Temat: Total graph - Katalog OPAC zbiorów

Skocz do pozycji: 1.

Tytuł:: 3-Tuple Total Domination Number of Rook’s Graphs
Autorzy:: Pahlavsay, Behnaz
Palezzato, Elisa
Torielli, Michele
Powiązania:: https://bibliotekanauki.pl/articles/32361755.pdf
Data publikacji:: 2022-02-01
Wydawca:: Uniwersytet Zielonogórski. Wydział Matematyki, Informatyki i Ekonometrii
Tematy:: k -tuple total domination
Cartesian product of graphs
rook’s graph
Vizing’s conjecture
Opis:: A k-tuple total dominating set (kTDS) of a graph G is a set S of vertices in which every vertex in G is adjacent to at least k vertices in S. The minimum size of a kTDS is called the k-tuple total dominating number and it is denoted by γ_×k,t(G). We give a constructive proof of a general formula for γ_×3,t(K_n□K_m).
Źródło:: Discussiones Mathematicae Graph Theory; 2022, 42, 1; 15-37
2083-5892
Pojawia się w:: Discussiones Mathematicae Graph Theory
Dostawca treści:: Biblioteka Nauki

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Skocz do pozycji: 2.

Tytuł:: A Note on the Total Detection Numbers of Cycles
Autorzy:: Escuadro, Henry E.
Fujie, Futaba
Musick, Chad E.
Powiązania:: https://bibliotekanauki.pl/articles/31339492.pdf
Data publikacji:: 2015-05-01
Wydawca:: Uniwersytet Zielonogórski. Wydział Matematyki, Informatyki i Ekonometrii
Tematy:: vertex-distinguishing coloring
detectable labeling
detection number
total detection number
Hamiltonian graph
Opis:: Let G be a connected graph of size at least 2 and c :E(G)→{0, 1, . . ., k− 1} an edge coloring (or labeling) of G using k labels, where adjacent edges may be assigned the same label. For each vertex v of G, the color code of v with respect to c is the k-vector code(v) = (a₀, a₁, . . ., a_k−1), where ai is the number of edges incident with v that are labeled i for 0 ≤ i ≤ k − 1. The labeling c is called a detectable labeling if distinct vertices in G have distinct color codes. The value val(c) of a detectable labeling c of a graph G is the sum of the labels assigned to the edges in G. The total detection number td(G) of G is defined by td(G) = min{val(c)}, where the minimum is taken over all detectable labelings c of G. We investigate the problem of determining the total detection numbers of cycles.
Źródło:: Discussiones Mathematicae Graph Theory; 2015, 35, 2; 237-247
2083-5892
Pojawia się w:: Discussiones Mathematicae Graph Theory
Dostawca treści:: Biblioteka Nauki

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Skocz do pozycji: 3.

Tytuł:: A note on total colorings of planar graphs without 4-cycles
Autorzy:: Wang, Ping
Wu, Jian-Liang
Powiązania:: https://bibliotekanauki.pl/articles/744436.pdf
Data publikacji:: 2004
Wydawca:: Uniwersytet Zielonogórski. Wydział Matematyki, Informatyki i Ekonometrii
Tematy:: total coloring
planar graph
list coloring
girth
Opis:: Let G be a 2-connected planar graph with maximum degree Δ such that G has no cycle of length from 4 to k, where k ≥ 4. Then the total chromatic number of G is Δ +1 if (Δ,k) ∈ {(7,4),(6,5),(5,7),(4,14)}.
Źródło:: Discussiones Mathematicae Graph Theory; 2004, 24, 1; 125-135
2083-5892
Pojawia się w:: Discussiones Mathematicae Graph Theory
Dostawca treści:: Biblioteka Nauki

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Skocz do pozycji: 4.

