Editorials

Frontiers in Network Physiology

Frontiers in Network Physiology is the first journal publishing rigorously peer-reviewed research dedicating to furthering our understanding of network physiology. This multidisciplinary, open-access journal is at the forefront of communicating impactful scientific discoveries to academics and clinicians.

Review Editor at Networks in the Brain System section of Frontiers in Network Physiology, which publishes high-quality, interdisciplinary, and translational-oriented, original articles and reviews on research on human brain networks, from basic science to medical applications.

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About this Journal

The Networks in the Brain System section of Frontiers in Network Physiology publishes high-quality, interdisciplinary, and translational-oriented, original articles and reviews on research on human brain networks, from basic science to medical applications. It focuses on understanding, measuring, modelling, and controlling physical, biological, structural and dynamical properties of networks (and of networks of networks) of functional units of the brain system, their interactions among each other across all spatial and temporal scales, and with other organs or processes. The journal aligns with the new field of Network Physiology, which aims to develop new theoretical frameworks and dynamic network approaches to understand how the horizontal integration of healthy and/or diseased physiological systems leads to global behaviour and distinct (patho-)physiological functions at the organism level.

Areas covered by this section include, but are not limited to:

  • Scale-bridging mathematical and numerical analysis of brain networks

  • Assessment and analysis of dynamics and emerging phenomena of and on brain networks

  • Network stability and instability in sleep and circadian systems

  • Analysis, modelling, prediction, and control of evolving structural and functional brain networks

  • Brain networks underlying and network approaches to cognition, behaviour, and disorders

  • Interactions of brain (dys-)functions with dynamics of other organ systems

  • Multivariate time series analysis tools, data-driven modelling, network analysis

The journal will not consider purely basic or any other studies of isolated phenomena as well as studies focusing on analysis, modelling, or control that are not related to brain networks.

Research Topic: Advancing Our Understanding of Structure and Function in the Brain: Developing Novel Approaches for Network Inference and Emergent Phenomena

Call for Papers is now open for the Special Issue in Frontiers in Physics - Biophysics and Frontiers in Computational Neuroscience journals (Editors C.Antonopoulos, myself, M. S. Baptista, and A. Batista).

Manuscript Submission deadline: 31st of May, 2019

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About this Research Topic

Complex systems are composed of a large number of non-trivially interacting components whose collective behavior cannot be determined from the behavior of the individual components. Many real-world systems can be modeled as complex, such as stock markets, the Internet, social networks and the brain. Particularly, in the brain, a massive number of microscopic components (neurons or cortical areas) are interacting with each other in nonlinear ways, where important information resides in the relationships between the components and not necessarily within their individual dynamics. Hence, studying the dynamics of these components without knowing how they are interconnected does not allow for the understanding of the brain’s behavior as a whole. Furthermore, connectivity is often unknown and difficult to infer due to large system-sizes and multiple time and spatial scales. This poses significant challenges and opens questions, forming the basis for this Research Topic.

Despite the inherent complexities of the brain, if we consider its components as nodes, and the underlying physical interaction among them as links in a network, we simplify the problem and at the same time harvest useful information. This simplified version of the system has proven successful, allowing to shift the focus from the emergent behaviors to the resultant connectivity, where characterization analysis can rely on powerful tools from the emerging area of Network Neuroscience. Thus, it is important to infer connectivity that represents the physical interaction among data collected from the dynamics of the nodes, such as data from EEG, fMRI, PET, MEG or other brain imaging techniques. Although network inference from brain data has been studied extensively in recent years using cross-correlation, mutual information, mutual information rate, recurrences, functional dynamics, and Granger causality to name a few, it still presents major challenges. The inferred network is always an approximation and the measured signals suffer from several factors, for example, interference, volume conduction, noise, and damping. How representative is the inferred network to the axonal, anatomical or functional connectivity? How reliable are the inference methods in describing a connectivity? How are the brain’s multi-scales reflected on the inferred connectivity? We think modeling the brain from its inferred structure will provide understanding on how emergence sets in different scales, thus, also providing answers for the posed challenges.

This Research Topic requires multi- and inter-disciplinary efforts, thus, we welcome contributions from researchers working on several related fields, not only those on inference methods, but also those working on Complex Systems, Biophysics, and Network Neuroscience. We expect this Research Topic will advance our understanding on complex systems in general, and in particular, on the inner workings of the brain and its states. We seek contributions that will shed light on the fundamental aspects and novel approaches on network inference, on structural and functional properties of the brain, and on emergent and synchronization phenomena. The manuscripts may include, but are not limited to, analytical and numerical approaches, development of mathematical modeling and computational methods related to complex systems and network neuroscience.


Proceedings: Dynamics Days Latin America and the Caribbean 2018

Call for papers is now open for the Special Issue dedicated to the DDays LAC 2018 conference to be published in the Mathematical and Computational Applications journal (Editors A. C. Martí and myself).

Manuscript Submission deadline: 10th of May, 2019

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About this Special Issue

The Special Issue will mainly consist of selected papers presented at the “Dynamics Days Latin America and the Caribbean, 2018” conference (https://ddayslac2018.org/). Papers considered to fit the scope of the journal and to be of sufficient quality after evaluation by the reviewers will be published free of charge.

Contributions are invited on experimental, computational, and theoretical research in all areas related to non-linear dynamics, including (but not limited to) chaos, control theory, non-equilibrium statistical physics, complex networks and systems, computational methods, fluid dynamics, granular materials, neural dynamics, non-linear waves, pattern formation, quantum chaos, stochastic processes, and systems biology.