Journal Information
Physica D: Nonlinear Phenomena
https://www.sciencedirect.com/journal/physica-d-nonlinear-phenomena
Impact Factor:
2.700
Publisher:
Elsevier
ISSN:
0167-2789
Viewed:
12329
Tracked:
0
Call For Papers
Physica D (Nonlinear Phenomena) publishes research and review articles reporting on theoretical and experimental work, techniques, and ideas that advance the understanding of nonlinear phenomena.

The scope of the journal encompasses mathematical methods for nonlinear systems including: wave motion, pattern formation and collective phenomena in physical, chemical and biological systems; hydrodynamics and turbulence; integrable and Hamiltonian systems; and data-driven dynamical systems. The journal encourages submissions in established and emerging application domains, for example applications of nonlinear science to artificial intelligence, robotics, control theory, complex networks, and social and economic dynamics.
Last updated by Dou Sun in 2024-07-14
Special Issues
Special Issue on New Horizons at the Intersections of Machine Learning, Dynamical Systems, and Algorithmic Information Theory
Submission Date: 2024-12-31

The evolving landscape of theoretical and applied sciences, particularly in the analysis of complex systems, has brought forth the convergence of three pivotal areas: Machine Learning (ML), Dynamical Systems Theory (DST), and Algorithmic Information Theory (AIT). This special issue aims to explore the rich interfaces between ML, DST, and AIT, fostering a multidisciplinary dialogue that could unveil new methodologies, theoretical insights, and practical applications. By delving into the synergies and applications among these domains, we seek to push the boundaries of current knowledge and provide innovative tools for the analysis and understanding of complex systems. Background: Dynamical Systems Theory, rooted in the work of pioneers like Poincaré and Lyapunov, provides a robust mathematical framework for analyzing systems dynamics through models expressed in differential or difference equations. Its application spans complex and chaotic systems, including climate dynamics and biological networks. Conversely, Machine Learning, with its algorithm-driven approaches, excels in environments rich in data but lacking explicit models, offering groundbreaking applications from computer vision to stock market analysis. Algorithmic Information Theory, with its focus on the inherent complexity of data and systems, bridges foundational concepts in computation and information to provide a deeper understanding of both ML models and dynamical systems. Themes and Objectives: ML for DST: This theme emphasizes the use of ML techniques to analyze and model dynamical systems based on observed data. It seeks contributions that explore data-driven methodologies to extend classical DST theories, aiming to capture the underlying dynamics of complex systems with high-dimensional data. DST for ML: Here, the focus is on applying DST principles to enhance the understanding and performance of ML algorithms. Submissions should explore how dynamical systems theory can offer new perspectives on the stability, convergence, and behavior of algorithms under various conditions. ML for AIT: Contributions under this theme will explore how machine learning methodologies can be employed to tackle problems within Algorithmic Information Theory, such as optimizing for better compression and prediction algorithms that approach Kolmogorov Complexity. AIT for ML: This area seeks to understand and improve ML algorithms through the lens of AIT, examining the theoretical underpinnings that predict algorithmic performance and limitations. Papers should aim to provide new insights into the applicability and efficiency of ML methods for complex problem-solving. DST for AIT: To explore how DST can inform and enrich AIT, particularly in areas of complexity and randomness. This theme invites studies that apply dynamical systems' insights to algorithmic questions, offering new perspectives on information content, process complexity, and the generation of complex patterns from simple rules. AIT for DST: To apply AIT concepts to deepen the understanding of dynamical systems, particularly regarding predictability, information dynamics, and system complexity. Contributions should aim to leverage algorithmic principles to shed light on the behavior of dynamical systems, their information content, and their evolution over time. Guest editors: Executive Guest Editor Dr. Boumediene Hamzi Organization*: Caltech, Pasadena, CA, USA & The Alan Turing Institute, London, UK Institutional Email Address*: bhamzi@turing.ac.uk Areas of Expertise*: Machine Learning, Dynamical Systems, Algorithmic Information Theory Co-Guest Editors Dr. Kamal Dingle Organization*: Gulf Institute of Science and Technology, Kuwait Institutional Email Address*: Dingle.K@gust.edu.kw Areas of Expertise*: Algorithmic Information Theory, Theoretical Biology Prof. Marcus Hutter Organization*: Google DeepMind, London, UK, and Australian National University, Canberra, Australia Institutional Email Address*: marcus.hutter@anu.edu.au Areas of Expertise*: Algorithmic Information Theory, Machine Learning Dr. Qinxiao Li Organization*: Department of Mathematics, National University of Singapore, 117543, Singapore. Institutional Email Address*: qianxiao@nus.edu.sg Areas of Expertise*: Machine Learning, Dynamical Systems Dr. Tanya Schmah Organization*: University of Ottawa, Canada Institutional Email Address*: tschmah@uottawa.ca Areas of Expertise*: Machine Learning, Dynamical Systems Manuscript submission information: Manuscript Submission Deadline: 31 December 2024 Manuscripts should be submitted using the online submission system of the journal at https://www.editorialmanager.com/PHYSD/default.aspx. Authors should select the article type ‘VSI: MLDSAIT’ during the submission. The author guidance can be found at https://www.elsevier.com/journals/physica-d-nonlinear-phenomena/0167-2789/guide-for-authors. Keywords: Machine Learning, Dynamical Systems, Algorithmic Information Theory
Last updated by Dou Sun in 2024-07-14
Special Issue on Compressible Turbulent Mixing
Submission Date: 2025-01-31

