An Efficient Algorithm for Decomposition of Partially Ordered Sets

Elsayed Badr; Mohamed El-Hakeem; Enas E. El-Sharawy; Thowiba E. Ahmed

doi:10.1155/2023/9920700

An Efficient Algorithm for Decomposition of Partially Ordered Sets

Elsayed Badr^*
, Mohamed El-Hakeem
, Enas E. El-Sharawy
, Thowiba E. Ahmed

^*Corresponding author for this work

Computer Science Department

Benha University

Research output: Contribution to journal › Article › peer-review

5 Scopus citations

Abstract

Efficient time complexities for partial ordered sets or posets are well-researched field. Hopcroft and Karp introduced an algorithm that solves the minimal chain decomposition in O (n2.5) time. Felsner et al. proposed an algorithm that reduces the time complexity to O (kn2) such that n is the number of elements of the poset and k is its width. The main goal of this paper is proposing an efficient algorithm to compute the width of a given partially ordered set P according to Dilworth's theorem. It is an efficient and simple algorithm. The time complexity of this algorithm is O (kn), such that n is the number of elements of the partially ordered set P and k is the width of P. The computational results show that the proposed algorithm outperforms other related algorithms.

Original language	English
Article number	9920700
Journal	Journal of Mathematics
Volume	2023
DOIs	https://doi.org/10.1155/2023/9920700
State	Published - 2023

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abstract = "Efficient time complexities for partial ordered sets or posets are well-researched field. Hopcroft and Karp introduced an algorithm that solves the minimal chain decomposition in O (n2.5) time. Felsner et al. proposed an algorithm that reduces the time complexity to O (kn2) such that n is the number of elements of the poset and k is its width. The main goal of this paper is proposing an efficient algorithm to compute the width of a given partially ordered set P according to Dilworth's theorem. It is an efficient and simple algorithm. The time complexity of this algorithm is O (kn), such that n is the number of elements of the partially ordered set P and k is the width of P. The computational results show that the proposed algorithm outperforms other related algorithms.",

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T1 - An Efficient Algorithm for Decomposition of Partially Ordered Sets

AU - Badr, Elsayed

AU - El-Hakeem, Mohamed

AU - El-Sharawy, Enas E.

AU - Ahmed, Thowiba E.

PY - 2023

Y1 - 2023

N2 - Efficient time complexities for partial ordered sets or posets are well-researched field. Hopcroft and Karp introduced an algorithm that solves the minimal chain decomposition in O (n2.5) time. Felsner et al. proposed an algorithm that reduces the time complexity to O (kn2) such that n is the number of elements of the poset and k is its width. The main goal of this paper is proposing an efficient algorithm to compute the width of a given partially ordered set P according to Dilworth's theorem. It is an efficient and simple algorithm. The time complexity of this algorithm is O (kn), such that n is the number of elements of the partially ordered set P and k is the width of P. The computational results show that the proposed algorithm outperforms other related algorithms.

AB - Efficient time complexities for partial ordered sets or posets are well-researched field. Hopcroft and Karp introduced an algorithm that solves the minimal chain decomposition in O (n2.5) time. Felsner et al. proposed an algorithm that reduces the time complexity to O (kn2) such that n is the number of elements of the poset and k is its width. The main goal of this paper is proposing an efficient algorithm to compute the width of a given partially ordered set P according to Dilworth's theorem. It is an efficient and simple algorithm. The time complexity of this algorithm is O (kn), such that n is the number of elements of the partially ordered set P and k is the width of P. The computational results show that the proposed algorithm outperforms other related algorithms.

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VL - 2023

JO - Journal of Mathematics

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ER -

An Efficient Algorithm for Decomposition of Partially Ordered Sets

Abstract

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