Analysis of New Type of Second-order Fractional Linear Multi-step Method with Improved Stability: ANALYSIS OF A NEW TYPE OF SECOND-ORDER FRACTIONAL LINEAR MULTI-STEP METHOD

Haniffa Mohamed Nasir; Khadija Al-Hassani

doi:10.53539/squjs.vol27iss2pp107-118

Analysis of New Type of Second-order Fractional Linear Multi-step Method with Improved Stability: ANALYSIS OF A NEW TYPE OF SECOND-ORDER FRACTIONAL LINEAR MULTI-STEP METHOD

Haniffa Mohamed Nasir, Khadija Al-Hassani

Mathematics

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

Abstract

We present and investigate a new type of implicit fractional linear multi-step method of order two
for fractional initial value problems. The method is obtained from the second-order super-convergence of the
Grünwald-Letnikov approximation of the fractional derivative at a non-integer shift point. The method coincides
with the backward difference method of order two for the classical initial value problem when the order of the
derivative is one. The weight coefficients of the proposed method are obtained from the Grünwald weights and are
hence computationally efficient compared with that of the fractional backward difference formula of order two. The
stability properties are analyzed and it is shown that the stability region of the method is larger than that of the
fractional Adams-Moulton method of order two and the fractional trapezoidal method. Numerical results and
illustrations are presented to justify the analytical theories.

Original language	English
Pages (from-to)	107-118
Number of pages	12
Journal	SQU Journal of Science
Volume	27
Issue number	2
DOIs	https://doi.org/10.53539/squjs.vol27iss2pp107-118
Publication status	Published - 2022

Keywords

Grünwald approximation
Generating functions
Fractional Adams-Moulton methods
Backward difference method
Super-convergence
Stability regions

Access to Document

10.53539/squjs.vol27iss2pp107-118

Cite this

@article{ffc115ced3584c01aa10579ec2edc2b7,

title = "Analysis of New Type of Second-order Fractional Linear Multi-step Method with Improved Stability: ANALYSIS OF A NEW TYPE OF SECOND-ORDER FRACTIONAL LINEAR MULTI-STEP METHOD",

abstract = "We present and investigate a new type of implicit fractional linear multi-step method of order twofor fractional initial value problems. The method is obtained from the second-order super-convergence of theGr{\"u}nwald-Letnikov approximation of the fractional derivative at a non-integer shift point. The method coincideswith the backward difference method of order two for the classical initial value problem when the order of thederivative is one. The weight coefficients of the proposed method are obtained from the Gr{\"u}nwald weights and arehence computationally efficient compared with that of the fractional backward difference formula of order two. Thestability properties are analyzed and it is shown that the stability region of the method is larger than that of thefractional Adams-Moulton method of order two and the fractional trapezoidal method. Numerical results andillustrations are presented to justify the analytical theories.",

keywords = "Gr{\"u}nwald approximation, Generating functions, Fractional Adams-Moulton methods, Backward difference method, Super-convergence, Stability regions",

author = "Nasir, {Haniffa Mohamed} and Khadija Al-Hassani",

year = "2022",

doi = "10.53539/squjs.vol27iss2pp107-118",

language = "English",

volume = "27",

pages = "107--118",

journal = "SQU Journal of Science",

number = "2",

}

TY - JOUR

T1 - Analysis of New Type of Second-order Fractional Linear Multi-step Method with Improved Stability

T2 - ANALYSIS OF A NEW TYPE OF SECOND-ORDER FRACTIONAL LINEAR MULTI-STEP METHOD

AU - Nasir, Haniffa Mohamed

AU - Al-Hassani, Khadija

PY - 2022

Y1 - 2022

N2 - We present and investigate a new type of implicit fractional linear multi-step method of order twofor fractional initial value problems. The method is obtained from the second-order super-convergence of theGrünwald-Letnikov approximation of the fractional derivative at a non-integer shift point. The method coincideswith the backward difference method of order two for the classical initial value problem when the order of thederivative is one. The weight coefficients of the proposed method are obtained from the Grünwald weights and arehence computationally efficient compared with that of the fractional backward difference formula of order two. Thestability properties are analyzed and it is shown that the stability region of the method is larger than that of thefractional Adams-Moulton method of order two and the fractional trapezoidal method. Numerical results andillustrations are presented to justify the analytical theories.

AB - We present and investigate a new type of implicit fractional linear multi-step method of order twofor fractional initial value problems. The method is obtained from the second-order super-convergence of theGrünwald-Letnikov approximation of the fractional derivative at a non-integer shift point. The method coincideswith the backward difference method of order two for the classical initial value problem when the order of thederivative is one. The weight coefficients of the proposed method are obtained from the Grünwald weights and arehence computationally efficient compared with that of the fractional backward difference formula of order two. Thestability properties are analyzed and it is shown that the stability region of the method is larger than that of thefractional Adams-Moulton method of order two and the fractional trapezoidal method. Numerical results andillustrations are presented to justify the analytical theories.

KW - Grünwald approximation

KW - Generating functions

KW - Fractional Adams-Moulton methods

KW - Backward difference method

KW - Super-convergence

KW - Stability regions

U2 - 10.53539/squjs.vol27iss2pp107-118

DO - 10.53539/squjs.vol27iss2pp107-118

M3 - Article

VL - 27

SP - 107

EP - 118

JO - SQU Journal of Science

JF - SQU Journal of Science

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