Topics

Topics of Interest

ICNAAM 2025 will cover a broad range of topics, including (but not limited to):

Numerical Analysis and Computational Mathematics

  • Numerical Ordinary Differential Equations (ODEs)
  • Numerical Partial Differential Equations (PDEs), including Boundary Value Problems (BVPs)
  • Scientific Computing and Algorithms
  • Stochastic Differential Equations
  • Approximation Theory
  • Numerical Linear Algebra
  • Numerical Integral Equations
  • Error Analysis and Interval Analysis
  • Difference Equations and Recurrence Relations
  • Numerical Problems in Dynamical Systems
  • Applications to the Sciences (Computational Physics, Computational Statistics, Computational Chemistry, Computational Engineering, etc.)
  • Differential Algebraic Equations
  • Numerical Methods in Fourier Analysis

Applied and Industrial Mathematics

  • Mathematical Physics
  • Mathematical Chemistry
  • Mathematical Biology and Medicine
  • Optimization and Operational Research
  • Theoretical Mechanics
  • Discrete Applied Mathematics
  • Statistics and Probability
  • Dynamical Systems
  • Algorithms and Experimental Mathematics
  • Theoretical Computer Science
  • Applied Analysis
  • Mathematical Modeling, including:
    • Engineering and Environmental Processes
    • Manufacturing and Industrial Systems
    • Heat Transfer, Fluid Mechanics, and Computational Fluid Dynamics (CFD)
    • Reliability Modeling and System Optimization
    • Decision Sciences in Industrial and Manufacturing Contexts
    • Civil Engineering Systems and Structures
    • Mineral and Energy Resources
    • Software Engineering Issues in CAD and CAE
    • Mathematical Modeling in Social and Behavioral Sciences

Additional Topics

  • Decomposition and Reconstruction Algorithms
  • Subdivision Algorithms
  • Continuous and Discrete Wavelet Transform
  • Time-Frequency Localization
  • Phase-Space Analysis
  • Subband Coding and Image Compression
  • Real-Time Filtering
  • Radar and Sonar Applications
  • Transient Analysis and Medical Imaging
  • Multigrid Methods and Frames
  • Bifurcation and Singularity Theory
  • Deterministic Chaos and Fractals
  • Soliton and Coherent Phenomena
  • Pattern Formation and Evolution
  • Complexity Theory and Neural Networks
  • Analytical Approaches and Simulations for Accurate Descriptions
  • Predictions and Experimental Observations of Nonlinear Phenomena
  • Theoretical and Applied Aspects of Computational Geometry
  • Control Theory and Automation
  • Fuzzy Sets, Systems, and Fuzzy Logic
  • Applied Algebra
  • Quality Theory of Differential Equations
  • Neural Networks

We welcome contributions in all areas of research relevant to these topics.

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