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The Pečarić Journal of Mathematical Inequalities (PJMI)

The Pečarić Journal of Mathematical Inequalities (PJMI), ISSN: 3135-0577 (Online), 3135-0569 (Print), is an international, peer-reviewed, Diamond Open Access journal dedicated to advances in the theory, methods, and applications of mathematical inequalities and convexity. The journal honors the scholarly legacy of Academician Professor Josip Pečarić by fostering both classical and contemporary developments in inequality theory and by showcasing their far-reaching impact across mathematics and the applied sciences. PJMI welcomes rigorous and original work and aims to serve as a specialized reference point for researchers, practitioners, and educators working with inequalities as a central mathematical tool.

  • Diamond Open Access: PJMI follows the Diamond Open Access publishing model, under which published articles are freely available online to readers, and authors are not required to pay article processing charges for standard publication.
  • Rapid Publication: Accepted papers are published online as soon as they are ready for publication, ensuring timely dissemination of research findings.
  • Scope: The journal covers classical and contemporary inequalities, fractional calculus and integral operators, functional and operator inequalities, matrix inequalities, convexity, and related areas of mathematical analysis. PJMI also welcomes submissions focusing on applications of inequalities in optimization, numerical analysis, probability, information theory, physics, engineering, and computational sciences.
  • Publication Frequency: Articles are published online throughout the year, while one annual print volume is published in December for readers, authors, libraries, and institutions that require physical copies.
  • Indexing: Scilit and Google Scholar.
  • Publisher: Ptolemy Scientific Research Press (PSR Press), part of the Ptolemy Institute of Scientific Research and Technology.

Latest Published Articles

Abdellatif Ben Makhlouf1,2, Lassaad Mchiri3
1Mathematics Education Section, Faculty of Education and arts, Sohar University, P.O. Box 44, Postal Code 311, Sohar, Sultanate of Oman
2Department of Mathematics, Faculty of Sciences, Sfax University, Sfax BP 1171, Tunisia
3Department of Mathematics, Galilee institute, University of Paris 13, Campus de Villetaneuse 99, avenue Jean-Baptiste Clement, 93430, Villetaneuse, France
Abstract:

This work advances the stability theory of fractional differential equations by establishing superstability criteria for a significant class of problems involving the Caputo-Katugampola derivative. Utilizing a generalized Taylor series as a foundational tool, we prove that these equations exhibit superstable behavior under specific conditions. Our results generalize a wide range of existing stability theorems, creating a unified framework that encompasses systems governed by the Caputo fractional derivative as special cases of the more general Katugampola operator.

Ghulam Farid1, S. Abdel-Khalek2, Mohamed Haiour3, Sajid Mehmood4
1Department of Mathematics, COMSATS University Islamabad, Lahore Campus, Pakistan
2Department of Mathematics and Statistics, College of Science, Taif University, P.O. Box 11099, Taif 21944, Saudi Arabia
3Department of Mathematics, College of Sciences, Badji Mokhtar Annaba University, Algeria
4Department of Mathematics, COMSATS University Islamabad, Attock Campus, Pakistan
Abstract:

This paper examine new versions of the Hermite-Hadamard (H-H) inequality in the context of \((p,q)-h\) integrals on finite intervals. Using the properties of convex and differentiable functions, we derive generalized inequalities that consolidate and generalize a number of existing results in quantum calculus. Specifically, the presented approach offers new implicit inequalities whose special cases result in well-known findings for \((p,q)-, (q,h)\)- and \(q\)-integrals, previously found in recent research. The newly established results not just recover and extend known inequalities but also bring further insights into convexity structure in the context of post-quantum calculus. Such contributions yet again enrich the current advancement of integral inequalities within fractional and quantum analysis, with possible uses in optimization, theory of approximation, and related topics.

Karima Bensaid1, Mohammed Said Souid2, Salah Mahmoud Boulaaras3
1Department of Mathematics, University of Tiaret, Tiaret, Algeria
2Department of Economic Sciences, University of Tiaret, Tiaret, Algeria
3Department of Mathematics, College of Science, Qassim University, Buraydah 51452, Saudi Arabia
Abstract:

This paper investigates the existence of solutions for initial value problems (IVPs) involving implicit fractional differential inclusions defined via the Hilfer-Katugampola fractional derivative. The Hilfer-Katugampola operator, recently introduced as a generalization of Katugampola and Caputo-Katugampola derivatives, encompasses a wide class of fractional operators. We establish existence results for the multivalued fractional differential problem under convexity and compactness assumptions on the multivalued right-hand side, leveraging Bohnenblust-Karlin fixed point theorem and contraction principles for multivalued maps. An illustrative example is provided to demonstrate the applicability of the main theoretical results. Our work contributes to the emerging theory of fractional differential inclusions governed by fractional derivatives of generalized type.

Julije Jakšetić1, Dragana Kordić2, Josip Pečarić3, Lars Erik Persson4,5
1University of Zagreb Faculty of Food Technology and Biotechnology, Mathematics department, Pierottijeva 6, 10000 Zagreb, Croatia
2University of Mostar, Faculty of Mechanical Engineering, Computing and Electrical Engineering, Matice hrvatske bb, 88000 Mostar, Bosnia and Herzegovina
3Croatian Academy of Sciences and Arts, Trg Nikole Šubi´ca Zrinskog 11, 10000 Zagreb, Croatia
4UiT The Arctic University of Norway P. O. Box 385, Narvik N-8505 Norway
5Department of Mathematics, Uppsala University Box 480751 06, Uppsala, Sweden
Abstract:

By examining the properties of a certain linear transformation of functionals, we present applications of Cauchy, Aczel, Callebaut, and Beckenbach type inequalities. Additionally, we provide results for complex functionals.

Special Issues

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