With the help of recursion relations derived from the self-similar structure, we obtain the exact solution of average path length,dt, for Apollonian networks. In contrast to the well-known numerical resultdt ∝ (ln Nt) 3/4 [Phys. Rev. Lett. 94, 018702 (2005)], our rigorous solution shows that the average path length grows logarithmically asdt ∝ ln Nt in the infinite limit of network size Nt. The extensive numerical calculations completely agree with our closed-form solution.PACS numbers: 89.75. Hc, 89.75.Da, 02.10.Ox, One of the most important properties of complex networks is average path length (APL), which is the mean length of the shortest paths between all pairs of vertices (nodes) [1]. Most real networks have been shown to be small-world or ultra small-world networks [2,3,4,5], that is, their APL d behaves a logarithmic or double logarithmic scaling with the network size N :. It has been established that APL is relevant in many fields regarding real-life networks. In the design or interpretation of routes in architectural design, signal integrity in communication networks, the propagation of diseases or beliefs in social networks or of technology in industrial networks, APL is a natural network statistic to compute and interpret. It is strongly believed that many processes such as routing, searching, and spreading become more efficient when APL is smaller. So far, much attention has been paid to the question of APL [8,9,10,11,12,13].Recently, on the basis of the well-known Apollonian packing [14], Andrade et al. introduced Apollonian networks [15] which were also proposed by Doye and Massen in Ref. [16] simultaneously. Apollonian networks belong to a deterministic growing type of networks, which have drawn much attention from the scientific communities and have turned out to be a useful tool [17,18,19,20,21,22,23,24,25,26,27,28,29,30,31]. Many topological properties of Apollonian networks such as degree distribution, clustering coefficient, and correlations have been determined analytically [15,16], and the effects of the Apollonian networks on several dynamical models have been intensively studied, including Ising model and a magnetic model [15,32,33,34]. Despite the importance and usefulness of the quantity APL, there is no analytical calculations for the APL of Apollonian networks.In this report, we derive an exact formula for the average path length characterizing the Apollonian networks. The analytic method is based on the recursive construction and self-similar structure of Apollonian networks. * Electronic address: sgzhou@fudan.edu.cn Our rigorous result shows that APL grows logarithmically with the number of nodes. The obtained analytical solution modifies the previous numerical result in [15], where the authors claimed that the APL of Apollonian networks scales sub-logarithmically with network size. Our analytical technique could provide a paradigm for computing the APL of deterministic networks.The Apollonian network, denoted as A t (t ≥ 0) after t generations, is constructed as follows [15]: Fo...
