The Z-Semimagic of Some Graphs

Huang, Shao-lun

22 August 2011

We call a finite simple graph G = (V (G),E(G)) to be Z-semimagic if it admits an edge labeling l : E(G) ¡÷ Z {0} such that the induced vertex sum labeling l+(v) = uv∈E(G) l(uv) is constant. The constant is called a semimagic index, or an index for short, of G under the labeling l. We consider the set of all possible semimagic indices r such that G is Z-semimagic with a semimagic index r, and denote it by IZ(G). We call IZ(G) the index set of G with respect to Z. In this thesis, we decide the index set IZ(G) for G being regular graphs, complete bipartite graphs, wheel graphs and fan graphs. Also, we determine whether 0 ∈ IZ(G) for G being complete multi-partite graphs.

index set

index

semimagic index

Z-semimagic

edge labeling

The Identification of Image Contours

Christensen, James Christopher

11 September 2008

No description available.

Psychology

visual perception

edge labeling

image contours

junction perception

Magic and antimagic labeling of graphs

Sugeng, Kiki Ariyanti

January 2005

"A bijection mapping that assigns natural numbers to vertices and/or edges of a graph is called a labeling. In this thesis, we consider graph labelings that have weights associated with each edge and/or vertex. If all the vertex weights (respectively, edge weights) have the same value then the labeling is called magic. If the weight is different for every vertex (respectively, every edge) then we called the labeling antimagic. In this thesis we introduce some variations of magic and antimagic labelings and discuss their properties and provide corresponding labeling schemes. There are two main parts in this thesis. One main part is on vertex labeling and the other main part is on edge labeling." / Doctor of Philosophy

Magic labeling

Graph labeling

Graph theory

Data processing

Vertex labeling

Edge labeling

Australian Digital Thesis

Magic and antimagic labeling of graphs

Sugeng, Kiki Ariyanti . University of Ballarat.

January 2005

"A bijection mapping that assigns natural numbers to vertices and/or edges of a graph is called a labeling. In this thesis, we consider graph labelings that have weights associated with each edge and/or vertex. If all the vertex weights (respectively, edge weights) have the same value then the labeling is called magic. If the weight is different for every vertex (respectively, every edge) then we called the labeling antimagic. In this thesis we introduce some variations of magic and antimagic labelings and discuss their properties and provide corresponding labeling schemes. There are two main parts in this thesis. One main part is on vertex labeling and the other main part is on edge labeling." / Doctor of Philosophy

Magic labeling

Graph labeling

Graph theory

Data processing

Vertex labeling

Edge labeling

Australian Digital Thesis