Tytuł:: A Note on Total Graphs
Autorzy:: Forouhandeh, S.F.
Jafari Rad, N.
Vaqari Motlagh, B.H.
Patil, H.P.
Pandiya Raj, R.
Powiązania:: https://bibliotekanauki.pl/articles/31339326.pdf
Data publikacji:: 2015-08-01
Wydawca:: Uniwersytet Zielonogórski. Wydział Matematyki, Informatyki i Ekonometrii
Tematy:: total graph
central graph
middle graph
Mycielski graph
Opis:: Erratum Identification and corrections of the existing mistakes in the paper On the total graph of Mycielski graphs, central graphs and their covering numbers, Discuss. Math. Graph Theory 33 (2013) 361-371.
Źródło:: Discussiones Mathematicae Graph Theory; 2015, 35, 3; 585-587
2083-5892
Pojawia się w:: Discussiones Mathematicae Graph Theory
Dostawca treści:: Biblioteka Nauki

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Skocz do pozycji: 5.

Tytuł:: Chromatic Properties of the Pancake Graphs
Autorzy:: Konstantinova, Elena
Powiązania:: https://bibliotekanauki.pl/articles/31341647.pdf
Data publikacji:: 2017-08-01
Wydawca:: Uniwersytet Zielonogórski. Wydział Matematyki, Informatyki i Ekonometrii
Tematy:: Pancake graph
Cayley graphs
symmetric group
chromatic number
total chromatic number
Opis:: Chromatic properties of the Pancake graphs P_n, n ⩾ 2, that are Cayley graphs on the symmetric group Sym_n generated by prefix-reversals are investigated in the paper. It is proved that for any n ⩾ 3 the total chromatic number of P_n is n, and it is shown that the chromatic index of P_n is n − 1. We present upper bounds on the chromatic number of the Pancake graphs P_n, which improve Brooks’ bound for n ⩾ 7 and Katlin’s bound for n ⩽ 28. Algorithms of a total n-coloring and a proper (n − 1)-coloring are given.
Źródło:: Discussiones Mathematicae Graph Theory; 2017, 37, 3; 777-787
2083-5892
Pojawia się w:: Discussiones Mathematicae Graph Theory
Dostawca treści:: Biblioteka Nauki

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Skocz do pozycji: 6.

Tytuł:: Edge colorings and total colorings of integer distance graphs
Autorzy:: Kemnitz, Arnfried
Marangio, Massimiliano
Powiązania:: https://bibliotekanauki.pl/articles/743555.pdf
Data publikacji:: 2002
Wydawca:: Uniwersytet Zielonogórski. Wydział Matematyki, Informatyki i Ekonometrii
Tematy:: integer distance graph
chromatic number
choice number
chromatic index
choice index
total chromatic number
total choice number
Opis:: An integer distance graph is a graph G(D) with the set Z of integers as vertex set and two vertices u,v ∈ Z are adjacent if and only if |u-v| ∈ D where the distance set D is a subset of the positive integers N. In this note we determine the chromatic index, the choice index, the total chromatic number and the total choice number of all integer distance graphs, and the choice number of special integer distance graphs.
Źródło:: Discussiones Mathematicae Graph Theory; 2002, 22, 1; 149-158
2083-5892
Pojawia się w:: Discussiones Mathematicae Graph Theory
Dostawca treści:: Biblioteka Nauki

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Skocz do pozycji: 7.

Tytuł:: Erdős-Gallai-Type Results for Total Monochromatic Connection of Graphs
Autorzy:: Jiang, Hui
Li, Xueliang
Zhang, Yingying
Powiązania:: https://bibliotekanauki.pl/articles/31343240.pdf
Data publikacji:: 2019-11-01
Wydawca:: Uniwersytet Zielonogórski. Wydział Matematyki, Informatyki i Ekonometrii
Tematy:: total-colored graph
total monochromatic connection
Erdős- Gallai-type problem
Opis:: A graph is said to be total-colored if all the edges and the vertices of the graph are colored. A total-coloring of a graph is a total monochromatically-connecting coloring (TMC-coloring, for short) if any two vertices of the graph are connected by a path whose edges and internal vertices have the same color. For a connected graph G, the total monochromatic connection number, denoted by tmc(G), is defined as the maximum number of colors used in a TMC-coloring of G. In this paper, we study two kinds of Erdős-Gallai-type problems for tmc(G) and completely solve them.
Źródło:: Discussiones Mathematicae Graph Theory; 2019, 39, 4; 775-785
2083-5892
Pojawia się w:: Discussiones Mathematicae Graph Theory
Dostawca treści:: Biblioteka Nauki

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Skocz do pozycji: 8.