This collection would include papers selected from the 18th International Workshop on the Physics of Compressible Turbulent Mixing (which will held in Bristol, UK from July 14-19, 2024). This series of workshops, running since 1988, focuses on fundamental aspects of turbulent mixing in flows subject to destabilizing acceleration in both compressible and incompressible fluids. Topics covered by the workshop include, but are not limited to: · Rayleigh-Taylor instability · Richtmyer-Meshkov instability · Mixing layers · Experimental, numerical, and theoretical studies · Numerical and experimental techniques · Direct numerical simulation, large-eddy simulation, and engineering turbulence models · Applications. Guest editors: Dr. Andrew Lawrie Organization*: University of Bristol, UK Institutional Email Address*: Andrew.Lawrie@bristol.ac.uk Areas of Expertise*: Turbulence, mixing, instabilities Dr. Ye Zhou Organization*: Lawrence Livermore National Laboratory, Livermore, California, USA Institutional Email Address*: yezhou@llnl.gov Areas of Expertise*:Turbulence, mixing, instabilities Manuscript submission information: Manuscript Submission Deadline: 31 January 2025 Manuscripts should be submitted using the online submission system of the journal Physica D: Nonlinear Phenomena at https://www.editorialmanager.com/PHYSD/default.aspx. Authors should select the article type ‘VSI: Compressible Turbulent Mixing’ during the submission. The author guidance can be found at https://www.elsevier.com/journals/physica-d-nonlinear-phenomena/0167-2789/guide-for-authors. For any inquiries about the special issue, please contact Guest Editors Dr. Andrew Lawrie via Andrew.Lawrie@bristol.ac.uk and Dr. Ye Zhou via yezhou@llnl.gov. If during the submitting of your manuscript(s) in Editorial Manager, you encounter any difficulties, please contact the support desk: Elsevier Support Center, or our journal manager Mr. Surjith Kumar via physd@elsevier.com. Keywords: Rayleigh-Taylor instability, Richtmyer-Meshkov instability, Kelvin–Helmholtz instability, Mixing, Direct numerical simulation, large-eddy simulation, engineering turbulence models.
Last updated by Dou Sun in 2024-07-14
Special Issue on Multiple Scales: Theory and Applications
Submission Date: 2025-02-01

Many natural systems exhibit dynamics at different temporal (e.g. neural models) and spatial (e.g. vegetation patterns) scales. To study the dynamics of such systems, multiple-scale methods are typically employed. In this field, theoretical advancements and applications cross-fertilize each other: questions coming from applications lead to the need to develop new mathematical theories and methods or extend existing ones. On the other hand, the converse is also true with theory actually preceding the application. This special issue highlights results related to the workshop “Multiple Scales: Theory and Applications,” which was aimed at providing a dedicated focused platform for both theory-inclined and application-inclined multiple scales researchers. By providing this platform, the workshop sought to facilitate meaningful discussions, knowledge and methodology sharing on state-of-the-art open problems, and ultimately, the establishment of new research collaborations between theory-inclined and application-inclined researchers. Guest editors: Executive Guest Editor Professor Margaret Beck Organization*: Department of Mathematics and Statistics, Boston University, Boston, MA 02215, United States of America Institutional Email Address*: mabeck@bu.edu Areas of Expertise: Partial differential equations, dynamical systems Co-Guest Editors Professor Peter van Heijster Organization*: Biometris, Wageningen University and Research, Wageningen, The Netherlands Institutional Email Address*: peter.vanheijster@wur.nl Areas of Expertise: Multiple scales, partial differential equations, pattern formation Associate Professor Matt Holzer Organization*: Department of Mathematical Sciences & Center for Mathematics and Artificial Intelligence (CMAI), George Mason University, Fairfax, VA, USA. Institutional Email Address*: mholzer@gmu.edu Areas of Expertise: Differential equations, traveling waves, complex networks, pattern formation Associate Professor Vivi Rottschäfer Organization*: Mathematical Institute, Leiden University & University of Amsterdam, Leiden/Amsterdam, The Netherlands Institutional Email Address*: vivi@math.leidenuniv.nl Areas of Expertise: Dynamical systems, partial differential equations, applications in pharmacology and ecology Professor Henk Schuttelaars Organization*: Applied mathematics, Delft University of Technology, Delft, the Netherlands Institutional Email Address*: H.M.Schuttelaars@tudelft.nl Areas of Expertise: Partial differential equations, asymptotic analysis, marine modeling Special issue information: For any inquiries about the special issue, please contact Guest Editor Professor Margaret Beck via mabeck@bu.edu. If during the submitting of your manuscript(s) in Editorial Manager, you encounter any difficulties, please contact the support desk: Elsevier Support Center, or our journal manager Mr. Surjith Kumar via physd@elsevier.com. Manuscript submission information: Manuscript Submission Deadline: 1st February 2025 Manuscripts should be submitted using the online submission system of the journal Physica D: Nonlinear Phenomena at https://www.editorialmanager.com/PHYSD/default.aspx. Authors should select the article type ‘VSI: Multiple Scales ’ during the submission. The author guidance can be found at https://www.elsevier.com/journals/physica-d-nonlinear-phenomena/0167-2789/guide-for-authors. If during the submission of your manuscript, you encounter difficulties, please contact the support desk: Elsevier Support Center or our journal manager Surjith via physd@elsevier.com. Keywords: (Multiple Scales) AND (Tipping) AND (Climate) AND (Pattern Formation) AND (Canards) AND (Bifurcations) AND (Geometric Singular Perturbation Theory)
Last updated by Dou Sun in 2024-07-14
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