A Hyperbolic Secant-Squared Distribution via the Nonlinear Evolution Equation and Its Application

Amira F. Daghistani; Ahmed M.T. Abd El-Bar; Ahmed M. Gemeay; Mahmoud A.E. Abdelrahman; Samia Z. Hassan

doi:10.3390/math11204270

A Hyperbolic Secant-Squared Distribution via the Nonlinear Evolution Equation and Its Application

Amira F. Daghistani^*
, Ahmed M.T. Abd El-Bar^*
, Ahmed M. Gemeay
, Mahmoud A.E. Abdelrahman
, Samia Z. Hassan

^*Corresponding author for this work

Mathematics Department

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

3 Scopus citations

Abstract

In this article, we present a hyperbolic secant-squared distribution via the nonlinear evolution equation. Namely, for this equation, the probability density function of the hyperbolic secant-squared (HSS) distribution has been determined. The density of our model has a variety of shapes, including symmetric, left-skewed, and right-skewed. Eight distinct frequent list estimation methods have been proposed for estimating the parameters of our models. Additionally, these estimation techniques have been used to examine the behavior of the HSS model parameters using data sets that were generated randomly. To demonstrate how the findings may be used to model real data using the HSS distribution, we also use real data. Finally, the proposed justification can be applied to a variety of other complex physical models.

Original language	English
Article number	4270
Journal	Mathematics
Volume	11
Issue number	20
DOIs	https://doi.org/10.3390/math11204270
State	Published - Oct 2023

Keywords

estimation techniques
hyperbolic secant-squared distribution
left-skewed
nonlinear evolution equation
real applications

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10.3390/math11204270

Cite this

@article{9d2c4965e9064ebc96ac12a1801a3f0d,

title = "A Hyperbolic Secant-Squared Distribution via the Nonlinear Evolution Equation and Its Application",

abstract = "In this article, we present a hyperbolic secant-squared distribution via the nonlinear evolution equation. Namely, for this equation, the probability density function of the hyperbolic secant-squared (HSS) distribution has been determined. The density of our model has a variety of shapes, including symmetric, left-skewed, and right-skewed. Eight distinct frequent list estimation methods have been proposed for estimating the parameters of our models. Additionally, these estimation techniques have been used to examine the behavior of the HSS model parameters using data sets that were generated randomly. To demonstrate how the findings may be used to model real data using the HSS distribution, we also use real data. Finally, the proposed justification can be applied to a variety of other complex physical models.",

keywords = "estimation techniques, hyperbolic secant-squared distribution, left-skewed, nonlinear evolution equation, real applications",

author = "Daghistani, \{Amira F.\} and \{Abd El-Bar\}, \{Ahmed M.T.\} and Gemeay, \{Ahmed M.\} and Abdelrahman, \{Mahmoud A.E.\} and Hassan, \{Samia Z.\}",

note = "Publisher Copyright: {\textcopyright} 2023 by the authors.",

year = "2023",

month = oct,

doi = "10.3390/math11204270",

language = "English",

volume = "11",

journal = "Mathematics",

issn = "2227-7390",

number = "20",

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TY - JOUR

T1 - A Hyperbolic Secant-Squared Distribution via the Nonlinear Evolution Equation and Its Application

AU - Daghistani, Amira F.

AU - Abd El-Bar, Ahmed M.T.

AU - Gemeay, Ahmed M.

AU - Abdelrahman, Mahmoud A.E.

AU - Hassan, Samia Z.

PY - 2023/10

Y1 - 2023/10

N2 - In this article, we present a hyperbolic secant-squared distribution via the nonlinear evolution equation. Namely, for this equation, the probability density function of the hyperbolic secant-squared (HSS) distribution has been determined. The density of our model has a variety of shapes, including symmetric, left-skewed, and right-skewed. Eight distinct frequent list estimation methods have been proposed for estimating the parameters of our models. Additionally, these estimation techniques have been used to examine the behavior of the HSS model parameters using data sets that were generated randomly. To demonstrate how the findings may be used to model real data using the HSS distribution, we also use real data. Finally, the proposed justification can be applied to a variety of other complex physical models.

AB - In this article, we present a hyperbolic secant-squared distribution via the nonlinear evolution equation. Namely, for this equation, the probability density function of the hyperbolic secant-squared (HSS) distribution has been determined. The density of our model has a variety of shapes, including symmetric, left-skewed, and right-skewed. Eight distinct frequent list estimation methods have been proposed for estimating the parameters of our models. Additionally, these estimation techniques have been used to examine the behavior of the HSS model parameters using data sets that were generated randomly. To demonstrate how the findings may be used to model real data using the HSS distribution, we also use real data. Finally, the proposed justification can be applied to a variety of other complex physical models.

KW - estimation techniques

KW - hyperbolic secant-squared distribution

KW - left-skewed

KW - nonlinear evolution equation

KW - real applications

UR - https://www.scopus.com/pages/publications/85175557035

U2 - 10.3390/math11204270

DO - 10.3390/math11204270

M3 - Article

AN - SCOPUS:85175557035

SN - 2227-7390

VL - 11

JO - Mathematics

JF - Mathematics

IS - 20

M1 - 4270

ER -

A Hyperbolic Secant-Squared Distribution via the Nonlinear Evolution Equation and Its Application

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Imam Abdulrahman Bin Faisal University Researcher Details New Studies and Findings in the Area of Mathematics (A Hyperbolic Secant-Squared Distribution via the Nonlinear Evolution Equation and Its Application)

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A Hyperbolic Secant-Squared Distribution via the Nonlinear Evolution Equation and Its Application

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Imam Abdulrahman Bin Faisal University Researcher Details New Studies and Findings in the Area of Mathematics (A Hyperbolic Secant-Squared Distribution via the Nonlinear Evolution Equation and Its Application)

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