Tytuł:: Facial [r,s,t]-Colorings of Plane Graphs
Autorzy:: Czap, Július
Šugerek, Peter
Jendrol’, Stanislav
Valiska, Juraj
Powiązania:: https://bibliotekanauki.pl/articles/31343366.pdf
Data publikacji:: 2019-08-01
Wydawca:: Uniwersytet Zielonogórski. Wydział Matematyki, Informatyki i Ekonometrii
Tematy:: plane graph
boundary walk
edge-coloring
vertex-coloring
total-coloring
Opis:: Let $G$ be a plane graph. Two edges are facially adjacent in $G$ if they are consecutive edges on the boundary walk of a face of $G$. Given nonnegative integers $r$, $s$, and $t$, a facial $[r, s, t]$-coloring of a plane graph $G = (V,E)$ is a mapping $f : V \cup E \rightarrow {1, . . ., k} $ such that $ |f(v_1) − f(v_2)| \ge r $ for every two adjacent vertices $ v_1 $ and $ v_2 $, $ | f(e_1) − f(e_2)| \ge s $ for every two facially adjacent edges $ e_1 $ and $ e_2 $, and $ | f(v) − f(e)| \ge t $ for all pairs of incident vertices $ v $ and edges $ e $. The facial $[r, s, t]$-chromatic number $ \overline{ \chi }_{r,s,t} (G) $ of $ G $ is defined to be the minimum $k$ such that $G$ admits a facial $[r, s, t]$-coloring with colors $1, . . ., k$. In this paper we show that $ \overline{ \chi }_{r,s,t} (G) \le 3r + 3s + t + 1 $ for every plane graph $G$. For some triplets $ [r, s, t] $ and for some families of plane graphs this bound is improved. Special attention is devoted to the cases when the parameters $r$, $s$, and $t$ are small.
Źródło:: Discussiones Mathematicae Graph Theory; 2019, 39, 3; 629-645
2083-5892
Pojawia się w:: Discussiones Mathematicae Graph Theory
Dostawca treści:: Biblioteka Nauki

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Skocz do pozycji: 9.

Tytuł:: Fair Total Domination Number in Cactus Graphs
Autorzy:: Hajian, Majid
Rad, Nader Jafari
Powiązania:: https://bibliotekanauki.pl/articles/32083904.pdf
Data publikacji:: 2021-05-01
Wydawca:: Uniwersytet Zielonogórski. Wydział Matematyki, Informatyki i Ekonometrii
Tematy:: fair total domination
cactus graph
Opis:: For k ≥ 1, a k-fair total dominating set (or just kFTD-set) in a graph G is a total dominating set S such that |N(v) ∩ S| = k for every vertex v ∈ V\S. The k-fair total domination number of G, denoted by ftdk(G), is the minimum cardinality of a kFTD-set. A fair total dominating set, abbreviated FTD-set, is a kFTD-set for some integer k ≥ 1. The fair total domination number of a nonempty graph G, denoted by ftd(G), of G is the minimum cardinality of an FTD-set in G. In this paper, we present upper bounds for the 1-fair total domination number of cactus graphs, and characterize cactus graphs achieving equality for the upper bounds.
Źródło:: Discussiones Mathematicae Graph Theory; 2021, 41, 2; 647-664
2083-5892
Pojawia się w:: Discussiones Mathematicae Graph Theory
Dostawca treści:: Biblioteka Nauki

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Skocz do pozycji: 10.

