Master's Dissertation
DOI
https://doi.org/10.11606/D.45.2010.tde-28052012-091652
Document
Author
Full name
Marcio Takashi Iura Oshiro
Institute/School/College
Knowledge Area
Date of Defense
Published
São Paulo, 2010
Supervisor
Committee
Pina Junior, Jose Coelho de (President)
Martinez, Fabio Henrique Viduani
Wakabayashi, Yoshiko
Martinez, Fabio Henrique Viduani
Wakabayashi, Yoshiko
Title in Portuguese
k-árvores de custo mínimo
Keywords in Portuguese
Algoritmos de Aproximacao
Árvore Geradora Mínima
k-MST
Otimização Combinatória
Árvore Geradora Mínima
k-MST
Otimização Combinatória
Abstract in Portuguese
Esta dissertação trata do problema da k-árvore de custo mínimo (kMST): dados um grafo conexo G, um custo não-negativo c_e para cada aresta e e um número inteiro positivo k, encontrar uma árvore com k vértices que tenha custo mínimo. O kMST é um problema NP-difícil e portanto não se conhece um algoritmo polinomial para resolvê-lo. Nesta dissertação discutimos alguns casos em que é possível resolver o problema em tempo polinomial. Também são estudados algoritmos de aproximação para o kMST. Entre os algoritmos de aproximação estudados, apresentamos a 2-aproximação desenvolvida por Naveen Garg, que atualmente é o algoritmo com melhor fator de aproximação.
Title in English
Minimum cost k-trees
Keywords in English
Approximation Algorithms
Combinatorial Optimization
k-MST
Minimum Cost Spanning Tree
Combinatorial Optimization
k-MST
Minimum Cost Spanning Tree
Abstract in English
This dissertation studies the minimum cost k-tree problem (kMST): given a connected graph G, a nonnegative cost function c_e for each edge e and a positive integer k, find a minimum cost tree with k vertices. The kMST is an NP-hard problem, which implies that it is not known a polynomial algorithm to solve it. In this dissertation we discuss some cases that can be solved in polynomial time. We also study approximation algorithms for the kMST. Among the approximation algorithms we present the 2-approximation developed by Naveen Garg, which is currently the algorithm with the best approximation factor.
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Publishing Date
2012-05-29
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Digital Library of Theses and Dissertations of USP. Copyright © 2001-2024. All rights reserved.