| Abstrakt: |
In practice, an alliance can be a bond or connection between individuals, families, states, or entities, etc. Formally, a non-empty set Sof vertices of a graph Gis a defensive k-alliance (resp. an offensive k-alliance) if every vertex of S(resp. the boundary of S) has at least kmore neighbors inside of Sthan it has outside of S. A powerful k-alliance is both defensive k-alliance and offensive (k+2)-alliance. During the last decade there has been a remarkable development on these three kinds of alliances. Due to their variety of applications, the alliances in its broad sense have received a special attention from many scientists and researchers. There have been applications of alliances in several areas such as bioinformatics, distributed computing, web communities, social networks, data clustering, business, etc. Several k-alliance numbers have been defined and a huge number of theoretical (algorithmic and computational) results are obtained for various graph classes. In this paper, we present a survey which covers a number of practical applications of alliances and the vast mathematical properties of the three types of k-alliances by giving a special attention to the study of the associated k-alliance (partition) numbers for different graph classes. |