Tytuł:: Fractional ($ \mathcal{P} , \mathcal{Q} $)-Total List Colorings of Graphs
Autorzy:: Kemnitz, Arnfried
Mihók, Peter
Voigt, Margit
Powiązania:: https://bibliotekanauki.pl/articles/30146708.pdf
Data publikacji:: 2013-03-01
Wydawca:: Uniwersytet Zielonogórski. Wydział Matematyki, Informatyki i Ekonometrii
Tematy:: graph property
total coloring
(P,Q)-total coloring
fractional coloring
fractional (P,Q)-total chromatic number
circular coloring
circular (P,Q)-total chromatic number
list coloring
(P,Q)-total (a
b)-list colorings
Opis:: Let $ r, s \in \mathbb{N}$, $r \ge s$, and $ \mathcal{P} $ and $ \mathcal{Q} $ be two additive and hereditary graph properties. A $ (P,Q) $-total $(r, s)$-coloring of a graph $G = (V,E)$ is a coloring of the vertices and edges of $G$ by $s$-element subsets of $ \mathbb{Z}_r$ such that for each color $i$, $0 \le i \le r − 1$, the vertices colored by subsets containing $i$ induce a subgraph of $G$ with property $ \mathcal{P} $, the edges colored by subsets containing $i$ induce a subgraph of $G$ with property $ \mathcal{Q} $, and color sets of incident vertices and edges are disjoint. The fractional $ (\mathcal{P}, \mathcal{Q})$-total chromatic number $ \chi_{f,P,Q}^{''}(G)$ of $G$ is defined as the infimum of all ratios $r//s$ such that $G$ has a $ ( \mathcal{P}, \mathcal{Q})$-total $(r, s)$-coloring. A $ ( \mathcal{P}, \mathcal{Q} $-total independent set $ T = V_T \cup E_T \subseteq V \cup E$ is the union of a set $V_T$ of vertices and a set $E_T$ of edges of $G$ such that for the graphs induced by the sets $V_T$ and $E_T$ it holds that $ G[ V_T ] \in \mathcal{ P } $, $ G[ E_T ] \in \mathcal{Q} $, and $ G[ V_T ] $ and $ G[ E_T ] $ are disjoint. Let $ T_{ \mathcal{P} , \mathcal{Q} } $ be the set of all $ (\mathcal{P} ,\mathcal{Q})$-total independent sets of $G$. Let $L(x)$ be a set of admissible colors for every element $ x \in V \cup E $. The graph $G$ is called $ (\mathcal{P} , \mathcal{Q}) $-total $(a, b)$-list colorable if for each list assignment $L$ with $|L(x)| = a$ for all $x \in V \cup E$ it is possible to choose a subset $ C(x) \subseteq L(x)$ with $|C(x)| = b$ for all $ x \in V \cup E$ such that the set $ T_i $ which is defined by $ T_i = {x \in V \cup E : i \in C(x) } $ belongs to $ T_{ \mathcal{P},\mathcal{Q}}$ for every color $i$. The $ (\mathcal{P}, \mathcal{Q})$- choice ratio $ \text{chr}_{\mathcal{P},\mathcal{Q}}(G)$ of $G$ is defined as the infimum of all ratios $a//b$ such that $G$ is $ (\mathcal{P},\mathcal{Q})$-total $(a, b)$-list colorable. We give a direct proof of $ \chi_{ f,\mathcal{P},\mathcal{Q} }^{ \prime \prime } (G) = \text{chr}_{ \mathcal{P} ,\mathcal{Q} }(G)$ for all simple graphs $G$ and we present for some properties $ \mathcal{P} $ and $ \mathcal{Q} $ new bounds for the $ (\mathcal{P}, \mathcal{Q})$-total chromatic number and for the $(\mathcal{P},\mathcal{Q})$-choice ratio of a graph $G$.
Źródło:: Discussiones Mathematicae Graph Theory; 2013, 33, 1; 167-179
2083-5892
Pojawia się w:: Discussiones Mathematicae Graph Theory
Dostawca treści:: Biblioteka Nauki

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Skocz do pozycji: 11.

