The nervous system implements a networked control system in which the plants take the form of limbs, the controller is the brain, and neurons form the communication channels. Unlike standard networked control architectures, there is no periodic sampling, and the fundamental units of communication contain little numerical information. This paper describes a novel communication channel, modeled after spiking neurons, in which the transmitter integrates an input signal and sends out a spike when the integral reaches a threshold value. The reciever then filters the sequence of spikes to approximately reconstruct the input signal. It is shown that for appropriate choices of channel parameters, stable feedback control over these spiking channels ...
In the brain, neurons (brain cells) produce electrical impulses, or spikes, that are thought to be t...
The synchronization of neurons is fundamental for the functioning of the brain since its lack or exc...
Abstract The joint influence of recurrent feedback and noise on gain control in a network of globall...
Neuromorphic engineering is a rapidly developing field that aims to take inspiration from the biolog...
Transient oscillations in network activity upon sensory stimulation have been reported in different ...
There is a growing interest in developing novel brain stimulation methods to control disease-related...
The purpose of this research is to develop an algorithm for a feedback controlled local electrical n...
Neuromorphic engineering promises the deployment of low latency, adaptive and low power systems that...
The nervous system holds a central position among the major in-body networks. It comprises of cells ...
We present an event-based feedback control method for randomizing the asymptotic phase of oscillator...
Closed-loop neurophysiology has been accelerated by recent software and hardware developments and by...
peer reviewedNeuromodulation significantly alters neuronal activity and the responsiveness of both n...
Control has undergone several distinct phases of development. There are various ways that one can cl...
The nervous system holds a central position among the major in-body networks. It comprises of cells ...
The role of repetitive firing in neurophysiologic or neuropsychiatric disorders, such as Parkinson, ...
In the brain, neurons (brain cells) produce electrical impulses, or spikes, that are thought to be t...
The synchronization of neurons is fundamental for the functioning of the brain since its lack or exc...
Abstract The joint influence of recurrent feedback and noise on gain control in a network of globall...
Neuromorphic engineering is a rapidly developing field that aims to take inspiration from the biolog...
Transient oscillations in network activity upon sensory stimulation have been reported in different ...
There is a growing interest in developing novel brain stimulation methods to control disease-related...
The purpose of this research is to develop an algorithm for a feedback controlled local electrical n...
Neuromorphic engineering promises the deployment of low latency, adaptive and low power systems that...
The nervous system holds a central position among the major in-body networks. It comprises of cells ...
We present an event-based feedback control method for randomizing the asymptotic phase of oscillator...
Closed-loop neurophysiology has been accelerated by recent software and hardware developments and by...
peer reviewedNeuromodulation significantly alters neuronal activity and the responsiveness of both n...
Control has undergone several distinct phases of development. There are various ways that one can cl...
The nervous system holds a central position among the major in-body networks. It comprises of cells ...
The role of repetitive firing in neurophysiologic or neuropsychiatric disorders, such as Parkinson, ...
In the brain, neurons (brain cells) produce electrical impulses, or spikes, that are thought to be t...
The synchronization of neurons is fundamental for the functioning of the brain since its lack or exc...
Abstract The joint influence of recurrent feedback and noise on gain control in a network of globall...