Editorium

• A. Bernstein, W. Effelsberg, S. Hölldobler, H.-P. Lenhof, K.-P. Löhr, P. Molitor, G. Neumann, R. Reischuk, N. Schweikardt, M. Spiliopoulou, H. Störrle, S. Süsstrunk:
  Ausgezeichnete Informatikdissertationen 2013.
  Band 14 von Lecture Notes in Informatics, Dissertationen, GI, 2014.

Zeitschriftenartikel

• Maciej Liskiewicz, Martin R. Schuster:
  A new upper bound for the traveling salesman problem in cubic graphs.
  Journal of Discrete Algorithms, (27):1-20, 2014.
  Website anzeigen

Konferenzbeiträge

• Alexander Idelberger, Maciej Liskiewicz:
  On the Computational Complexity of Partitioning Weighted Points into a Grid of Quadrilaterals.
  In Proceedings of the 26th Canadian Conference on Computational Geometry (CCCG'14), Halifax, Nova Scotia, Canada, 2014.
  Website anzeigen
• Johannes Textor, Katharina Dannenberg, Maciej Liskiewicz:
  A Generic Finite Automata Based Approach to Implementing Lymphocyte Repertoire Models.
  In Proceedings of the Annual Conference on Genetic and Evolutionary Computation (GECCO'14), S. 129-136. ACM Press, 2014.
  Website anzeigen
• Benito van der Zander, Johannes Textor, Maciej Liskiewicz:
  Constructing Separators and Adjustment Sets in Ancestral Graphs.
  In Proceedings of the 30th Conference on Uncertainty in Artificial Intelligence (UAI'14), Quebec, Canada, S. 907-916. AUAI Press, 2014.
  PDF anzeigen
• Benito van der Zander:
  Extending XQuery with pattern matching over XML, HTML and JSON, and its usage for data mining..
  In Proceedings of Balisage: The Markup Conference, , 2014.
  Website anzeigen

Technische Berichte

• Sebastian Berndt, Klaus Jansen, Kim-Manuel Klein:
  Fully Dynamic Bin Packing Revisited.
  Technischer Bericht arXiv:1411.0960, arXiv, 2014.
  Website anzeigen | Zusammenfassung anzeigen
  
  We consider the fully dynamic bin packing problem, where items arrive and depart in an online fashion and repacking of previously packed items is allowed. The goal is, of course, to minimize both the number of bins used as well as the amount of repacking. A recently introduced way of measuring the repacking costs at each timestep is the migration factor, defined as the total size of repacked items divided by the size of an arriving or departing item. Concerning the trade-off between number of bins and migration factor, if we wish to achieve an asymptotic competitive ratio of 1 + epsilon for the number of bins, a relatively simple argument proves a lower bound of Omega(1/epsilon) of the migration factor. We establish a fairly close upper bound of O(1/epsilon^4 log(1/epsilon)) using a new dynamic rounding technique and new ideas to handle small items in a dynamic setting such that no amortization is needed. The running time of our algorithm is polynomial in the number of items n and in 1/epsilon. The previous best trade-off was for an asymptotic competitive ratio of 5/4 for the bins (rather than 1+epsilon) and needed an amortized number of O(log n) repackings (while in our scheme the number of repackings is independent of n and non-amortized).

Master- und Diplomarbeiten

• I. D. B.:
  Design and Implementation of a Configurable Framework for Forced-Based Graph Drawing.
  Universität zu Lübeck, Institut für Theoretische Informatik, 2014.
  Gutachter: Till Tantau, Hans-Martin Teichert.
• M. B.:
  On the Space and Circuit Complexity of Certain Parameterized Problems.
  Universität zu Lübeck, Institut für Theoretische Informatik, 2014.
  Gutachter: Till Tantau, Maciej Liskiewicz.
  PDF anzeigen | Zusammenfassung anzeigen
  
  Parameterized complexity theory provides important tools to generate and an- alyze reasonable fast algorithms for hard problems. Current research mainly focuses on the question whether parameterized problems are fixed-parameter tractable or not, i. e., if there is a fast algorithm solving them. Thus, the only considered resource is time, while parameterized space and circuit complexity is often omitted, although these resources are useful in classical complexity the- ory as well. A recent work from Elberfeld, Stockhusen, and Tantau provides a framework of parameterized space and circuit classes to cover this area [26]. Al- though the framework provides parameterized space and circuit classes, as well as tools to analyze them, there is still a lack of complete problems for most of these classes. The objective of this thesis is to resolve this issue by analyzing widely known problems with respect to the framework and, thus, populate the different classes. This will lead to new upper bounds for many natural prob- lems, together with a couple of new lower bounds for some of them. Moreover, we will also be able to collide the upper and lower bounds of some of these problems and, hence, finally resolve the complexity of them.
• K. L.:
  Entwurf und Implementierung eines Algorithmus zur Berechnung einer Pfadzerlegung von kubischen Graphen.
  Universität zu Lübeck, Institut für Theoretische Informatik, 2014.
  Gutachter: Maciej Liskiewicz, Martin Leucker.
• A. M.:
  An Approach to Solving Object Displacement Problems.
  Universität zu Lübeck, Institut für Robotik und Kognitive Systeme, 2014.
  Gutachter: Achim Schweikard, Till Tantau.
• F. N.:
  Konzeption und Implementierung eines merkmalbasierten Workflows für die Steganalyse.
  Universität zu Lübeck, Institut für Theoretische Informatik, 2014.
  Gutachter: Rüdiger Reischuk, Stefan Fischer.
• T. S.:
  Logiken für verteilte Laufzeitverfikation.
  Universität zu Lübeck, Institut für Softwaretechnik und Programmiersprachen, 2014.
  Gutachter: Martin Leucker, Till Tantau.
• S. S.:
  Sicheres Cloud-Computing.
  Universität zu Lübeck, Institut für Theoretische Informatik, 2014.
  Gutachter: Rüdiger Reischuk, Stefan Fischer.
• M. S.:
  Verteilte Laufzeitverfikation auf eingebetteten Systemen.
  Universität zu Lübeck, Institut für Softwaretechnik und Programmiersprachen, 2014.
  Gutachter: Martin Leucker, Till Tantau.
• E. v. T.:
  STL: Combining Stream-based and Temporal Logics.
  Universität zu Lübeck, Institut für Softwaretechnik und Programmiersprachen, 2014.
  Gutachter: Martin Leucker, Till Tantau.

Bachelor- und Studienarbeiten

• R. G.:
  Frameshift Mutations of the Genetic Code and Their Impact on the Polarity Conversation of Amino Acids.
  Universität zu Lübeck, Institut für Neuro- und Bioinformatik, 2014.
  Gutachter: Amir Madany Mamlouk, Till Tantau.
• J. H.:
  Entwicklung eines SAT-Solvers.
  Universität zu Lübeck, Institut für Softwaretechnik und Programmiersprachen, 2014.
  Gutachter: M. Leucker, M. Liskiewicz.
• P. M. K.:
  Erhöhung der Netzwerk-Kapazität in Flussnetzwerken mit Speicherknoten.
  Universität zu Lübeck, Institut für Theoretische Informatik, 2014.
  Gutachter: Rüdiger Reischuk, Hans-Martin Teichert.
• M. M.:
  Vier-wertige Abwicklungssemantik für Timet-LTL.
  Universität zu Lübeck, Institut für Softwaretechnik und Programmiersprachen, 2014.
  Gutachter: Martin Leucker, Maciej Liskiewicz.