A proper <em>k</em>-edge coloring of a graph <em>G</em> = (<em>V</em>(<em>G</em>), <em>E</em>(<em>G</em>)) is an assignment <em>c</em>...A proper <em>k</em>-edge coloring of a graph <em>G</em> = (<em>V</em>(<em>G</em>), <em>E</em>(<em>G</em>)) is an assignment <em>c</em>: <em>E</em>(<em>G</em>) → {1, 2, …, <em>k</em>} such that no two adjacent edges receive the same color. A neighbor sum distinguishing <em>k</em>-edge coloring of <em>G</em> is a proper <em>k</em>-edge coloring of <em>G</em> such that <img src="Edit_28f0a24c-7d3f-4bdc-b58c-46dfa2add4b4.bmp" alt="" /> for each edge <em>uv</em> ∈ <em>E</em>(<em>G</em>). The neighbor sum distinguishing index of a graph <em>G</em> is the least integer <em>k</em> such that <em>G </em>has such a coloring, denoted by <em>χ’</em><sub>Σ</sub>(<em>G</em>). Let <img src="Edit_7525056f-b99d-4e38-b940-618d16c061e2.bmp" alt="" /> be the maximum average degree of <em>G</em>. In this paper, we prove <em>χ</em>’<sub>Σ</sub>(<em>G</em>) ≤ max{9, Δ(<em>G</em>) +1} for any normal graph <em>G</em> with <img src="Edit_e28e38d5-9b6d-46da-bfce-2aae47cc36f3.bmp" alt="" />. Our approach is based on the discharging method and Combinatorial Nullstellensatz.展开更多
Let G be a graph and let its maxiraum degree and maximum average degree be denoted by △(G) and mad(G), respectively. A neighbor sum distinguishing k-edge colorings of graph G is a proper k-edge coloring of graph ...Let G be a graph and let its maxiraum degree and maximum average degree be denoted by △(G) and mad(G), respectively. A neighbor sum distinguishing k-edge colorings of graph G is a proper k-edge coloring of graph G such that, for any edge uv ∈ E(G), the sum of colors assigned on incident edges of u is different from the sum of colors assigned on incident edges of v. The smallest value of k in such a coloring of G is denoted by X∑ (G). Flandrin et al. proposed the following conjecture that X'∑ (G) ≤△ (G) + 2 for any connected graph with at least 3 vertices and G ≠ C5. In this paper, we prove that the conjecture holds for a normal graph with mad(G) 〈 37/12and △ (G)≥ 7.展开更多
Given a graph G=(V,E)and a positive integer k,a k-total-coloring of G is a mappingφ:V⋃E→{1,2,⋯,k}such that no two adjacent or incident elements receive the same color.The central problem of the total-colorings is th...Given a graph G=(V,E)and a positive integer k,a k-total-coloring of G is a mappingφ:V⋃E→{1,2,⋯,k}such that no two adjacent or incident elements receive the same color.The central problem of the total-colorings is the Total Coloring Conjecture,which asserts that every graph of maximum degreeΔadmits a(Δ+2)-total-coloring.More precisely,this conjecture has been verified forΔ≤5,and it is still open whenΔ=6,even for planar graphs.Let mad(G)denote the maximum average degree of the graph G.In this paper,we prove that every graph G withΔ(G)=6 and mad(G)<23/5 admits an 8-total-coloring.展开更多
Let Ф : E(G)→ {1, 2,…, k}be an edge coloring of a graph G. A proper edge-k-coloring of G is called neighbor sum distinguishing if ∑eЭu Ф(e)≠∑eЭu Ф(e) for each edge uv∈E(G).The smallest value k for ...Let Ф : E(G)→ {1, 2,…, k}be an edge coloring of a graph G. A proper edge-k-coloring of G is called neighbor sum distinguishing if ∑eЭu Ф(e)≠∑eЭu Ф(e) for each edge uv∈E(G).The smallest value k for which G has such a coloring is denoted by χ'Σ(G) which makes sense for graphs containing no isolated edge(we call such graphs normal). It was conjectured by Flandrin et al. that χ'Σ(G) ≤△(G) + 2 for all normal graphs,except for C5. Let mad(G) = max{(2|E(H)|)/(|V(H)|)|HЭG}be the maximum average degree of G. In this paper,we prove that if G is a normal graph with△(G)≥5 and mad(G) 〈 3-2/(△(G)), then χ'Σ(G)≤△(G) + 1. This improves the previous results and the bound △(G) + 1 is sharp.展开更多
