Metric dimension of ideal-intersection graph of the ring

Power graphs and exchange property for resolving sets

Open Mathematics ◽

10.1515/math-2019-0093 ◽

2019 ◽

Vol 17 (1) ◽

pp. 1303-1309 ◽

Cited By ~ 1

Author(s):

Ghulam Abbas ◽

Usman Ali ◽

Mobeen Munir ◽

Syed Ahtsham Ul Haq Bokhary ◽

Shin Min Kang

Keyword(s):

Present Article ◽

Linear Algebra ◽

Finite Groups ◽

Robot Navigation ◽

Simple Graph ◽

Exchange Property ◽

Metric Dimension ◽

Sufficient Condition ◽

Resolving Set ◽

Dihedral Groups

Abstract Classical applications of resolving sets and metric dimension can be observed in robot navigation, networking and pharmacy. In the present article, a formula for computing the metric dimension of a simple graph wihtout singleton twins is given. A sufficient condition for the graph to have the exchange property for resolving sets is found. Consequently, every minimal resolving set in the graph forms a basis for a matriod in the context of independence defined by Boutin [Determining sets, resolving set and the exchange property, Graphs Combin., 2009, 25, 789-806]. Also, a new way to define a matroid on finite ground is deduced. It is proved that the matroid is strongly base orderable and hence satisfies the conjecture of White [An unique exchange property for bases, Linear Algebra Appl., 1980, 31, 81-91]. As an application, it is shown that the power graphs of some finite groups can define a matroid. Moreover, we also compute the metric dimension of the power graphs of dihedral groups.

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Metric Dimension Parameterized By Treewidth

Algorithmica ◽

10.1007/s00453-021-00808-9 ◽

2021 ◽

Author(s):

Édouard Bonnet ◽

Nidhi Purohit

Keyword(s):

Computable Function ◽

Polynomial Time Algorithm ◽

Time Algorithm ◽

Minimum Size ◽

Metric Dimension ◽

Resolving Set ◽

Input Graph ◽

Outerplanar Graphs ◽

Bounded Treewidth ◽

Fpt Algorithm

AbstractA resolving set S of a graph G is a subset of its vertices such that no two vertices of G have the same distance vector to S. The Metric Dimension problem asks for a resolving set of minimum size, and in its decision form, a resolving set of size at most some specified integer. This problem is NP-complete, and remains so in very restricted classes of graphs. It is also W[2]-complete with respect to the size of the solution. Metric Dimension has proven elusive on graphs of bounded treewidth. On the algorithmic side, a polynomial time algorithm is known for trees, and even for outerplanar graphs, but the general case of treewidth at most two is open. On the complexity side, no parameterized hardness is known. This has led several papers on the topic to ask for the parameterized complexity of Metric Dimension with respect to treewidth. We provide a first answer to the question. We show that Metric Dimension parameterized by the treewidth of the input graph is W[1]-hard. More refinedly we prove that, unless the Exponential Time Hypothesis fails, there is no algorithm solving Metric Dimension in time $$f(\text {pw})n^{o(\text {pw})}$$ f ( pw ) n o ( pw ) on n-vertex graphs of constant degree, with $$\text {pw}$$ pw the pathwidth of the input graph, and f any computable function. This is in stark contrast with an FPT algorithm of Belmonte et al. (SIAM J Discrete Math 31(2):1217–1243, 2017) with respect to the combined parameter $$\text {tl}+\Delta$$ tl + Δ , where $$\text {tl}$$ tl is the tree-length and $$\Delta$$ Δ the maximum-degree of the input graph.

