Navigability of networks, that is, the ability to find any given destination vertex starting from any other vertex, is crucial to their usefulness. In 2000 Kleinberg showed that optimal navigability could be achieved in small world networks provided that a special recipe was used to establish long range connections, and that a greedy algorithm, that ensures that the destination will be reached, is used. Here we provide an exact solution for the asymptotic behavior of such a greedy algorithm as a function of the system's parameters. Our solution enables us to show that the original claim that only a very special construction is optimal can be relaxed depending on further constraints, such as, for example, cost minimization, that must be sati...
Kleinberg proposed a family of small-world networks to explain the navigability of large-scale real-...
Recently, Li et al. have concentrated on Kleinberg's navigation model with a certain total length co...
Kleinberg proposed a family of small-world networks to ex-plain the navigability of large-scale real...
Westudy Small-World graphs in the perspective of their use in the development of efficient as well ...
<div><p>Navigability, an ability to find a logarithmically short path between elements using only lo...
AbstractWe study Small-World graphs in the perspective of their use in the development of efficient ...
(eng) Since Milgram experiment in 1967, that demonstrated the ability of people to find short paths ...
The proper addition of shortcuts to a regular substrate can lead to the formation of a complex netwo...
(eng) In addition to statistical graph properties (diameter, degree, clustering, ...), Kleinberg sho...
The algorithmic small-world phenomenon, empirically established by Milgram's letter forwarding exper...
AbstractWe use matrix analysis to study a cycle plus random, uniform shortcuts—the classic small wor...
We analyze the properties of Small-World networks, where links are much more likely to connect “neig...
The imposition of a cost constraint for constructing the optimal navigation structure surely represe...
AbstractIn addition to statistical graph properties (diameter, degree, clustering, etc.), Kleinberg ...
Recently a bulk of research [14, 5, 15, 9] has been done on the modelling of the smallworld phenomen...
Kleinberg proposed a family of small-world networks to explain the navigability of large-scale real-...
Recently, Li et al. have concentrated on Kleinberg's navigation model with a certain total length co...
Kleinberg proposed a family of small-world networks to ex-plain the navigability of large-scale real...
Westudy Small-World graphs in the perspective of their use in the development of efficient as well ...
<div><p>Navigability, an ability to find a logarithmically short path between elements using only lo...
AbstractWe study Small-World graphs in the perspective of their use in the development of efficient ...
(eng) Since Milgram experiment in 1967, that demonstrated the ability of people to find short paths ...
The proper addition of shortcuts to a regular substrate can lead to the formation of a complex netwo...
(eng) In addition to statistical graph properties (diameter, degree, clustering, ...), Kleinberg sho...
The algorithmic small-world phenomenon, empirically established by Milgram's letter forwarding exper...
AbstractWe use matrix analysis to study a cycle plus random, uniform shortcuts—the classic small wor...
We analyze the properties of Small-World networks, where links are much more likely to connect “neig...
The imposition of a cost constraint for constructing the optimal navigation structure surely represe...
AbstractIn addition to statistical graph properties (diameter, degree, clustering, etc.), Kleinberg ...
Recently a bulk of research [14, 5, 15, 9] has been done on the modelling of the smallworld phenomen...
Kleinberg proposed a family of small-world networks to explain the navigability of large-scale real-...
Recently, Li et al. have concentrated on Kleinberg's navigation model with a certain total length co...
Kleinberg proposed a family of small-world networks to ex-plain the navigability of large-scale real...