ORIGINAL_ARTICLE
The locating-chromatic number for Halin graphs
Let G be a connected graph. Let f be a proper k -coloring of G and Π = (R_1, R_2, . . . , R_k) bean ordered partition of V (G) into color classes. For any vertex v of G, define the color code c_Π(v) of v with respect to Π to be a k -tuple (d(v, R_1), d(v, R_2), . . . , d(v, R_k)), where d(v, R_i) is the min{d(v, x)|x ∈ R_i}. If distinct vertices have distinct color codes, then we call f a locating coloringof G. The locating-chromatic number of G, denoted by χL(G), is the least number k such that Gadmits a locating coloring with k colors. In this paper, we determine the locating-chromatic numberof Halin graphs. We also give the locating-chromatic number of Halin graphs of double stars.
http://comb-opt.azaruniv.ac.ir/article_13577_c74fa5dbcdcae6f2d922402512b3e4bc.pdf
2017-06-01T11:23:20
2019-06-19T11:23:20
1
9
10.22049/cco.2017.13577
locating-chromatic number
Halin
double star
I.A.
Purwasih
true
1
Institut Teknologi Bandung
Institut Teknologi Bandung
Institut Teknologi Bandung
AUTHOR
Edy T.
Baskoro
ebaskoro321@yahoo.com
true
2
Institut Teknologi Bandung
Institut Teknologi Bandung
Institut Teknologi Bandung
LEAD_AUTHOR
H.
Assiyatun
true
3
Institut Teknologi Bandung
Institut Teknologi Bandung
Institut Teknologi Bandung
AUTHOR
D.
Suprijanto
true
4
Institut Teknologi Bandung
Institut Teknologi Bandung
Institut Teknologi Bandung
AUTHOR
M.
Baca
martin.baca@tuke.sk
true
5
Technical University in Koˇsice
Technical University in Koˇsice
Technical University in Koˇsice
AUTHOR
ORIGINAL_ARTICLE
On net-Laplacian Energy of Signed Graphs
A signed graph is a graph where the edges are assigned either positive ornegative signs. Net degree of a signed graph is the dierence between the number ofpositive and negative edges incident with a vertex. It is said to be net-regular if all itsvertices have the same net-degree. Laplacian energy of a signed graph is defined asε(L(Σ)) =|γ_1-(2m)/n|+...+|γ_n-(2m)/n| where γ_1,...,γ_n are the eigenvalues of L(Σ) and (2m)/n isthe average degree of the vertices in Σ. In this paper, we dene net-Laplacian matrixconsidering the edge signs of a signed graph and give bounds for signed net-Laplacianeigenvalues. Further, we introduce net-Laplacian energy of a signed graph and establishnet-Laplacian energy bounds.
http://comb-opt.azaruniv.ac.ir/article_13578_948f7678fc0070ff67068a94731b67f8.pdf
2017-06-01T11:23:20
2019-06-19T11:23:20
11
19
10.22049/cco.2017.13578
Net-regular signed graph
net-Laplacian matrix
net-Laplacian energy
Nutan
Nayak
nayaknutan@yahoo.com
true
1
S.S.Dempo College of Commerce and Economics, Altinho, Panaji,Goa
S.S.Dempo College of Commerce and Economics, Altinho, Panaji,Goa
S.S.Dempo College of Commerce and Economics, Altinho, Panaji,Goa
LEAD_AUTHOR
ORIGINAL_ARTICLE
On global (strong) defensive alliances in some product graphs
A defensive alliance in a graph is a set $S$ of vertices with the property that every vertex in $S$ has at most one moreneighbor outside of $S$ than it has inside of $S$. A defensive alliance $S$ is called global if it forms a dominating set. The global defensive alliance number of a graph $G$ is the minimum cardinality of a global defensive alliance in $G$. In this article we study the global defensive alliances in Cartesian product graphs, strong product graphs and direct product graphs. Specifically we give several bounds for the global defensive alliance number of these graph products and express them in terms of the global defensive alliance numbers of the factor graphs.