A star k-edge-coloring is a proper k-edge-coloring such that every connected bicolored subgraph is a path of length at most 3.The star chromatic indexχ'_(st)(G)of a graph G is the smallest integer k such that G h...A star k-edge-coloring is a proper k-edge-coloring such that every connected bicolored subgraph is a path of length at most 3.The star chromatic indexχ'_(st)(G)of a graph G is the smallest integer k such that G has a star k-edge-coloring.The list star chromatic index ch'st(G)is defined analogously.The star edge coloring problem is known to be NP-complete,and it is even hard to obtain tight upper bound as it is unknown whether the star chromatic index for complete graph is linear or super linear.In this paper,we study,in contrast,the best linear upper bound for sparse graph classes.We show that for everyε>0 there exists a constant c(ε)such that if mad(G)<8/3-ε,then■and the coefficient 3/2 ofΔis the best possible.The proof applies a newly developed coloring extension method by assigning color sets with different sizes.展开更多
Let G be a graph and H a subgraph of G. A backbone-k-coloring of (G, H) is a mapping f: V(G) → {1,2,…,k} such that If(u)- f(v)| ≥ 2 if uv ∈ E(H) and |f(u)- f(v) | ≥ 1 if uv ∈ E(G)/E(H). T...Let G be a graph and H a subgraph of G. A backbone-k-coloring of (G, H) is a mapping f: V(G) → {1,2,…,k} such that If(u)- f(v)| ≥ 2 if uv ∈ E(H) and |f(u)- f(v) | ≥ 1 if uv ∈ E(G)/E(H). The backbone chromatic number of (G, H) denoted by Xb(G, H) is the smallest integer k such that (G, H) has a backbone-k-coloring. In this paper, we prove that if G is either a connected triangle-free planar graph or a connected graph with mad(G) 〈 3, then there exists a spanning tree T of G such that Xb(G, T) ≤ 4.展开更多
A proper k-edge coloring of a graph G is an assignment of one of k colors to each edge of G such that there are no two edges with the same color incident to a common vertex.Let f(v)denote the sum of colors of the edge...A proper k-edge coloring of a graph G is an assignment of one of k colors to each edge of G such that there are no two edges with the same color incident to a common vertex.Let f(v)denote the sum of colors of the edges incident to v.A k-neighbor sum distinguishing edge coloring of G is a proper k-edge coloring of G such that for each edge uv∈E(G),f(u)≠f(v).Byχ’_∑(G),we denote the smallest value k in such a coloring of G.Let mad(G)denote the maximum average degree of a graph G.In this paper,we prove that every normal graph with mad(G)<10/3 andΔ(G)≥8 admits a(Δ(G)+2)-neighbor sum distinguishing edge coloring.Our approach is based on the Combinatorial Nullstellensatz and discharging method.展开更多
文摘A proper <em>k</em>-edge coloring of a graph <em>G</em> = (<em>V</em>(<em>G</em>), <em>E</em>(<em>G</em>)) is an assignment <em>c</em>: <em>E</em>(<em>G</em>) → {1, 2, …, <em>k</em>} such that no two adjacent edges receive the same color. A neighbor sum distinguishing <em>k</em>-edge coloring of <em>G</em> is a proper <em>k</em>-edge coloring of <em>G</em> such that <img src="Edit_28f0a24c-7d3f-4bdc-b58c-46dfa2add4b4.bmp" alt="" /> for each edge <em>uv</em> ∈ <em>E</em>(<em>G</em>). The neighbor sum distinguishing index of a graph <em>G</em> is the least integer <em>k</em> such that <em>G </em>has such a coloring, denoted by <em>χ’</em><sub>Σ</sub>(<em>G</em>). Let <img src="Edit_7525056f-b99d-4e38-b940-618d16c061e2.bmp" alt="" /> be the maximum average degree of <em>G</em>. In this paper, we prove <em>χ</em>’<sub>Σ</sub>(<em>G</em>) ≤ max{9, Δ(<em>G</em>) +1} for any normal graph <em>G</em> with <img src="Edit_e28e38d5-9b6d-46da-bfce-2aae47cc36f3.bmp" alt="" />. Our approach is based on the discharging method and Combinatorial Nullstellensatz.
基金supported by the National Natural Science Foundation of China(Grant No.11571258)the National Natural Science Foundation of Shandong Province(Grant No.ZR2016AM01)Scientific Research Foundation of University of Jinan(Grant Nos.XKY1414 and XKY1613)
文摘Let G be a graph and let its maxiraum degree and maximum average degree be denoted by △(G) and mad(G), respectively. A neighbor sum distinguishing k-edge colorings of graph G is a proper k-edge coloring of graph G such that, for any edge uv ∈ E(G), the sum of colors assigned on incident edges of u is different from the sum of colors assigned on incident edges of v. The smallest value of k in such a coloring of G is denoted by X∑ (G). Flandrin et al. proposed the following conjecture that X'∑ (G) ≤△ (G) + 2 for any connected graph with at least 3 vertices and G ≠ C5. In this paper, we prove that the conjecture holds for a normal graph with mad(G) 〈 37/12and △ (G)≥ 7.
