We can easily learn and perform a variety of movements that fundamentally require complex neuromuscular control. Many empirical findings have demonstrated that a wide range of complex muscle activation patterns could be well captured by the combination of a few functional modules, the so-called muscle synergies. Modularity represented by muscle synergies would simplify the control of a redundant neuromuscular system. However, how the reduction of neuromuscular redundancy through a modular controller contributes to sensorimotor learning remains unclear. To clarify such roles, we constructed a simple neural network model of the motor control system that included three intermediate layers representing neurons in the primary motor cortex, spina...
Human locomotion requires a complex interplay of the mechanical, sensor, neural and motor systems of...
Humans can interact with their environment by tuning the properties of the musculoskeletal system to...
A long-standing goal in artificial intelligence is creating agents that can learn a variety of diffe...
We can easily learn and perform a variety of movements that fundamentally require complex neuromuscu...
We can easily learn and perform a variety of movements that fundamentally require complex neuromuscu...
Mastering a rich repertoire of motor behaviors, as humans and other animals do, is a surprising and ...
Neuromechanical principles define the properties and problems that shape neural solutions for moveme...
Each human lower-limb contains over 50 muscles that are coordinated during locomotion. It has been h...
How dynamic interactions between nervous system regions in mammals performs online motor control rem...
How does the motor system efficiently control dexterous finger movements? A study by Overduin et al....
<div><p>Recent theoretical studies have proposed that the redundant motor system in humans achieves ...
Humans can interact with their environment by tuning the properties of the musculoskeletal system to...
A fundamental challenge in neuroscience is understanding how the central nervous system (CNS) succee...
The central nervous system (CNS) is believed to utilize specific predefined modules, called muscle s...
It has been suggested that the human nervous system controls motions in the task (or operational) sp...
Human locomotion requires a complex interplay of the mechanical, sensor, neural and motor systems of...
Humans can interact with their environment by tuning the properties of the musculoskeletal system to...
A long-standing goal in artificial intelligence is creating agents that can learn a variety of diffe...
We can easily learn and perform a variety of movements that fundamentally require complex neuromuscu...
We can easily learn and perform a variety of movements that fundamentally require complex neuromuscu...
Mastering a rich repertoire of motor behaviors, as humans and other animals do, is a surprising and ...
Neuromechanical principles define the properties and problems that shape neural solutions for moveme...
Each human lower-limb contains over 50 muscles that are coordinated during locomotion. It has been h...
How dynamic interactions between nervous system regions in mammals performs online motor control rem...
How does the motor system efficiently control dexterous finger movements? A study by Overduin et al....
<div><p>Recent theoretical studies have proposed that the redundant motor system in humans achieves ...
Humans can interact with their environment by tuning the properties of the musculoskeletal system to...
A fundamental challenge in neuroscience is understanding how the central nervous system (CNS) succee...
The central nervous system (CNS) is believed to utilize specific predefined modules, called muscle s...
It has been suggested that the human nervous system controls motions in the task (or operational) sp...
Human locomotion requires a complex interplay of the mechanical, sensor, neural and motor systems of...
Humans can interact with their environment by tuning the properties of the musculoskeletal system to...
A long-standing goal in artificial intelligence is creating agents that can learn a variety of diffe...