Paper Info
Title
An exact algorithm for the minimum quartet tree cost problem
Abstract
The minimum quartet tree cost (MQTC) problem is a graph combinatorial optimization problem where, given a set of \(n \ge 4\) data objects and their pairwise costs (or distances), one wants to construct an optimal tree from the \(3 \cdot {n \atopwithdelims ()4}\) quartet topologies on n, where optimality means that the sum of the costs of the embedded (or consistent) quartet topologies is minimal. The MQTC problem is the foundation of the quartet method of hierarchical clustering, a novel hierarchical clustering method for non tree-like (non-phylogeny) data in various domains, or for heterogeneous data across domains. The MQTC problem is NP-complete and some heuristics have been already proposed in the literature. The aim of this paper is to present a first exact solution approach for the MQTC problem. Although the algorithm is able to get exact solutions only for relatively small problem instances, due to the high problem complexity, it can be used as a benchmark for validating the performance of any heuristic proposed for the MQTC problem.
Year
DOI
Venue
2019
10.1007/s10288-018-0394-2
4OR
Keywords
Field
DocType
Combinatorial optimization, Quartet trees, Minimum quartet tree cost, Exact solution algorithms, Cluster analysis, Graphs, 90C27, 05A05, 05A15, 62H30, 68R10, 05C30, 92E10
Hierarchical clustering,Exact solutions in general relativity,Discrete mathematics,Pairwise comparison,Heuristic,Exact algorithm,Combinatorial optimization,Network topology,Heuristics,Mathematics
Journal
Volume
Issue
ISSN
17
4
1614-2411
Citations 
PageRank 
References 
0
0.34
7
Authors
4
Name
Order
Citations
PageRank
Sergio Consoli116424.96
Jan Korst217519.94
Gijs Geleijnse317415.55
Steffen Pauws428932.61