Tytuł:: Generalized Fractional and Circular Total Colorings of Graphs
Autorzy:: Kemnitz, Arnfried
Marangio, Massimiliano
Mihók, Peter
Oravcová, Janka
Soták, Roman
Powiązania:: https://bibliotekanauki.pl/articles/31339338.pdf
Data publikacji:: 2015-08-01
Wydawca:: Uniwersytet Zielonogórski. Wydział Matematyki, Informatyki i Ekonometrii
Tematy:: graph property
(P,Q)-total coloring
circular coloring
fractional coloring
fractional (P,Q)-total chromatic number
circular (P,Q)- total chromatic number
Opis:: Let $ \mathcal{P} $ and $ \mathcal{Q} $ be additive and hereditary graph properties, $ r, s \in \mathbb{N}$, $ r \ge s $, and $ [\mathbb{Z}_r]^s $ be the set of all s-element subsets of $\mathbb{Z}_r $. An ($r$, $s$)-fractional ($ \mathcal{P} $,$ \mathcal{Q} $)-total coloring of $G$ is an assignment $ h : V (G) \cup E(G) \rightarrow [\mathbb{Z}_r]^s $ such that for each $ i \in \mathbb{Z}_r $ the following holds: the vertices of $G$ whose color sets contain color $i$ induce a subgraph of $G$ with property $ \mathcal{P} $, edges with color sets containing color $i$ induce a subgraph of $G$ with property $ \mathcal{Q} $, and the color sets of incident vertices and edges are disjoint. If each vertex and edge of $G$ is colored with a set of $s$ consecutive elements of $ \mathbb{Z}_r $ we obtain an ($r$, $s$)-circular ($ \mathcal{P} $,$ \mathcal{Q} $)-total coloring of $G$. In this paper we present basic results on ($r$, $s$)-fractional/circular ($ \mathcal{P} $,$ \mathcal{Q} $)-total colorings. We introduce the fractional and circular ($ \mathcal{P} $,$ \mathcal{Q}$)-total chromatic number of a graph and we determine this number for complete graphs and some classes of additive and hereditary properties.
Źródło:: Discussiones Mathematicae Graph Theory; 2015, 35, 3; 517-532
2083-5892
Pojawia się w:: Discussiones Mathematicae Graph Theory
Dostawca treści:: Biblioteka Nauki

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Skocz do pozycji: 12.

Tytuł:: Intersection graph of gamma sets in the total graph
Autorzy:: Chelvam, T.
Asir, T.
Powiązania:: https://bibliotekanauki.pl/articles/743214.pdf
Data publikacji:: 2012
Wydawca:: Uniwersytet Zielonogórski. Wydział Matematyki, Informatyki i Ekonometrii
Tematy:: total graph
gamma sets
intersection graph
Hamiltonian
coloring
connectivity
domination number
Opis:: In this paper, we consider the intersection graph $I_{Γ}(ℤₙ)$ of gamma sets in the total graph on ℤₙ. We characterize the values of n for which $I_{Γ}(ℤₙ)$ is complete, bipartite, cycle, chordal and planar. Further, we prove that $I_{Γ}(ℤₙ)$ is an Eulerian, Hamiltonian and as well as a pancyclic graph. Also we obtain the value of the independent number, the clique number, the chromatic number, the connectivity and some domination parameters of $I_{Γ}(ℤₙ)$.
Źródło:: Discussiones Mathematicae Graph Theory; 2012, 32, 2; 341-356
2083-5892
Pojawia się w:: Discussiones Mathematicae Graph Theory
Dostawca treści:: Biblioteka Nauki

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Skocz do pozycji: 13.

Tytuł:: Neighbor Product Distinguishing Total Colorings of Planar Graphs with Maximum Degree at least Ten
Autorzy:: Dong, Aijun
Li, Tong
Powiązania:: https://bibliotekanauki.pl/articles/32227944.pdf
Data publikacji:: 2021-11-01
Wydawca:: Uniwersytet Zielonogórski. Wydział Matematyki, Informatyki i Ekonometrii
Tematy:: total coloring
neighbor product distinguishing coloring
planar graph
Opis:: A proper [k]-total coloring c of a graph G is a proper total coloring c of G using colors of the set [k] = {1, 2, . . ., k}. Let p(u) denote the product of the color on a vertex u and colors on all the edges incident with u. For each edge uv ∈ E(G), if p(u) ≠ p(v), then we say the coloring c distinguishes adjacent vertices by product and call it a neighbor product distinguishing k-total coloring of G. By X^″_∏(G), we denote the smallest value of k in such a coloring of G. It has been conjectured by Li et al. that Δ(G) + 3 colors enable the existence of a neighbor product distinguishing total coloring. In this paper, by applying the Combinatorial Nullstellensatz, we obtain that the conjecture holds for planar graph with Δ(G) ≥ 10. Moreover, for planar graph G with Δ(G) ≥ 11, it is neighbor product distinguishing (Δ(G) + 2)-total colorable, and the upper bound Δ(G) + 2 is tight.
Źródło:: Discussiones Mathematicae Graph Theory; 2021, 41, 4; 981-999
2083-5892
Pojawia się w:: Discussiones Mathematicae Graph Theory
Dostawca treści:: Biblioteka Nauki

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Skocz do pozycji: 14.

