Open AccessNavigating Low-Dimensional and Hierarchical Population Networks
Author(s) -
Ravi Kumar,
David LibenNowell,
Andrew Tomkins
Publication year - 2006
Publication title -
lecture notes in computer science
Language(s) - English
Resource type - Book series
SCImago Journal Rank - 0.249
H-Index - 400
eISSN - 1611-3349
pISSN - 0302-9743
ISBN - 3-540-38875-3
DOI - 10.1007/11841036_44
Subject(s) - metric (unit) , computer science , population , routing (electronic design automation) , metric space , greedy algorithm , tree (set theory) , dimension (graph theory) , path (computing) , space (punctuation) , rank (graph theory) , theoretical computer science , mathematics , combinatorics , algorithm , discrete mathematics , computer network , demography , sociology , economics , operating system , operations management
Social networks are navigable small worlds, in which two arbitrary people are likely connected by a short path of intermediate friends that can be found by a "decentralized" routing algorithm using only local information. We develop a model of social networks based on an arbitrary metric space of points, with population density varying across the points. We consider rank-based friendships, where the probability that person u befriends person v is inversely proportional to the number of people who are closer to u than v is. Our main result is that greedy routing can find a short path (of expected polylogarithmic length) from an arbitrary source to a randomly chosen target, independent of the population densities, as long as the doubling dimension of the metric space of locations is low. We also show that greedy routing finds short paths with good probability in tree-based metrics with varying population distributions.
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