the contemporary context of programmatic thinking about the deployment of mathematics to serve practical computing, in which pre-processing (kernelization) has, of course, both a central and a leveraged role.
  • Event: "WorKer 2011 — The Third Workshop on Kernelization" (2011)

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