Your search keyword '"Kumar Dana S"' showing total 3 results

1. Impact of diffusion on synchronization pattern of epidemics in non-identical meta-population networks.

Author

Roy A, Shekhar U, Bose A, Ghosh S, Nannuru S, Kumar Dana S, and Hens C

Subjects

Humans, Computer Simulation, Communicable Diseases epidemiology, Cluster Analysis, Epidemics

Abstract

In epidemic networks, it has been demonstrated that implementing any intervention strategy on nodes with specific characteristics (such as a high degree or node betweenness) substantially diminishes the outbreak size. We extend this finding with a disease-spreading meta-population model using testkits to explore the influence of migration on infection dynamics within the distinct communities of the network. Notably, we observe that nodes equipped with testkits and no testkits tend to segregate into two separate clusters when migration is low, but above a critical migration rate, they coalesce into one single cluster. Based on this clustering phenomenon, we develop a reduced model and validate the emergent clustering behavior through comprehensive simulations. We observe this property in both homogeneous and heterogeneous networks., (© 2024 Author(s). Published under an exclusive license by AIP Publishing.)

Published

2024

2. Neuron-like spiking and bursting in Josephson junctions: A review.

Author

Mishra A, Ghosh S, Kumar Dana S, Kapitaniak T, and Hens C

Subjects

Action Potentials, Models, Neurological, Neurons

Abstract

The superconducting Josephson junction shows spiking and bursting behaviors, which have similarities with neuronal spiking and bursting. This phenomenon had been observed long ago by some researchers; however, they overlooked the biological similarity of this particular dynamical feature and never attempted to interpret it from the perspective of neuronal dynamics. In recent times, the origin of such a strange property of the superconducting junction has been explained and such neuronal functional behavior has also been observed in superconducting nanowires. The history of this research is briefly reviewed here with illustrations from studies of two junction models and their dynamical interpretation in the sense of biological bursting.

Published

2021

3. Detecting anomalous phase synchronization from time series.

Author

Tokuda IT, Kumar Dana S, and Kurths J

Subjects

Algorithms, Models, Biological, Models, Statistical, Models, Theoretical, Nonlinear Dynamics, Normal Distribution, Oscillometry instrumentation, Systems Theory, Time Factors, Oscillometry methods, Systems Biology methods

Abstract

Modeling approaches are presented for detecting an anomalous route to phase synchronization from time series of two interacting nonlinear oscillators. The anomalous transition is characterized by an enlargement of the mean frequency difference between the oscillators with an initial increase in the coupling strength. Although such a structure is common in a large class of coupled nonisochronous oscillators, prediction of the anomalous transition is nontrivial for experimental systems, whose dynamical properties are unknown. Two approaches are examined; one is a phase equational modeling of coupled limit cycle oscillators and the other is a nonlinear predictive modeling of coupled chaotic oscillators. Application to prototypical models such as two interacting predator-prey systems in both limit cycle and chaotic regimes demonstrates the capability of detecting the anomalous structure from only a few sets of time series. Experimental data from two coupled Chua circuits shows its applicability to real experimental system.

Published

2008