http://comb-opt.azaruniv.ac.ir/article_13595_d725af4d472f1574e07ceddb207995cf.pdf
2017-06-01T11:23:20
2019-06-19T11:23:20
21
33
10.22049/cco.2017.13595
Defensive alliances
global defensive alliances
Cartesian product graphs
strong product graph
direct product graphs
Ismael
Gonzalez Yero
ismael.gonzalez@uca.es
true
1
University of Cadiz
University of Cadiz
University of Cadiz
LEAD_AUTHOR
Marko
Jakovac
marko.jakovac@um.si
true
2
University of Maribor
University of Maribor
University of Maribor
AUTHOR
Dorota
Kuziak
dorota.kuziak@urv.cat
true
3
Universitat Rovira i Virgili
Universitat Rovira i Virgili
Universitat Rovira i Virgili
AUTHOR
ORIGINAL_ARTICLE
Sufficient conditions for maximally edge-connected and super-edge-connected
Let $G$ be a connected graph with minimum degree $delta$ and edge-connectivity $lambda$. A graph ismaximally edge-connected if $lambda=delta$, and it is super-edge-connected if every minimum edge-cut istrivial; that is, if every minimum edge-cut consists of edges incident with a vertex of minimum degree.In this paper, we show that a connected graph or a connected triangle-free graph is maximallyedge-connected or super-edge-connected if the numberof edges is large enough. Examples will demonstrate that our conditions are sharp.\noindent {bf Keywords:} Edge-connectivity; Maximally edge-connected graphs; Super-edge-connectedgraphs
http://comb-opt.azaruniv.ac.ir/article_13594_f13dab4717cdbf819f2dae83f101834a.pdf
2017-06-01T11:23:20
2019-06-19T11:23:20
35
41
10.22049/cco.2017.13594
edge-connectivity
Maximally edge-connected graphs
Super-edge-connected graphs
Lutz
Volkmann
volkm@math2.rwth-aachen.de
true
1
RWTH Aachen University
RWTH Aachen University
RWTH Aachen University
LEAD_AUTHOR
Zhen-Mu
Hong
zmhong@mail.ustc.edu.cn
true
2
Anhui University of Finance and Economics
Anhui University of Finance and Economics
Anhui University of Finance and Economics
AUTHOR
ORIGINAL_ARTICLE
Peripheral Wiener Index of a Graph
The eccentricity of a vertex $v$ is the maximum distance between $v$ and anyother vertex. A vertex with maximum eccentricity is called a peripheral vertex.The peripheral Wiener index $ PW(G)$ of a graph $G$ is defined as the sum ofthe distances between all pairs of peripheral vertices of $G.$ In this paper, weinitiate the study of the peripheral Wiener index and we investigate its basicproperties. In particular, we determine the peripheral Wiener index of thecartesian product of two graphs and trees.
http://comb-opt.azaruniv.ac.ir/article_13596_983abceb15410e89528e5fcbb919dade.pdf
2017-06-01T11:23:20
2019-06-19T11:23:20
43
56
10.22049/cco.2017.13596
Distance (in Graphs)
Wiener Index
Peripheral Wiener Index
Kishori
Narayankar
kishori_pn@yahoo.co.in
true
1
Mangalore University
Mangalore University
Mangalore University
LEAD_AUTHOR
Lokesh
B
sbloki83@gmail.com
true
2
Mangalore University
Mangalore University
Mangalore University
AUTHOR
ORIGINAL_ARTICLE
On the signed Roman edge k-domination in graphs
Let $kgeq 1$ be an integer, and $G=(V,E)$ be a finite and simplegraph. The closed neighborhood $N_G[e]$ of an edge $e$ in a graph$G$ is the set consisting of $e$ and all edges having a commonend-vertex with $e$. A signed Roman edge $k$-dominating function(SREkDF) on a graph $G$ is a function $f:E rightarrow{-1,1,2}$ satisfying the conditions that (i) for every edge $e$of $G$, $sum _{xin N[e]} f(x)geq k$ and (ii) every edge $e$for which $f(e)=-1$ is adjacent to at least one edge $e'$ forwhich $f(e')=2$. The minimum of the values $sum_{ein E}f(e)$,taken over all signed Roman edge $k$-dominating functions $f$ of$G$, is called the signed Roman edge $k$-domination number of $G$and is denoted by $gamma'_{sRk}(G)$. In this paper we establish some new bounds on the signed Roman edge $k$-domination number.
http://comb-opt.azaruniv.ac.ir/article_13642_c8b75d7b7cce416e2210ba5e68bb4ee2.pdf
2017-06-01T11:23:20
2019-06-19T11:23:20
57
64
10.22049/cco.2017.25962.1061
signed Roman edge k-dominating function
signed Roman edge k-domination number
domination number
Akram
Mahmoodi
akmahmoodi@yahoo.com
true
1
Department of Mathematics
Payame Noor University
I.R. Iran
Department of Mathematics
Payame Noor University
I.R. Iran
Department of Mathematics
Payame Noor University
I.R. Iran
LEAD_AUTHOR