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Mixed metric dimension of graphs with edge disjoint cycles

Discrete Applied Mathematics ◽

10.1016/j.dam.2021.05.004 ◽

2021 ◽

Vol 300 ◽

pp. 1-8

Author(s):

Jelena Sedlar ◽

Riste Škrekovski

Keyword(s):

Metric Dimension ◽

Edge Disjoint ◽

Disjoint Cycles ◽

Mixed Metric

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Study on the Identification Method of Pyrogenetic Rock Based on N -DP Intersection Graph

IOP Conference Series Earth and Environmental Science ◽

10.1088/1755-1315/804/2/022020 ◽

2021 ◽

Vol 804 (2) ◽

pp. 022020

Author(s):

Gang Hu ◽

Zhiqiang Mao ◽

Ping Yan ◽

Qian Yin ◽

Xiyu Wang ◽

...

Keyword(s):

Intersection Graph ◽

Identification Method

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Turán-type results for intersection graphs of boxes

Combinatorics Probability Computing ◽

10.1017/s0963548321000171 ◽

2021 ◽

pp. 1-6

Author(s):

István Tomon ◽

Dmitriy Zakharov

Keyword(s):

Short Note ◽

Intersection Graph ◽

Intersection Graphs ◽

Poset Dimension ◽

Axis Parallel ◽

Turán Theorem ◽

Separation Dimension

Abstract In this short note, we prove the following analog of the Kővári–Sós–Turán theorem for intersection graphs of boxes. If G is the intersection graph of n axis-parallel boxes in $${{\mathbb{R}}^d}$$ such that G contains no copy of K t,t , then G has at most ctn( log n)2d+3 edges, where c = c(d)>0 only depends on d. Our proof is based on exploring connections between boxicity, separation dimension and poset dimension. Using this approach, we also show that a construction of Basit, Chernikov, Starchenko, Tao and Tran of K2,2-free incidence graphs of points and rectangles in the plane can be used to disprove a conjecture of Alon, Basavaraju, Chandran, Mathew and Rajendraprasad. We show that there exist graphs of separation dimension 4 having superlinear number of edges.

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The intersection graph of a finite simple group has diameter at most 5

Archiv der Mathematik ◽

10.1007/s00013-021-01583-3 ◽

2021 ◽

Author(s):

Saul D. Freedman

Keyword(s):

Simple Group ◽

Upper Bound ◽

Finite Simple Group ◽

Unitary Groups ◽

Intersection Graph ◽

Monster Group ◽

Prime Dimension

AbstractLet G be a non-abelian finite simple group. In addition, let $$\Delta _G$$ Δ G be the intersection graph of G, whose vertices are the proper non-trivial subgroups of G, with distinct subgroups joined by an edge if and only if they intersect non-trivially. We prove that the diameter of $$\Delta _G$$ Δ G has a tight upper bound of 5, thereby resolving a question posed by Shen (Czechoslov Math J 60(4):945–950, 2010). Furthermore, a diameter of 5 is achieved only by the baby monster group and certain unitary groups of odd prime dimension.

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Metric and Strong Metric Dimension in Cozero-Divisor Graphs

Mediterranean Journal of Mathematics ◽

10.1007/s00009-021-01772-y ◽

2021 ◽

Vol 18 (3) ◽

Author(s):

R. Nikandish ◽

M. J. Nikmehr ◽

M. Bakhtyiari

Keyword(s):

Metric Dimension ◽

Strong Metric Dimension

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A Krasnosel’skii-type theorem for certain orthogonal polytopes starshaped via k-staircase paths

Advances in Geometry ◽

10.1515/advgeom-2019-0018 ◽

2020 ◽

Vol 20 (2) ◽

pp. 169-177 ◽

Cited By ~ 1

Author(s):

Marilyn Breen

Keyword(s):

Type Theorem ◽

Common Point ◽

Finite Family ◽

Intersection Graph ◽

Axis Parallel ◽

Orthogonal Polytopes

AbstractLet 𝒞 be a finite family of distinct axis-parallel boxes in ℝd whose intersection graph is a tree, and let S = ⋃{C : C in 𝒞}. If every two points of S see a common point of S via k-staircase paths, then S is starshaped via k-staircase paths. Moreover, the k-staircase kernel of S will be convex via k-staircases.

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