基金This work was supported by the National Natural Science Foundation of China(11471193,11631014)the Foundation for Distinguished Young Scholars of Shandong Province(JQ201501)the Fundamental Research Funds of Shandong University and Independent Innovation Foundation of Shandong University(IFYT14012).
文摘Given a graph G=(V,E)and a positive integer k,a k-total-coloring of G is a mappingφ:V⋃E→{1,2,⋯,k}such that no two adjacent or incident elements receive the same color.The central problem of the total-colorings is the Total Coloring Conjecture,which asserts that every graph of maximum degreeΔadmits a(Δ+2)-total-coloring.More precisely,this conjecture has been verified forΔ≤5,and it is still open whenΔ=6,even for planar graphs.Let mad(G)denote the maximum average degree of the graph G.In this paper,we prove that every graph G withΔ(G)=6 and mad(G)<23/5 admits an 8-total-coloring.
基金Supported by the National Natural Science Foundation of China(11471193,11631014)the Foundation for Distinguished Young Scholars of Shandong Province(JQ201501)+1 种基金the Fundamental Research Funds of Shandong UniversityIndependent Innovation Foundation of Shandong University(IFYT14012)
文摘Let Ф : E(G)→ {1, 2,…, k}be an edge coloring of a graph G. A proper edge-k-coloring of G is called neighbor sum distinguishing if ∑eЭu Ф(e)≠∑eЭu Ф(e) for each edge uv∈E(G).The smallest value k for which G has such a coloring is denoted by χ'Σ(G) which makes sense for graphs containing no isolated edge(we call such graphs normal). It was conjectured by Flandrin et al. that χ'Σ(G) ≤△(G) + 2 for all normal graphs,except for C5. Let mad(G) = max{(2|E(H)|)/(|V(H)|)|HЭG}be the maximum average degree of G. In this paper,we prove that if G is a normal graph with△(G)≥5 and mad(G) 〈 3-2/(△(G)), then χ'Σ(G)≤△(G) + 1. This improves the previous results and the bound △(G) + 1 is sharp.
基金supported by National Natural Science Foundation of China(Grant No.11901318)the Fundamental Research Funds for the Central Universities,Nankai University(Grant No.63191425)supported by National Natural Science Foundation of China(Grant Nos.11571149 and 11971205)
文摘A star k-edge-coloring is a proper k-edge-coloring such that every connected bicolored subgraph is a path of length at most 3.The star chromatic indexχ'_(st)(G)of a graph G is the smallest integer k such that G has a star k-edge-coloring.The list star chromatic index ch'st(G)is defined analogously.The star edge coloring problem is known to be NP-complete,and it is even hard to obtain tight upper bound as it is unknown whether the star chromatic index for complete graph is linear or super linear.In this paper,we study,in contrast,the best linear upper bound for sparse graph classes.We show that for everyε>0 there exists a constant c(ε)such that if mad(G)<8/3-ε,then■and the coefficient 3/2 ofΔis the best possible.The proof applies a newly developed coloring extension method by assigning color sets with different sizes.
基金supported partially by the National Natural Science Foundation of China(11271334)
文摘Let G be a graph and H a subgraph of G. A backbone-k-coloring of (G, H) is a mapping f: V(G) → {1,2,…,k} such that If(u)- f(v)| ≥ 2 if uv ∈ E(H) and |f(u)- f(v) | ≥ 1 if uv ∈ E(G)/E(H). The backbone chromatic number of (G, H) denoted by Xb(G, H) is the smallest integer k such that (G, H) has a backbone-k-coloring. In this paper, we prove that if G is either a connected triangle-free planar graph or a connected graph with mad(G) 〈 3, then there exists a spanning tree T of G such that Xb(G, T) ≤ 4.
基金Supported by the Natural Science Foundation of Shandong Provence(Grant Nos.ZR2018BA010,ZR2016AM01)the National Natural Science Foundation of China(Grant No.11571258)。
文摘A proper k-edge coloring of a graph G is an assignment of one of k colors to each edge of G such that there are no two edges with the same color incident to a common vertex.Let f(v)denote the sum of colors of the edges incident to v.A k-neighbor sum distinguishing edge coloring of G is a proper k-edge coloring of G such that for each edge uv∈E(G),f(u)≠f(v).Byχ’_∑(G),we denote the smallest value k in such a coloring of G.Let mad(G)denote the maximum average degree of a graph G.In this paper,we prove that every normal graph with mad(G)<10/3 andΔ(G)≥8 admits a(Δ(G)+2)-neighbor sum distinguishing edge coloring.Our approach is based on the Combinatorial Nullstellensatz and discharging method.
