Quasiuniversal scaling in mouse-brain neuronal activity stems from edge-of-instability critical dynamics
GB Morales, S Di Santo… - Proceedings of the …, 2023 - National Acad Sciences
The brain is in a state of perpetual reverberant neural activity, even in the absence of
specific tasks or stimuli. Shedding light on the origin and functional significance of such a …
specific tasks or stimuli. Shedding light on the origin and functional significance of such a …
Route to chaos and chimera states in a network of memristive Hindmarsh-Rose neurons model with external excitation
In this paper we have introduced and investigated the collective behavior of a network of
memristive Hindmarsh-Rose (HR) neurons. The proposed model was built considering the …
memristive Hindmarsh-Rose (HR) neurons. The proposed model was built considering the …
A multi-scale model explains oscillatory slowing and neuronal hyperactivity in Alzheimer's disease
CG Alexandersen, W de Haan… - Journal of the Royal …, 2023 - royalsocietypublishing.org
Alzheimer's disease is the most common cause of dementia and is linked to the spreading of
pathological amyloid-β and tau proteins throughout the brain. Recent studies have …
pathological amyloid-β and tau proteins throughout the brain. Recent studies have …
Functional control of oscillator networks
Oscillatory activity is ubiquitous in natural and engineered network systems. The interaction
scheme underlying interdependent oscillatory components governs the emergence of …
scheme underlying interdependent oscillatory components governs the emergence of …
Temporospatial Nestedness in Consciousness: An Updated Perspective on the Temporospatial Theory of Consciousness
Z Huang - Entropy, 2023 - mdpi.com
Time and space are fundamental elements that permeate the fabric of nature, and their
significance in relation to neural activity and consciousness remains a compelling yet …
significance in relation to neural activity and consciousness remains a compelling yet …
[HTML][HTML] Oscillatory mechanisms of intrinsic human brain networks
Non-invasive neuroimaging has revealed specific network-based resting-state dynamics in
the human brain, yet the underlying neurophysiological mechanism remains unclear. We …
the human brain, yet the underlying neurophysiological mechanism remains unclear. We …
Multiple equilibrium states in large arrays of globally coupled resonators
This work considers the response of an array of oscillators, each with cubic nonlinear
stiffness, in the presence of global reactive and dissipative coupling. The interplay between …
stiffness, in the presence of global reactive and dissipative coupling. The interplay between …
How to design optimal brain stimulation to modulate phase-amplitude coupling?
Objective Phase-amplitude coupling (PAC), the coupling of the amplitude of a faster brain
rhythm to the phase of a slower brain rhythm, plays a significant role in brain activity and has …
rhythm to the phase of a slower brain rhythm, plays a significant role in brain activity and has …
A mechanistic model explains oscillatory slowing and neuronal hyperactivity in Alzheimer's disease
Alzheimer's disease is the most common cause of dementia and is linked to the spreading of
pathological amyloid-β and tau proteins throughout the brain. Recent studies have …
pathological amyloid-β and tau proteins throughout the brain. Recent studies have …
The cerebral cortex realizes a universal probabilistic model of computation in complex hilbert spaces
C Jones - 2020 - osf.io
A model of computation describes how units of information and an organizational
architecture transform input to output. In the cerebral cortex the unit of information is a …
architecture transform input to output. In the cerebral cortex the unit of information is a …