On rainbow antimagic coloring of some graphs

Abstract: Let G(V, E) be a connected and simple graphs with vertex set V and edge set E. Define a coloring c : E(G) → {1, 2, 3, …, k}, k ∈ N as the edges of G, where adjacent edges may be colored the same. If there are no two edges of path P are colored the same then a path P is a rainbow path. The graph G is rainbow connected if every two vertices in G has a rainbow path. A graph G is called antimagic if the vertex sum (i.e., sum of the labels assigned to edges incident to a vertex) has a different color. Since the ver… Show more

“…Theorem 1 [24] To proof lower bound of rac(H) can use rac(H) ≥ max{∆(H), rc(H)} Theorem 2 [12] If A is a almalgamation of fan graph, then rc(A) = 3.…”

“…First, we prove the correctness of the lower bound of rac(H 1 ) is rac(H 1 ) ≥ mn − m. We know that H 1 graph is classified as a tree graph. Based on Proposition 1 [6] and Theorem 1 [24], so that:…”

“…We know that H 3 graph is classified as a tree graph. Based on Proposition 1 [6] and Theorem 1 [24], so that:…”

“…A graph is said to be rainbow antimagic coloring if every vertex of graph G is labeled with the antimagic labels and then edge weight of antimagic labels are used to assign a rainbow connection such that there is a rainbow path with all different edge weight [24]. The minimum number of colors for a rainbow path to exist with the conditional edge weights w(x) = w(y) for any two vertices x and y is the definition of the rainbow antimagic connection number and denoted by rac(G).…”

“…Intan K et al [16] found the rainbow antimagic connection number of releated wheel graph. Sulistiono et al [24] made a theorem to prove the lower bound of rac(G). More study on rainbow antimagic coloring can be seen at [1,4,9,22].…”

On the rainbow antimagic coloring of vertex amalgamation of graphs

“…Theorem 1 [24] To proof lower bound of rac(H) can use rac(H) ≥ max{∆(H), rc(H)} Theorem 2 [12] If A is a almalgamation of fan graph, then rc(A) = 3.…”

“…First, we prove the correctness of the lower bound of rac(H 1 ) is rac(H 1 ) ≥ mn − m. We know that H 1 graph is classified as a tree graph. Based on Proposition 1 [6] and Theorem 1 [24], so that:…”

“…We know that H 3 graph is classified as a tree graph. Based on Proposition 1 [6] and Theorem 1 [24], so that:…”

“…A graph is said to be rainbow antimagic coloring if every vertex of graph G is labeled with the antimagic labels and then edge weight of antimagic labels are used to assign a rainbow connection such that there is a rainbow path with all different edge weight [24]. The minimum number of colors for a rainbow path to exist with the conditional edge weights w(x) = w(y) for any two vertices x and y is the definition of the rainbow antimagic connection number and denoted by rac(G).…”

“…Intan K et al [16] found the rainbow antimagic connection number of releated wheel graph. Sulistiono et al [24] made a theorem to prove the lower bound of rac(G). More study on rainbow antimagic coloring can be seen at [1,4,9,22].…”

On the rainbow antimagic coloring of vertex amalgamation of graphs

The use of rainbow antimagic coloring of graph and graph neural network: A literature review

On rainbow antimagic coloring of amalgamation of graphs