Title :
Graph coloring via synchronization of coupled oscillators
Author_Institution :
IBM Thomas J. Watson Res. Center, Yorktown Heights, NY, USA
fDate :
9/1/1998 12:00:00 AM
Abstract :
In this work, we study the possibility of coloring graphs by means of synchronized coupled oscillators. We consider an array of coupled oscillators as a graph by associating the oscillators to vertices and the coupling to edges. When the coupled array is synchronized, the phase of the oscillators can be considered as the color associated with the corresponding vertices. We prove that for connected 2-colorable graphs, we can construct a coupled array which generates the 2-coloring for that graph. For the general case, numerical simulation results with connected 3-colorable graphs suggest that the coupled array of oscillators can color graphs with a small number of colors in most cases. Some complexity issues of the system and comparisons to antivoter models of graph coloring are discussed. We also conjecture that the system can be used to approximate the star chromatic number of the graph
Keywords :
arrays; computational complexity; coupled circuits; graph colouring; relaxation oscillators; synchronisation; antivoter models; complexity; connected 2-colorable graphs; graph coloring; numerical simulation; oscillator array; star chromatic number approximation; synchronization; synchronized coupled oscillators; Analog circuits; Complexity theory; Coupling circuits; Graph theory; NP-complete problem; Numerical simulation; Oscillators; Parallel processing; Phased arrays;
Journal_Title :
Circuits and Systems I: Fundamental Theory and Applications, IEEE Transactions on
