Finding All the Best Swaps of a Minimum Diameter Spanning Tree Under Transient Edge Failures
Author(s) -
Enrico Nardelli,
Guido Proietti,
Peter Widmayer
Publication year - 1998
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 - 3-540-64848-8
DOI - 10.1007/3-540-68530-8_5
Subject(s) - spanning tree , computer science , swap (finance) , enhanced data rates for gsm evolution , minimum spanning tree , transient (computer programming) , graph , combinatorics , algorithm , theoretical computer science , mathematics , artificial intelligence , finance , economics , operating system
In network communication systems, frequently messages are routed along a minimum diameter spanning tree (MDST) of the network, to minimize the maximum delay in delivering a message. When a transient edge failure occurs, it is important to choose a temporary replacement edge which minimizes the diameter of the new spanning tree. Such an optimal replacement is called the best swap. As a natural extension, the all-best-swaps (ABS) problem is the problem of finding the best swap for every edge of the MDST. Given a weighted graph G = (V,E), where |V| = n and |E| = m, we solve the ABS problem in O(n√m) time and O(m + n) space, thus improving previous bounds for m = o(n2).
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