HYERS-ULAM STABILITY ANALYSIS FOR PIECEWISE VARIABLE ORDER FRACTIONAL IMPULSIVE EVOLUTION SYSTEMS

Kamal Shah; Arshad Ali; M. Boukhobza; A. Debbouche; Thabet Abdeljawad

doi:10.11948/20240536

HYERS-ULAM STABILITY ANALYSIS FOR PIECEWISE VARIABLE ORDER FRACTIONAL IMPULSIVE EVOLUTION SYSTEMS

Kamal Shah^*
, Arshad Ali
, M. Boukhobza
, A. Debbouche^*
, Thabet Abdeljawad^*

^*Corresponding author for this work

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

1 Citation (Scopus)

Abstract

We investigate a class of piecewise variable-order fractional differential equations with impulsive and nonlocal conditions in Banach space. The nonhomogeneous term in the proposed system is given in terms of variable kernel which has flexibility property. We formulate appropriate equivalent integral equations to the considered evolution problem, then we show the solvability results by using mainly fractional calculus and fixed point techniques. Further, we study Hyers-Ulam stability analysis by adapting suitable conditions. The concerned area has numerous applications in those evolution processes and phenomenon, where abrupt changes occur. At the end, we support our obtained theory by illustrative and computational example.

Original language	English
Pages (from-to)	3159-3184
Number of pages	26
Journal	Journal of Applied Analysis and Computation
Volume	15
Issue number	5
DOIs	https://doi.org/10.11948/20240536
Publication status	Published - 2025
Externally published	Yes

Keywords

Evolution problem
Hyers-Ulam stability
impulsive conditions
piecewise fractional order derivative
variable kernel

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10.11948/20240536

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title = "HYERS-ULAM STABILITY ANALYSIS FOR PIECEWISE VARIABLE ORDER FRACTIONAL IMPULSIVE EVOLUTION SYSTEMS",

abstract = "We investigate a class of piecewise variable-order fractional differential equations with impulsive and nonlocal conditions in Banach space. The nonhomogeneous term in the proposed system is given in terms of variable kernel which has flexibility property. We formulate appropriate equivalent integral equations to the considered evolution problem, then we show the solvability results by using mainly fractional calculus and fixed point techniques. Further, we study Hyers-Ulam stability analysis by adapting suitable conditions. The concerned area has numerous applications in those evolution processes and phenomenon, where abrupt changes occur. At the end, we support our obtained theory by illustrative and computational example.",

keywords = "Evolution problem, Hyers-Ulam stability, impulsive conditions, piecewise fractional order derivative, variable kernel",

author = "Kamal Shah and Arshad Ali and M. Boukhobza and A. Debbouche and Thabet Abdeljawad",

year = "2025",

doi = "10.11948/20240536",

language = "English",

volume = "15",

pages = "3159--3184",

journal = "Journal of Applied Analysis and Computation",

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T1 - HYERS-ULAM STABILITY ANALYSIS FOR PIECEWISE VARIABLE ORDER FRACTIONAL IMPULSIVE EVOLUTION SYSTEMS

AU - Shah, Kamal

AU - Ali, Arshad

AU - Boukhobza, M.

AU - Debbouche, A.

AU - Abdeljawad, Thabet

PY - 2025

Y1 - 2025

N2 - We investigate a class of piecewise variable-order fractional differential equations with impulsive and nonlocal conditions in Banach space. The nonhomogeneous term in the proposed system is given in terms of variable kernel which has flexibility property. We formulate appropriate equivalent integral equations to the considered evolution problem, then we show the solvability results by using mainly fractional calculus and fixed point techniques. Further, we study Hyers-Ulam stability analysis by adapting suitable conditions. The concerned area has numerous applications in those evolution processes and phenomenon, where abrupt changes occur. At the end, we support our obtained theory by illustrative and computational example.

AB - We investigate a class of piecewise variable-order fractional differential equations with impulsive and nonlocal conditions in Banach space. The nonhomogeneous term in the proposed system is given in terms of variable kernel which has flexibility property. We formulate appropriate equivalent integral equations to the considered evolution problem, then we show the solvability results by using mainly fractional calculus and fixed point techniques. Further, we study Hyers-Ulam stability analysis by adapting suitable conditions. The concerned area has numerous applications in those evolution processes and phenomenon, where abrupt changes occur. At the end, we support our obtained theory by illustrative and computational example.

KW - Evolution problem

KW - Hyers-Ulam stability

KW - impulsive conditions

KW - piecewise fractional order derivative

KW - variable kernel

UR - https://www.scopus.com/pages/publications/105007100136

U2 - 10.11948/20240536

DO - 10.11948/20240536

M3 - Article

AN - SCOPUS:105007100136

SN - 2156-907X

VL - 15

SP - 3159

EP - 3184

JO - Journal of Applied Analysis and Computation

JF - Journal of Applied Analysis and Computation

IS - 5

ER -

HYERS-ULAM STABILITY ANALYSIS FOR PIECEWISE VARIABLE ORDER FRACTIONAL IMPULSIVE EVOLUTION SYSTEMS

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Keywords

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