About the Conference

ICSM-AFCEA 2026

Overview

Bridging Theory and Practical Innovation

The International Conference on “Synergy in Mathematics: Advances in Fractional Calculus and Engineering Applications” will be held on October 5–6, 2026, jointly organized by the International Centre for Basic and Applied Sciences, SIDDHI VINAYAK SHIKSHA SAMITI, India and Siirt University, Turkey. The conference is conceived as an international platform for mathematicians, scientists, engineers, academicians, research scholars, and industry professionals to discuss recent developments at the interface of pure and applied mathematics, fractional calculus, nonlinear analysis, computational methods, and engineering applications.

Fractional calculus has emerged as a powerful mathematical framework for modeling memory, hereditary, and nonlocal effects in complex systems that are often beyond the reach of classical integer-order models. Its growing relevance in dynamical systems, control theory, signal processing, bio-mathematics, material science, fluid mechanics, thermal sciences, data-driven modeling, and emerging interdisciplinary engineering problems has opened new directions for both theoretical research and practical innovation. Contemporary conferences and special sessions in this area consistently emphasize its role in modeling complex real-world systems and in connecting rigorous mathematical theory with applications across science and engineering.

The conference aims to bring together experts working on fractional differential equations, special functions, integral transforms, stability analysis, numerical and computational techniques, optimization, mathematical modeling, and engineering systems to exchange ideas, present original research, and foster new collaborations. In particular, the event seeks to highlight the synergy between foundational mathematics and application-oriented engineering research, encouraging dialogue between theoretical mathematicians and researchers applying advanced analytical tools to practical problems in technology, physical sciences, biological systems, and industrial processes. Similar fractional-calculus-focused conferences describe the field as a bridge between mathematical theory and applications in physics, engineering, biology, and computation, with strong emphasis on modeling, simulation, and interdisciplinary problem-solving.

A central objective of the conference is to provide a high-quality academic forum for presenting recent advances in:

  • fractional differential and integral equations
  • analytical and numerical methods in fractional calculus
  • special functions and transform techniques
  • mathematical modeling of complex systems
  • control, optimization, and dynamical systems
  • applications of mathematics in engineering and applied sciences
  • computational approaches for nonlinear and nonlocal models
  • emerging intersections of mathematics with data science, intelligent systems, and modern engineering technologies

Through keynote lectures, invited talks, contributed presentations, and technical sessions, the conference will promote scholarly interaction on current trends, unresolved challenges, and future research directions in the field. It is expected to serve as a vibrant meeting point for established researchers as well as early-career scholars seeking to contribute to the advancement of fractional calculus, applied mathematics, and engineering innovation.

The organizers warmly invite faculty members, scientists, postdoctoral fellows, research scholars, postgraduate students, and industry experts to participate in this international event and contribute to a deeper understanding of how modern mathematical tools can address challenging scientific and engineering problems in an increasingly interconnected research landscape.