STABILITY AND BOUNDEDNESS OF SOLUTIONS FOR A CLASS OF FUZZY FRACTIONAL IMPULSIVE DYNAMIC EQUATIONS ON TIME SCALES USING FIXED-POINT TECHNIQUE

STABILITY AND BOUNDEDNESS OF SOLUTIONS

Authors

  • S. K. SAMAILA Federal University Otuoke
  • S. G. GEORGIEV Department of Mathematics, Sorbonne University, Paris, France
  • A. J. ALKALI Department of Mathematics, Ahamdu Bello University, Zaria, Nigeria

Abstract

This article investigates the stability and boundedness of solutions for a class of fuzzy fractional impulsive dynamic equations, employing the fixed-point technique as a primary analytical tool. We begin by defining a framework for fuzzy fractional calculus, which allows us to model uncertainty and imprecision inherent in dynamic systems. The incorporation of the impulsive effects is to capture sudden changes in the system state, reflecting real-world phenomena. Utilizing the fixed-point theorem, we establish sufficient conditions for the existence, stability and boundedness of solutions of the class of equations. Our results extend existing theories by addressing the interplay between fuzziness, fractional order, and impulsive dynamics.

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Published

2025-11-12

Issue

Vol. 44 No. 4 (2025): JNMS

Section

Articles

License

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This work is licensed under a Creative Commons Attribution-ShareAlike 4.0 International License.

How to Cite

STABILITY AND BOUNDEDNESS OF SOLUTIONS FOR A CLASS OF FUZZY FRACTIONAL IMPULSIVE DYNAMIC EQUATIONS ON TIME SCALES USING FIXED-POINT TECHNIQUE: STABILITY AND BOUNDEDNESS OF SOLUTIONS. (2025). Journal of the Nigerian Mathematical Society, 44(4), 445-457. https://ojs.ictp.it/jnms/index.php/jnms/article/view/1256