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30 results on '"Calim, Ali"'

1. Chimera States in Hybrid Coupled Neuron Populations

Author

Calim, Ali, Torres, Joaquin J., Ozer, Mahmut, and Uzuntarla, Muhammet

Subjects
Nonlinear Sciences - Adaptation and Self-Organizing Systems, Condensed Matter - Disordered Systems and Neural Networks, Nonlinear Sciences - Chaotic Dynamics
Abstract

Here we study the emergence of chimera states, a recently reported phenomenon referring to the coexistence of synchronized and unsynchronized dynamical units, in a population of Morris-Lecar neurons which are coupled by both electrical and chemical synapses, constituting a hybrid synaptic architecture, as in actual brain connectivity. This scheme consists of a nonlocal network where the nearest neighbor neurons are coupled by electrical synapses, while the synapses from more distant neurons are of the chemical type. We demonstrate that peculiar dynamical behaviors, including chimera state and traveling wave, exist in such a hybrid coupled neural system, and analyze how the relative abundance of chemical and electrical synapses affects the features of chimera and different synchrony states (i.e. incoherent, traveling wave and coherent) and the regions in the space of relevant parameters for their emergence. Additionally, we show that, when the relative population of chemical synapses increases further, a new intriguing chaotic dynamical behavior appears above the region for chimera states. This is characterized by the coexistence of two distinct synchronized states with different amplitude, and an unsynchronized state, that we denote as a chaotic amplitude chimera. We also discuss about the computational implications of such state., Comment: 23 pages, 7 figures

Published
2020

4. Synchronization-Induced Spike Termination in Networks of Bistable Neurons

Author

Uzuntarla, Muhammet, Torres, Joaquin J., Çalım, Ali, and Barreto, Ernest

Subjects
Condensed Matter - Disordered Systems and Neural Networks, Physics - Biological Physics, Quantitative Biology - Neurons and Cognition
Abstract

We observe and study a self-organized phenomenon whereby the activity in a network of spiking neurons spontaneously terminates. We consider different types of populations, consisting of bistable model neurons connected electrically by gap junctions, or by either excitatory or inhibitory synapses, in a scale-free connection topology. We find that strongly synchronized population spiking events lead to complete cessation of activity in excitatory networks, but not in gap junction or inhibitory networks. We identify the underlying mechanism responsible for this phenomenon by examining the particular shape of the excitatory postsynaptic currents that arise in the neurons. We also examine the effects of the synaptic time constant, coupling strength, and channel noise on the occurrence of the phenomenon., Comment: 26 pages, 8 figures

Published
2018

8. Structural Equation Model on Work Engagement among Employees of Large Retail Enterprises in Region Xii

Author

Noraida Calim Ali

Subjects
Knowledge management, Data collection, business.industry, Work engagement, 05 social sciences, 050209 industrial relations, Structural equation modeling, Transformational leadership, Work (electrical), Human resource management, 0502 economics and business, Endogeneity, Psychology, business, 050203 business & management, Research method
Abstract

The ultimate goal of this research undertaking was to identify the best fit model involving the following exogenous variables: transformational leadership, motivation, and human resource management practices to endogenous variable – work engagement. A survey questionnaire was issued to the various large retail employees in Region XII, Philippines with 425 respondents for the purpose of data collection. The research method used in the analysis was descriptive — correlation design was used to find the best fit model through structural equation modeling. The results revealed that the model presented positive relationship between transformational leadership, motivation and human resource management practices and work engagement. Nevertheless, the three established exogenous variables of transformational leadership, motivation, and human resource management practices emerged as the primary predictors of work engagement, taking into account their observed variables as depicted in the study's final and best fit model.

Published
2020
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9. Vibrational Resonance In A Neuron-Astrocyte Coupled Model

Author

Calim, Ali, Longtin, Andre, and Uzuntarla, Muhammet

Abstract

Recent findings have revealed that not only neurons but also astrocytes, a special type of glial cells, are major players of neuronal information processing. It is now widely accepted that they contribute to the regulation of their microenvironment by cross-talking with neurons via gliotransmitters. In this context, we here study the phenomenon of vibrational resonance in neurons by considering their interaction with astrocytes. Our analysis of a neuron-astrocyte pair reveals that intracellular dynamics of astrocytes can induce a double vibrational resonance effect in the weak signal detection performance of a neuron, exhibiting two distinct wells centred at different high-frequency driving amplitudes. We also identify the underlying mechanism of this behaviour, showing that the interaction of widely separated time scales of neurons, astrocytes and driving signals is the key factor for the emergence and control of double vibrational resonance.

Published
2021

29. Vibrational resonance in a neuron-astrocyte coupled model.

Author

Calim A, Longtin A, and Uzuntarla M

Abstract

Recent findings have revealed that not only neurons but also astrocytes, a special type of glial cells, are major players of neuronal information processing. It is now widely accepted that they contribute to the regulation of their microenvironment by cross-talking with neurons via gliotransmitters. In this context, we here study the phenomenon of vibrational resonance in neurons by considering their interaction with astrocytes. Our analysis of a neuron-astrocyte pair reveals that intracellular dynamics of astrocytes can induce a double vibrational resonance effect in the weak signal detection performance of a neuron, exhibiting two distinct wells centred at different high-frequency driving amplitudes. We also identify the underlying mechanism of this behaviour, showing that the interaction of widely separated time scales of neurons, astrocytes and driving signals is the key factor for the emergence and control of double vibrational resonance. This article is part of the theme issue 'Vibrational and stochastic resonance in driven nonlinear systems (part 2)'.

Published
2021
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30. Stochastic and vibrational resonance in complex networks of neurons.

Author

Calim A, Palabas T, and Uzuntarla M

Subjects
Animals, Computer Simulation, Connectome statistics & numerical data, Electrophysiological Phenomena, Functional Neuroimaging, Humans, Mathematical Concepts, Nonlinear Dynamics, Stochastic Processes, Synaptic Transmission physiology, Vibration, Models, Neurological, Nerve Net physiology, Neurons physiology
Abstract

The concept of resonance in nonlinear systems is crucial and traditionally refers to a specific realization of maximum response provoked by a particular external perturbation. Depending on the system and the nature of perturbation, many different resonance types have been identified in various fields of science. A prominent example is in neuroscience where it has been widely accepted that a neural system may exhibit resonances at microscopic, mesoscopic and macroscopic scales and benefit from such resonances in various tasks. In this context, the two well-known forms are stochastic and vibrational resonance phenomena which manifest that detection and propagation of a feeble information signal in neural structures can be enhanced by additional perturbations via these two resonance mechanisms. Given the importance of network architecture in proper functioning of the nervous system, we here present a review of recent studies on stochastic and vibrational resonance phenomena in neuronal media, focusing mainly on their emergence in complex networks of neurons as well as in simple network structures that represent local behaviours of neuron communities. From this perspective, we aim to provide a secure guide by including theoretical and experimental approaches that analyse in detail possible reasons and necessary conditions for the appearance of stochastic resonance and vibrational resonance in neural systems. This article is part of the theme issue 'Vibrational and stochastic resonance in driven nonlinear systems (part 2)'.

Published
2021
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