About the Journal

Aim

The Journal of Applied Mathematical Models in Engineering (JAMME) aims to advance the use of mathematical modeling techniques in solving complex problems across various engineering disciplines. The journal serves as a platform for publishing high-quality research that bridges theoretical developments in mathematics with practical engineering applications, promoting innovation and interdisciplinary collaboration.

Scope

The journal welcomes original research articles, review papers, case studies, and theoretical contributions in the following areas:

1. Mathematical Models in Engineering

  • Development and analysis of mathematical models for engineering systems.
  • Mathematical formulations for physical, chemical, biological, and industrial processes.
  • Applications of partial differential equations, integral equations, and functional analysis in engineering.

2. Computational Methods and Numerical Techniques

  • Numerical methods for solving engineering-related mathematical models.
  • Computational fluid dynamics (CFD) and finite element analysis (FEA).
  • Approximation techniques, optimization algorithms, and parallel computing.

3. Engineering Applications of Mathematical Models

  • Structural engineering: modeling and simulation of mechanical and civil systems.
  • Electrical and electronics engineering: circuit design, signal processing, and control systems.
  • Mechanical engineering: thermal systems, vibration analysis, and materials modeling.
  • Chemical engineering: process modeling, reaction kinetics, and thermodynamics.
  • Aerospace engineering: flight dynamics, aerodynamics, and control systems.
  • Environmental engineering: pollution modeling, water resources management, and sustainability.

4. Interdisciplinary Applications

  • Modeling in biomedical engineering, robotics, and smart materials.
  • Integration of mathematical models in energy systems, renewable technologies, and industrial applications.
  • Mathematical optimization in engineering design and manufacturing.

5. Emerging Trends and Innovations

  • Machine learning and artificial intelligence in mathematical modeling and simulation.
  • Multiscale modeling and simulations for complex engineering problems.
  • Nonlinear modeling, chaos theory, and applications in modern engineering.

Why JAMME?

The journal emphasizes the practical utility of mathematical models in engineering, showcasing how abstract theories are applied to solve real-world challenges. It aims to foster collaboration between mathematicians, engineers, and scientists, helping to drive innovation across diverse engineering sectors.