Beyond Quasi-Adjoint Graphs: On Polynomial-Time Solvable Cases of the Hamiltonian Cycle and Path Problems

Beyond Quasi-Adjoint Graphs: On Polynomial-Time Solvable Cases of the Hamiltonian Cycle and Path Problems

The Hamiltonian cycle and path problems are fundamental in graph theory and useful in modelling real-life problems. Research in this area is directed toward designing better and better algorithms for general problems, but also toward defining new special cases for which exact polynomial-time algorit...

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Veröffentlicht in:Informatica (Vilnius, Lithuania) Lithuania), 2024, Vol.35 (4), p.807-816
1. Verfasser: Kasprzak, Marta
Format: Artikel
Sprache:eng
Schlagworte:
Adjoints
Algorithms
Gene sequencing
Graph theory
Graphs
Modelling
Polynomials
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Zusammenfassung:The Hamiltonian cycle and path problems are fundamental in graph theory and useful in modelling real-life problems. Research in this area is directed toward designing better and better algorithms for general problems, but also toward defining new special cases for which exact polynomial-time algorithms exist. In the paper, such new classes of digraphs are proposed. The classes include, among others, quasi-adjoint graphs, which are a superclass of adjoints, directed line graphs, and graphs modelling a DNA sequencing problem.
ISSN:0868-4952
1822-8844
DOI:10.15388/24-INFOR568