To maintain balance during dynamic locomotion, the effects of proprioceptive sensory feedback control (e.g. reflexive control) should not be ignored because of its simple sensation and fast reaction time. Scientists have identified the pathways of reflexes; however, it is difficult to investigate their effects during locomotion because locomotion is controlled by a complex neural system and current technology does not allow us to change the control pathways in living humans. To understand these effects, we construct a musculoskeletal bipedal robot, which has similar body structure and dynamics to a human. By conducting experiments on this robot, we investigate the effects of reflexes (stretch reflex and crossed inhibitory response) on the p...
The central nervous system of humans and other animals modulates spinal cord activity to achieve sev...
Control of human walking is not thoroughly understood, which has implications in developing suitable...
Neural control of standing balance has been extensively studied. However, most falls occur during wa...
To maintain balance during dynamic locomotion, the effects of proprioceptive sensory feedback contro...
When humans hop, attitude recovery can be observed in both the sagittal and frontal planes. While it...
<p>Air Pressure Soleus Fig. 4.xlsx: This file contains the data to describe the air pressure in sole...
Postural stabilization during rapid and powerful hopping actions represents a significant challenge ...
<div><p>Control of human walking is not thoroughly understood, which has implications in developing ...
Abstract Evidence for the simplification of motor control of the limbs through a reduction in the nu...
Animals have several peripheral feedback control networks such as stretch reflexes that are supposed...
In human and animal motor control several sensory organs contribute to a network of sensory pathways...
Human locomotion requires a complex interplay of the mechanical, sensor, neural and motor systems of...
abstract: Background Robotic devices have been utilized in gait rehabilitation but have only produce...
The central nervous system of humans and other animals modulates spinal cord activity to achieve sev...
Human locomotion is a rhythmic task in which patterns of muscle activity are modulated by state-depe...
The central nervous system of humans and other animals modulates spinal cord activity to achieve sev...
Control of human walking is not thoroughly understood, which has implications in developing suitable...
Neural control of standing balance has been extensively studied. However, most falls occur during wa...
To maintain balance during dynamic locomotion, the effects of proprioceptive sensory feedback contro...
When humans hop, attitude recovery can be observed in both the sagittal and frontal planes. While it...
<p>Air Pressure Soleus Fig. 4.xlsx: This file contains the data to describe the air pressure in sole...
Postural stabilization during rapid and powerful hopping actions represents a significant challenge ...
<div><p>Control of human walking is not thoroughly understood, which has implications in developing ...
Abstract Evidence for the simplification of motor control of the limbs through a reduction in the nu...
Animals have several peripheral feedback control networks such as stretch reflexes that are supposed...
In human and animal motor control several sensory organs contribute to a network of sensory pathways...
Human locomotion requires a complex interplay of the mechanical, sensor, neural and motor systems of...
abstract: Background Robotic devices have been utilized in gait rehabilitation but have only produce...
The central nervous system of humans and other animals modulates spinal cord activity to achieve sev...
Human locomotion is a rhythmic task in which patterns of muscle activity are modulated by state-depe...
The central nervous system of humans and other animals modulates spinal cord activity to achieve sev...
Control of human walking is not thoroughly understood, which has implications in developing suitable...
Neural control of standing balance has been extensively studied. However, most falls occur during wa...