Motivated by the telecommunication network design, we study the problem of finding diverse set of minimum spanning trees of a certain complete graph based on the two features which are maximum degree and diameter. In this study, we examine a simple multi-objective EA, GSEMO, in solving the two problems where we maximise or minimise the two features at the same time.With a rigorous runtime analysis, we provide understanding of how GSEMO optimize the set of minimum spanning trees in these two different feature spaces.Wanru Gao, Mojgan Pourhassan, Vahid Roostapour, and Frank Neuman
The design of a network is a solution to several engineering and science problems. Several network d...
The design of a network is a solution to several engineering and science problems. Several network d...
We investigate two versions of multiple objective minimum spanning tree problems defined on a netwo...
The problem of computing spanning trees along with specific constraints is mostly NP-hard. Many appr...
The problem of computing spanning trees along with specific constraints has been studied in many for...
A major challenge to solving multiobjective optimization problems is to capture possibly all the (re...
The problem of computing spanning trees along with specific constraints is mostly NP-hard. Many appr...
A few experimental investigations have shown that evolutionary algorithms (EAs) are efficient for th...
A few experimental investigations have shown that evolutionary algorithms (EAs) are efficient for th...
Evolutionary algorithms are applied to problems that are not well understood as well as to problems ...
The study of multi-criterion minimum spanning trees is important as many optimization problems in ne...
The study of multi-criterion minimum spanning trees is important as many optimization problems in ne...
The Minimum Spanning Tree problem is a well-known combinatorial optimization problem, which has attr...
Also published as a journal article: Lecture Notes in Computer Science, 2006; 3887:745-756We give fa...
A novel approach is proposed for the NP-hard min-degree constrained minimum spanning tree (md-MST). ...
The design of a network is a solution to several engineering and science problems. Several network d...
The design of a network is a solution to several engineering and science problems. Several network d...
We investigate two versions of multiple objective minimum spanning tree problems defined on a netwo...
The problem of computing spanning trees along with specific constraints is mostly NP-hard. Many appr...
The problem of computing spanning trees along with specific constraints has been studied in many for...
A major challenge to solving multiobjective optimization problems is to capture possibly all the (re...
The problem of computing spanning trees along with specific constraints is mostly NP-hard. Many appr...
A few experimental investigations have shown that evolutionary algorithms (EAs) are efficient for th...
A few experimental investigations have shown that evolutionary algorithms (EAs) are efficient for th...
Evolutionary algorithms are applied to problems that are not well understood as well as to problems ...
The study of multi-criterion minimum spanning trees is important as many optimization problems in ne...
The study of multi-criterion minimum spanning trees is important as many optimization problems in ne...
The Minimum Spanning Tree problem is a well-known combinatorial optimization problem, which has attr...
Also published as a journal article: Lecture Notes in Computer Science, 2006; 3887:745-756We give fa...
A novel approach is proposed for the NP-hard min-degree constrained minimum spanning tree (md-MST). ...
The design of a network is a solution to several engineering and science problems. Several network d...
The design of a network is a solution to several engineering and science problems. Several network d...
We investigate two versions of multiple objective minimum spanning tree problems defined on a netwo...