Tytuł:: Neighbor Sum Distinguishing Total Choosability of IC-Planar Graphs
Autorzy:: Song, Wen-Yao
Miao, Lian-Ying
Duan, Yuan-Yuan
Powiązania:: https://bibliotekanauki.pl/articles/32083736.pdf
Data publikacji:: 2020-02-01
Wydawca:: Uniwersytet Zielonogórski. Wydział Matematyki, Informatyki i Ekonometrii
Tematy:: neighbor sum distinguishing total choosability
maximum degree
IC-planar graph
Combinatorial Nullstellensatz
Opis:: Two distinct crossings are independent if the end-vertices of the crossed pair of edges are mutually different. If a graph $G$ has a drawing in the plane such that every two crossings are independent, then we call $G$ a plane graph with independent crossings or IC-planar graph for short. A proper total-$k$-coloring of a graph $G$ is a mapping $ c : V (G) \cup E(G) \rightarrow \{ 1, 2, . . ., k \} $ such that any two adjacent elements in $ V (G) \cup E(G) $ receive different colors. Let $ \Sigma_c (v) $ denote the sum of the color of a vertex $v$ and the colors of all incident edges of $v$. A total-$k$-neighbor sum distinguishing-coloring of $G$ is a total-$k$-coloring of $G$ such that for each edge $ uv \in E(G)$, $\Sigma_c (u) \ne \Sigma_c (v) $. The least number $k$ needed for such a coloring of $G$ is the neighbor sum distinguishing total chromatic number, denoted by $ \chi_\Sigma^{''} (G) $. In this paper, it is proved that if $G$ is an IC-planar graph with maximum degree $ \Delta (G) $, then $ ch_\Sigma^{''} (G) \le \text{max} \{ \Delta (G)+3, 17 \} $, where $ ch_\Sigma^{''} (G) $ is the neighbor sum distinguishing total choosability of $G$.
Źródło:: Discussiones Mathematicae Graph Theory; 2020, 40, 1; 331-344
2083-5892
Pojawia się w:: Discussiones Mathematicae Graph Theory
Dostawca treści:: Biblioteka Nauki

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Skocz do pozycji: 15.

Tytuł:: Neighbor Sum Distinguishing Total Chromatic Number of Planar Graphs without 5-Cycles
Autorzy:: Zhao, Xue
Xu, Chang-Qing
Powiązania:: https://bibliotekanauki.pl/articles/32083807.pdf
Data publikacji:: 2020-02-01
Wydawca:: Uniwersytet Zielonogórski. Wydział Matematyki, Informatyki i Ekonometrii
Tematy:: neighbor sum distinguishing total coloring
discharging method
planar graph
Opis:: For a given graph $ G = (V (G), E(G)) $, a proper total coloring $ \phi : V (G) \cup E(G) $ $ \rightarrow {1, 2, . . ., k} $ is neighbor sum distinguishing if $ f(u) \ne f(v) $ for each edge $ uv \in E(G) $, where $ f(v) = \Sigma_{ uv \in E(G) } $ $ \phi (uv) + \phi (v) $, $ v \in V (G) $. The smallest integer $k$ in such a coloring of $G$ is the neighbor sum distinguishing total chromatic number, denoted by $ \chi_\Sigma^{''} (G) $. Pilśniak and Woźniak first introduced this coloring and conjectured that $ \chi_\Sigma^{''}(G) \le \Delta (G)+3 $ for any graph with maximum degree $ \Delta (G) $. In this paper, by using the discharging method, we prove that for any planar graph $G$ without 5-cycles, $ \chi_\Sigma^{''} (G) \le \text{max} \{ \Delta (G)+2, 10 \} $. The bound $ \Delta (G) + 2 $ is sharp. Furthermore, we get the exact value of $ \chi_\Sigma^{''} (G) $ if $ \Delta (G) \ge 9 $.
Źródło:: Discussiones Mathematicae Graph Theory; 2020, 40, 1; 243-253
2083-5892
Pojawia się w:: Discussiones Mathematicae Graph Theory
Dostawca treści:: Biblioteka Nauki

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