A novel approach to find partitions of $ Z_{m} $ with equal sum subsets via complete graphs

M. Haris Mateen; Muhammad Khalid Mahmmod; Doha A. Kattan; Shahbaz Ali; M. Haris Mateen; Muhammad Khalid Mahmmod; Doha A. Kattan; Shahbaz Ali

doi:10.3934/math.2021581

AIMS Mathematics

2021, Volume 6, Issue 9: 9998-10024. doi: 10.3934/math.2021581

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A novel approach to find partitions of $ Z_{m} $ with equal sum subsets via complete graphs

1.
Department of Mathematics, University of the Punjab, Lahore 54590, Pakistan
2.
Department of Mathematics, Faculty of Sciences and Arts King Abdulaziz University, Rabigh, Saudi Arabia
3.
Department of Mathematics, Khawaja Fareed University of Engineering and Information Technology, Rahim Yar Khan 64200, Pakistan

Received: 22 February 2021 Accepted: 30 June 2021 Published: 06 July 2021
MSC : 05C25, 11E04, 20G15

In mathematics and computer sciences, the partitioning of a set into two or more disjoint subsets of equal sums is a well-known NP-complete problem, also referred to as partition problem. There are various approaches to overcome this problem for some particular choice of integers. Here, we use quadratic residue graph to determine the possible partitions of positive integers $ m = 2^{\beta}, q^{\beta}, 2^{\beta}q, $ $ 2q^{\beta}, qp, $ where $ p $, $ q $ are odd primes and $ \beta $ is any positive integer. The quadratic residue graph is defined on the set $ Z_{m} = \{\overline{0}, \overline{1}, \cdots, \overline{m-1}\}, $ where $ Z_{m} $ is the ring of residue classes of $ m $, i.e., there is an edge between $ \overline{x}, $ $ \overline{y}\in Z_{m} $ if and only if $ \overline{x}^{2}\equiv \overline{y}^{2}\; (\text{mod}\; m) $. We characterize these graphs in terms of complete graph for some particular classes of $ m $.
- quadratic residues graph,
- complete graph,
- ring of integers
Citation: M. Haris Mateen, Muhammad Khalid Mahmmod, Doha A. Kattan, Shahbaz Ali. A novel approach to find partitions of $ Z_{m} $ with equal sum subsets via complete graphs[J]. AIMS Mathematics, 2021, 6(9): 9998-10024. doi: 10.3934/math.2021581

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Abstract

In mathematics and computer sciences, the partitioning of a set into two or more disjoint subsets of equal sums is a well-known NP-complete problem, also referred to as partition problem. There are various approaches to overcome this problem for some particular choice of integers. Here, we use quadratic residue graph to determine the possible partitions of positive integers $ m = 2^{\beta}, q^{\beta}, 2^{\beta}q, $ $ 2q^{\beta}, qp, $ where $ p $, $ q $ are odd primes and $ \beta $ is any positive integer. The quadratic residue graph is defined on the set $ Z_{m} = \{\overline{0}, \overline{1}, \cdots, \overline{m-1}\}, $ where $ Z_{m} $ is the ring of residue classes of $ m $, i.e., there is an edge between $ \overline{x}, $ $ \overline{y}\in Z_{m} $ if and only if $ \overline{x}^{2}\equiv \overline{y}^{2}\; (\text{mod}\; m) $. We characterize these graphs in terms of complete graph for some particular classes of $ m $.

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