Stylized models of the neurodynamics that underpin sensory motor control in animals are proposed and studied. The voluntary motions of animals are typically initiated by high level intentions created in the primary cortex through a combination of perceptions of the current state of the environment along with memories of past reactions to similar states. Muscle movements are produced as a result of neural processes in which the parallel activity of large multiplicities of neurons generate signals that collectively lead to desired actions. Essential to coordinated muscle movement are intentionality, prediction, regions of the cortex dealing with misperceptions of sensory cues, and a significant level of resilience with respect to disruptions ...
Understanding neural control of movement necessitates a collaborative approach between many discipli...
A major challenge in systems neuroscience is to understand how the dynamics of neural circuits give ...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Electrical Engineering and Comp...
Stylized models of the neurodynamics that underpin sensory motor control in animals are proposed and...
Building on our recent work on {\em neuromimetic control theory}, new results on resilience and neur...
In order to generate skilled and efficient actions, the motor system must find solutions to several ...
Neuromechanics seeks to understand how muscles, sense organs, motor pattern generators, and brain in...
Neuromechanics seeks to understand how muscles, sense organs, motor pattern generators, and brain in...
The Problem: How does the human neural circuitry control posture and voluntary movements? Humans are...
To date, realistic models of how the central nervous system governs behavior have been restricted in...
In this paper, we introduce several system theoretic problems brought forward by recent studies on n...
In the study of sensorimotor systems, an important research goal has been to understand the way neur...
Abstract—Human motor control has always presented a great challenge to both scientists and engineers...
The human sensorimotor control system has exceptional abilities to perform skillful actions. We easi...
This thesis examines the neurobiological components of the motor control system and relates it to cu...
Understanding neural control of movement necessitates a collaborative approach between many discipli...
A major challenge in systems neuroscience is to understand how the dynamics of neural circuits give ...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Electrical Engineering and Comp...
Stylized models of the neurodynamics that underpin sensory motor control in animals are proposed and...
Building on our recent work on {\em neuromimetic control theory}, new results on resilience and neur...
In order to generate skilled and efficient actions, the motor system must find solutions to several ...
Neuromechanics seeks to understand how muscles, sense organs, motor pattern generators, and brain in...
Neuromechanics seeks to understand how muscles, sense organs, motor pattern generators, and brain in...
The Problem: How does the human neural circuitry control posture and voluntary movements? Humans are...
To date, realistic models of how the central nervous system governs behavior have been restricted in...
In this paper, we introduce several system theoretic problems brought forward by recent studies on n...
In the study of sensorimotor systems, an important research goal has been to understand the way neur...
Abstract—Human motor control has always presented a great challenge to both scientists and engineers...
The human sensorimotor control system has exceptional abilities to perform skillful actions. We easi...
This thesis examines the neurobiological components of the motor control system and relates it to cu...
Understanding neural control of movement necessitates a collaborative approach between many discipli...
A major challenge in systems neuroscience is to understand how the dynamics of neural circuits give ...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Electrical Engineering and Comp...