Title :
An addressing and routing scheme based on modified Euclidean space for hexagonal networks
Author :
Gong Jiezhong ; Li Lin ; Chen Gongliang ; Wu Yue ; Li Jianhua
Author_Institution :
Inf. Security Res. Center, China Electron. Stand. Inst., Beijing, China
Abstract :
The addressing and routing algorithm on hexagonal networks is still an open problem so far. Although many related works have been done to resolve this problem to some extent, the properties of hexagonal networks are still not explored adequately. In this paper, we first create an oblique coordinate system and redefine the Euclidean space to address the hexagonal nodes. Then an optimal routing algorithm using vectors and angles of the redefined Euclidean space is developed. Compared with the traditional 3-directions scheme and the Cayley graph method, the proposed routing algorithm is more efficient and totally independent of the scale of networks with two-tuples addresses. We also prove that the path(s) obtained by this algorithm is always the shortest one(s).
Keywords :
cellular radio; network theory (graphs); telecommunication network routing; Cayley graph method; Euclidean space; hexagonal networks; hexagonal nodes; modified Euclidean space; oblique coordinate system; optimal routing algorithm; routing algorithm; routing scheme; Algorithm design and analysis; Classification algorithms; Complexity theory; Information security; Network topology; Routing; Topology; Euclidean space; addressing; cayley graph; hexagonal network; routing algorithm;
Journal_Title :
Communications, China
DOI :
10.1109/CC.2015.7112032
