The walk distances in graphs
Copyright policy )The walk distances in graphs
The walk distances in graphs are defined as the result of appropriate transformations of the $\sum_{k=0}^\infty(tA)^k$ proximity measures, where $A$ is the weighted adjacency matrix of a graph and $t$ is a sufficiently small positive parameter. The walk distances are graph-geodetic; moreover, they converge to the shortest path distance and to the so-called long walk distance as the parameter $t$ approaches its limiting values. We also show that the logarithmic forest distances which are known to generalize the resistance distance and the shortest path distance are a subclass of walk distances. On the other hand, the long walk distance is equal to the resistance distance in a transformed graph.
Accepted for publication in Discrete Applied Mathematics. 26 pages, 3 figures
- Russian Academy of Sciences Russian Federation
- INSTITUTE OF CONTROL SCIENCES OF THE RUSSIAN ACADEMY OF SCIENCES Russian Federation
FOS: Computer and information sciences, Graph distances, Discrete Mathematics (cs.DM), Network, Transitional measure, graph distances, Mathematics - Metric Geometry, walk distances, FOS: Mathematics, Discrete Mathematics and Combinatorics, Mathematics - Combinatorics, Social and Information Networks (cs.SI), 05C12, 05C50, 15B48, Distance in graphs, Applied Mathematics, Computer Science - Social and Information Networks, Metric Geometry (math.MG), Resistance distance, logarithmic forest distances, Logarithmic forest distances, transitional measure, resistance distance, network, Combinatorics (math.CO), Walk distances, Computer Science - Discrete Mathematics
FOS: Computer and information sciences, Graph distances, Discrete Mathematics (cs.DM), Network, Transitional measure, graph distances, Mathematics - Metric Geometry, walk distances, FOS: Mathematics, Discrete Mathematics and Combinatorics, Mathematics - Combinatorics, Social and Information Networks (cs.SI), 05C12, 05C50, 15B48, Distance in graphs, Applied Mathematics, Computer Science - Social and Information Networks, Metric Geometry (math.MG), Resistance distance, logarithmic forest distances, Logarithmic forest distances, transitional measure, resistance distance, network, Combinatorics (math.CO), Walk distances, Computer Science - Discrete Mathematics
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