Aims and Scope

"Communications on Applied Nonlinear Analysis" (CANA) is a distinguished journal dedicated to advancing the understanding and application of nonlinear analysis across a broad range of scientific and engineering disciplines. CANA serves as a premier platform for researchers, scholars, and practitioners to disseminate their innovative work and contribute to the ever-evolving field of nonlinear analysis.

Our Aims

The primary aims of CANA are as follows:

  1. Dissemination of Knowledge: CANA strives to be a prominent medium for the dissemination of high-quality, original research and comprehensive reviews related to applied nonlinear analysis.

  2. Advancement of Interdisciplinary Research: We aim to foster interdisciplinary collaboration and the integration of nonlinear analysis into various scientific and engineering domains.

  3. International Engagement: CANA encourages international dialogue among researchers, promoting global cooperation and knowledge exchange in the field of nonlinear analysis.

Scope of Research Areas

"Communications on Applied Nonlinear Analysis" welcomes submissions related to, but not limited to, the following areas:

  1. Nonlinear Differential Equations: This category encompasses research on both ordinary and partial nonlinear differential equations, their solutions, and their applications in modeling real-world phenomena.

  2. Numerical Methods: CANA publishes studies on numerical techniques, algorithms, and computational approaches for solving nonlinear problems and simulating complex systems.

  3. Mathematical Modeling: Explore innovative mathematical models and methodologies applied to real-world problems, with an emphasis on nonlinear dynamics and behavior.

  4. Applications in Science: CANA delves into the application of nonlinear analysis to problems in various scientific disciplines, including physics, chemistry, biology, and environmental science.

  5. Engineering and Technology: Discover how nonlinear analysis plays a pivotal role in solving complex engineering challenges, optimizing processes, and advancing technological applications.

  6. Control Theory: Explore the use of nonlinear analysis in control theory, including control of chaotic systems and nonlinear control systems.

  7. Optimization: Investigate the application of nonlinear analysis in optimization problems, with a focus on nonlinear programming and optimization algorithms.

  8. Interdisciplinary Insights: CANA encourages research that bridges the gap between nonlinear analysis and other fields, fostering cross-disciplinary collaboration and innovative solutions.

Why Publish with CANA?

  1. Impactful Research: CANA is known for publishing influential research that contributes to the advancement of applied nonlinear analysis.

  2. Stringent Peer Review: We maintain a rigorous peer-review process to ensure the scholarly integrity and excellence of all published articles.

  3. Global Exposure: The journal reaches a diverse and global readership, facilitating international collaboration and knowledge exchange.

  4. Open Access: CANA is committed to the principle of open access, providing free and unrestricted access to our content, promoting widespread knowledge dissemination.

  5. Inclusivity: CANA welcomes contributions from researchers at all career stages, fostering diversity in perspectives and insights.