Your search keyword '"Expert, Paul"' showing total 5 results

1. Decomposing force fields as flows on graphs reconstructed from stochastic trajectories

Author

Nartallo-Kaluarachchi, Ramón, Expert, Paul, Beers, David, Strang, Alexander, Kringelbach, Morten L., Lambiotte, Renaud, and Goriely, Alain

Subjects

Condensed Matter - Statistical Mechanics, Mathematics - Dynamical Systems, Physics - Data Analysis, Statistics and Probability, Quantitative Biology - Quantitative Methods

Abstract

Disentangling irreversible and reversible forces from random fluctuations is a challenging problem in the analysis of stochastic trajectories measured from real-world dynamical systems. We present an approach to approximate the dynamics of a stationary Langevin process as a discrete-state Markov process evolving over a graph-representation of phase-space, reconstructed from stochastic trajectories. Next, we utilise the analogy of the Helmholtz-Hodge decomposition of an edge-flow on a contractible simplicial complex with the associated decomposition of a stochastic process into its irreversible and reversible parts. This allows us to decompose our reconstructed flow and to differentiate between the irreversible currents and reversible gradient flows underlying the stochastic trajectories. We validate our approach on a range of solvable and nonlinear systems and apply it to derive insight into the dynamics of flickering red-blood cells and healthy and arrhythmic heartbeats. In particular, we capture the difference in irreversible circulating currents between healthy and passive cells and healthy and arrhythmic heartbeats. Our method breaks new ground at the interface of data-driven approaches to stochastic dynamics and graph signal processing, with the potential for further applications in the analysis of biological experiments and physiological recordings. Finally, it prompts future analysis of the convergence of the Helmholtz-Hodge decomposition in discrete and continuous spaces., Comment: 26 pages, 12 figures

Published

2024

2. A network analysis of catatonia symptoms across diagnoses

Author

Gauld, Christophe, Expert, Paul, Fovet, Thomas, and Amad, Ali

Published

2024

3. EiDA: A lossless approach for dynamic functional connectivity; application to fMRI data of a model of ageing

Author

de Alteriis, Giuseppe, primary, MacNicol, Eilidh, additional, Hancock, Fran, additional, Ciaramella, Alessandro, additional, Cash, Diana, additional, Expert, Paul, additional, and Turkheimer, Federico E., additional

Published

2024

4. Local dominance unveils clusters in networks.

Author

Shi, Dingyi, Shang, Fan, Chen, Bingsheng, Expert, Paul, Lü, Linyuan, Stanley, H. Eugene, Lambiotte, Renaud, Evans, Tim S., and Li, Ruiqi

Subjects

VECTOR data, COMMUNITY centers, SOCIAL dominance, INFORMATION services, SUBGRAPHS

Abstract

Clusters or communities can provide a coarse-grained description of complex systems at multiple scales, but their detection remains challenging in practice. Community detection methods often define communities as dense subgraphs, or subgraphs with few connections in-between, via concepts such as the cut, conductance, or modularity. Here we consider another perspective built on the notion of local dominance, where low-degree nodes are assigned to the basin of influence of high-degree nodes, and design an efficient algorithm based on local information. Local dominance gives rises to community centers, and uncovers local hierarchies in the network. Community centers have a larger degree than their neighbors and are sufficiently distant from other centers. The strength of our framework is demonstrated on synthesized and empirical networks with ground-truth community labels. The notion of local dominance and the associated asymmetric relations between nodes are not restricted to community detection, and can be utilised in clustering problems, as we illustrate on networks derived from vector data. Community detection has been studied for more than 20 years, but a perspective from community center is still missing and most algorithms need global information. The authors propose a linear algorithm based on local information to identify centers and related hierarchical structure for effective community detection, which can enhance clustering vector data as well. [ABSTRACT FROM AUTHOR]

Published

2024

5. A unified framework for simplicial Kuramoto models.

Author

Nurisso, Marco, Arnaudon, Alexis, Lucas, Maxime, Peach, Robert L., Expert, Paul, Vaccarino, Francesco, and Petri, Giovanni

Subjects

DISCRETE geometry, DIFFERENTIAL topology, FUNCTIONAL connectivity, DIFFERENTIAL geometry, HOMOTOPY theory

Abstract

Simplicial Kuramoto models have emerged as a diverse and intriguing class of models describing oscillators on simplices rather than nodes. In this paper, we present a unified framework to describe different variants of these models, categorized into three main groups: "simple" models, "Hodge-coupled" models, and "order-coupled" (Dirac) models. Our framework is based on topology and discrete differential geometry, as well as gradient systems and frustrations, and permits a systematic analysis of their properties. We establish an equivalence between the simple simplicial Kuramoto model and the standard Kuramoto model on pairwise networks under the condition of manifoldness of the simplicial complex. Then, starting from simple models, we describe the notion of simplicial synchronization and derive bounds on the coupling strength necessary or sufficient for achieving it. For some variants, we generalize these results and provide new ones, such as the controllability of equilibrium solutions. Finally, we explore a potential application in the reconstruction of brain functional connectivity from structural connectomes and find that simple edge-based Kuramoto models perform competitively or even outperform complex extensions of node-based models. [ABSTRACT FROM AUTHOR]

Published

2024