Year 2023

• Modele i algorytmy dla grafowych struktur defensywnych

  Publication

  • R. Lewoń

  - Year 2023

  W niniejszej pracy przeprowadzono analizę złożoności istnienia struktur defensywnych oraz równowag strategicznych w grafach. W przypadku struktur defensywnych badano modele koalicji defensywnych, zbiorów defensywnych i koalicji krawędziowych - każdy z nich w wersji globalnej, tj. z wymogiem dominacji całego grafu. W przypadku modeli równowagi strategicznej badano równowagę strategiczną koalicji defensywnych, równowagę strategiczną...

Year 2020

• Tight bounds on global edge and complete alliances in trees

  Publication

  • K. Wereszko
  • R. Kozakiewicz
  • R. Lewoń
  • M. Małafiejski

  - Year 2020

  In the talk the authors present some tight upper bounds on global edge alliance number and global complete alliance number of trees. Moreover, we present our NP-completeness results from [8] for global edge alliances and global complete alliances on subcubic bipartite graphs without pendant vertices. We discuss also polynomial time exact algorithms for finding the minimum global edge alliance on trees [7] and complete alliance...

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Year 2019

• Global edge alliances in graphs

  Publication

  • R. Lewoń
  • A. Małafiejska
  • M. Małafiejski
  • K. Wereszko

  - DISCRETE APPLIED MATHEMATICS - Year 2019

  In the paper we introduce and study a new problem of finding a minimum global edge alliance in a graph which is related to the global defensive alliance (Haynes et al., 2013; Hedetniemi, 2004) and the global defensive set (Lewoń et al., 2016). We proved the NP-completeness of the global edge alliance problem for subcubic graphs and we constructed polynomial time algorithms for trees. We found the exact values of the size of the...

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Year 2017

• Równowaga strategiczna dla zbiorów defensywnych w drzewach

  Publication

  • R. Kozakiewicz
  • R. Lewoń
  • M. Małafiejski

  - Year 2017

  W pracy rozważany jest problem defensywnej równowagi strategicznej dla zbiorów defensywnych w drzewach (spójnych grafach acyklicznych), który polega na znalezieniu dwóch rozłącznych globalnych zbiorów defensywnych. Zagadnienie to znajduje zastosowanie w modelo- waniu problemów komunikacyjnych w sieciach. Dla danego grafu G podzbiór jego wierzchołków S jest zbiorem defensywnym, jeśli dla każdego wierzchołka v należącego do S spełniony...

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Year 2016

• Global defensive sets in graphs

  Publication

  • R. Lewoń
  • A. Małafiejska
  • M. Małafiejski

  - DISCRETE MATHEMATICS - Year 2016

  In the paper we study a new problem of finding a minimum global defensive set in a graph which is a generalization of the global alliance problem. For a given graph G and a subset S of a vertex set of G, we define for every subset X of S the predicate SEC ( X ) = true if and only if | N [ X ] ∩ S | ≥ | N [ X ] \ S | holds, where N [ X ] is a closed neighbourhood of X in graph G. A set S is a defensive alliance if and only if for...

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• Strategic balance in graphs

  Publication

  • R. Lewoń
  • A. Małafiejska
  • M. Małafiejski

  - DISCRETE MATHEMATICS - Year 2016

  For a given graph G, a nonempty subset S contained in V ( G ) is an alliance iff for each vertex v ∈ S there are at least as many vertices from the closed neighbourhood of v in S as in V ( G ) − S. An alliance is global if it is also a dominating set of G. The alliance partition number of G was defined in Hedetniemi et al. (2004) to be the maximum number of sets in a partition of V ( G ) such that each set is an alliance. Similarly,...

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Year 2015

• Graph security testing

  Publication

  • T. Gieniusz
  • R. Lewoń
  • M. Małafiejski

  - Journal of Applied Computer Science - Year 2015

  Set S ⊂ V is called secure set iff ∀ X ⊂ S | N [ X ] ∩ S | ≥ | N ( X ) \ S | [3]. That means that every subset of a secure set has at least as many friends (neighbour vertices in S) as enemies (neighbour vertices outside S) and will be defended in case of attack. Problem of determining if given set is secure is co −NP -complete, there is no efficient algorithm solving it [3]. Property testers are algorithms that distinguish inputs...

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Year 2014

• Algorithms for testing security in graphs

  Publication

  • A. Hiler
  • R. Lewoń
  • M. Małafiejski

  - Studia i Materiały Informatyki Stosowanej - Year 2014

  In this paper we propose new algorithmic methods giving with the high probability the correct answer to the decision problem of security in graphs. For a given graph G and a subset S of a vertex set of G we have to decide whether S is secure, i.e. every subset X of S fulfils the condition: |N[X] \cap S| >= |N[X] \ S|, where N[X] is a closed neighbourhood of X in graph G. We constructed a polynomial time property pseudotester based...

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