Neuromechanics seeks to understand how muscles, sense organs, motor pattern generators, and brain interact to produce coordinated movement, not only in complex terrain but also when confronted with unexpected perturbations. Applications of neuromechanics include ameliorating human health problems (including prosthesis design and restoration of movement following brain or spinal cord injury), as well as the design, actuation and control of mobile robots. In animals, coordinated movement emerges from the interplay among descending output from the central nervous system, sensory input from body and environment, muscle dynamics, and the emergent dynamics of the whole animal. The inevitable coupling between neural information processing and the ...
The Problem: How does the animal (and especially the human) brain organize and execute control of ba...
Progress in diagnosis and treatment of movement disorders after neurological diseases like stroke, c...
This article examines the importance of integrating locomotion and cognitive information for achievi...
Neuromechanics seeks to understand how muscles, sense organs, motor pattern generators, and brain in...
Abstract Biological and robotic grasp and manipulation are undeniably similar at the level of mechan...
The importance of the interaction between the body and the brain for the control of behavior has bee...
The human sensorimotor control system has exceptional abilities to perform skillful actions. We easi...
This book provides a conceptual and computational framework to study how the nervous system exploits...
Biomechanics and motor control are discussed as parts of a more general science, physics of living s...
Understanding neural control of movement necessitates a collaborative approach between many discipli...
In the study of sensorimotor systems, an important research goal has been to understand the way neur...
The Problem: How does the human neural circuitry control posture and voluntary movements? Humans are...
An outline of the basic steps involved inthe production of voluntary movementis quite simple. Comman...
Human locomotion requires a complex interplay of the mechanical, sensor, neural and motor systems of...
The motivation behind this research topic was to cut across conventional boundaries that separate mo...
The Problem: How does the animal (and especially the human) brain organize and execute control of ba...
Progress in diagnosis and treatment of movement disorders after neurological diseases like stroke, c...
This article examines the importance of integrating locomotion and cognitive information for achievi...
Neuromechanics seeks to understand how muscles, sense organs, motor pattern generators, and brain in...
Abstract Biological and robotic grasp and manipulation are undeniably similar at the level of mechan...
The importance of the interaction between the body and the brain for the control of behavior has bee...
The human sensorimotor control system has exceptional abilities to perform skillful actions. We easi...
This book provides a conceptual and computational framework to study how the nervous system exploits...
Biomechanics and motor control are discussed as parts of a more general science, physics of living s...
Understanding neural control of movement necessitates a collaborative approach between many discipli...
In the study of sensorimotor systems, an important research goal has been to understand the way neur...
The Problem: How does the human neural circuitry control posture and voluntary movements? Humans are...
An outline of the basic steps involved inthe production of voluntary movementis quite simple. Comman...
Human locomotion requires a complex interplay of the mechanical, sensor, neural and motor systems of...
The motivation behind this research topic was to cut across conventional boundaries that separate mo...
The Problem: How does the animal (and especially the human) brain organize and execute control of ba...
Progress in diagnosis and treatment of movement disorders after neurological diseases like stroke, c...
This article examines the importance of integrating locomotion and cognitive information for achievi...