Interval edge coloring

Interval edge coloring is a type of edge coloring in which edges are colored such that they form a set of intervals and each color in the interval set is at least used once to color the edges of the graph.It is to be noted that at each vertex in the graph the colors used form a consecutive set of natural numbers.

History

The concept of consecutive edge-coloring was introduced with the terminology 'interval edge coloring' by Asratian and Kamalian in 1987 in their paper "Interval colorings of edges of a multigraph".[1] Since interval edge coloring of graphs was introduced mathematicians have been investigating the existence of interval edge colorable graphs as not all graphs allow interval edge coloring. A simple family of graphs that allows interval edge coloring is complete graph of even order and a counter example of family of graphs includes complete graphs of odd order. The smallest graph that doesnot allow interval colorability.There are even graphs discovered with 28 vertices and maximum degree 21 that is not interval colorable by Sevast’janov though the interval colorability of graphs with maxium degree lying between four and twelve is still unknown.

Astrain and Kamalian in their paper[1] proved that if a graph is interval colorable then the edge chromatic number is less than or equal to one less than it's number of vertices and also noted that if G is r-regular, then G has an interval coloring if and only if G has a proper r-edge-coloring.

Interval edge coloring is investigated in regular graphs.bipartite graphs which are regular and not regular,planar graphs,among the other extensions that has been initiated in interval edge coloring.

Definition

Let G be a simple interval graph. An edge-colouring of a graph G with colours 1, 2, . . . , t is called an ""interval t-colouring"" if for each i ∈ {1, 2, . . . , t} there is at least one edge of G coloured by i and the colours of edges incident to any vertex of G are distinct and form an interval of integers.[2] Alternatively an interval edge coloring defined as: An edge-colouring of a graph G with colours 1. . . t is an 'interval t-colouring' if all colours are used, and the colours of edges incident to each vertex of G are distinct and form an interval of integers. A graph G is "interval colourable" if G has an interval t-colouring for some positive integer t. Let N be the set of all interval colourable graphs. For a graph GN, the least and the greatest values of t for which G has an interval t-colouring are denoted by w(G) and W(G), respectively. An interval edge coloring of a graph is said to be equitable interval edge coloring if any two color classes of a graph differ by atmost one.

The set of colors of edges incident with a vertex (x) is called a spectrum of (x). We say that a subset R of vertices of G has an i-property if there is a proper edge t-coloring of G which is interval over R.

A few results

If a triangle-free graph G=(V,E) has an interval t-coloring, then t ≤ |V|−1.In [3][4] Asratian and Kamalian proved if G is interval color-able then χ'(G)=∆(G).

Petrosyan investigated interval colorings of complete graphs and n-dimensional cubes and showed if n ≤ t ≤ n(n+1)/2,then the n-dimensional cube Qn has an interval t-coloring.[5] Axenovich proved that all outerplanar triangulations with more than three vertices and without separating triangles are interval colorable.[6] If G is regular graph w(G)=∆(G) and G has an interval t-coloring for every t, w(G) ≤ t ≤ W(G).

Interval 5-coloring of K6

Interval edge coloring of complete graph [7]

Interval edge coloring of bipatite graphs

(1) w (Km,n) = m + n − gcd(m, n),

(2) W (Km,n) = m + n − 1,

(3) if w (Km,n) ≤ t ≤ W (Km,n), then Km,n has an interval t-coloring.

w (G[Km,n]) ≤ (w(G) + 1)(m + n) − 1 and W (G[Km,n]) ≥ (W(G) + 1)(m + n) − 1.

Interval edge coloring of Planar graphs[9]

Interval edge-colorings of outerplanar graphs were investigated by Giaro and Kubale and proved all the outer planar bipartite graphs are interval colorable.[10]

Proof: Let c1 be an interval coloring of 'G1' such that e=xy gets the smallest label among edges incident to x and y.Take c1(e)=0. Consider an interval interval coloring c1 ofG1 where e gets the largest label among edges incident to x and y.Say,c2(e)=i. Then we construct an interval coloring c of G as c(e')=c1(e') if (e')∈E(G1) or c(e')=c2(e')-i if (e')E(G1).

Interval edge coloring of biregular bipartite graphs with small vertex degrees

A bipartite graph is (a, b)-biregular if everyvertex in one part has degree a and every vertex in the other part has degree b. It has been conjectured that all such graphs have interval colorings. Hansen proved that every bipartite graph G with ∆(G) ≤ 3 is interval colorable.

Interval edge coloring of Grid graphs [11]

The cartesian product of two paths Pm and Pn is said to be the grid graph and is denoted by Gm,n.

Example

Interval edge coloring of Grid graph G4,5.That is,

Interval edge coloring of Grid graph

The grid graph G4,5 satisfies the definition of interval edge coloring.Therefore, =4.

Equitable K-interval edge coloring

A k-interval edge coloring of a graph is said to be equitable k-interval edge coloring if its edge set E is partitioned into K subsets E1,E2,...,Ek such that Ei is an independent set and the condition -1 ≤ Ei ≤ Ej ≤ 1 holds for all 1 ≤i ≤k,1 ≤j ≤k. The smallest integer k for which G is equitable interval edge coloring is known as the equitable chromatic number of interval edge coloring of G and is denoted by .

Applications

Interval edge coloring has wide applications in various fields of science and scheduling.

Conjectures

References

  1. 1 2 A. S. Asratian; R.R. Kamalian (1987). "Interval colorings of edges of a multigraph". Appl. Math. 5: 25–34. arXiv:1401.8079Freely accessible.
  2. P.A. Petrosyan (2010). "Interval edge-colorings of complete graphs and n-dimensional cubes" (PDF). Discrete Mathematics. 310: 1580–1587. doi:10.1016/j.disc.2010.02.001.
  3. A.S. Asratian, R.R. Kamalian, Interval colorings of edges of a multigraph, Appl. Math.. 5 (1987), 25-34 (in Russian).
  4. A.S. Asratian, R.R. Kamalian, Investigation on interval edge-colorings of graphs, J. Combin. Theory Ser. B 62 (1994), 34-43.
  5. P.A.Petrosyan,Interval edge-colorings of complete graphs and n dimensional cubes, Discrete Math. 310 (2010), 1580–1587.
  6. M.A. Axenovich, On interval colorings of planar graphs, Congr. Numer. 159 (2002),77-94
  7. P.A.Petrosyan (6 June 2010). "Interval edge-colorings of complete graphs and n-dimensional cubes" (PDF). Discrete Mathematics. 310: 1580–1587. doi:10.1016/j.disc.2010.02.001.
  8. R.R.Kamalian,Interval colorings of complete bipartite graphs and trees,preprint,Comp.Cen.of Acad.Sci.of Armenian SSR,Erevan, 1989 (in Russian).
  9. Axenovich, M., On interval numbers of planar graphs. Congressus Numerantium 159 (2002), 77-94.
  10. K.Giaro,M.Kubale,Compact scheduling of zero-one time operations in multi-stage systems, Discrete Appl. Math..145(2004), 95–103.
  11. S.Sudha,G.M.Raja,Interval Edge Coloring of Gird Graphs and Equitable Interval Edge Coloring of Gird of Diamonds and Prism Graphs, International Journal of Scientific and Innovative Mathematical Research. 2 (2014), 408-417.

See also

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