Add to ORKGIn order to survive in the wide range of sensory contexts that comprise our physical world, the nervous system employs adaptive mechanisms that optimize functional behaviors within a given sensory environment. Human bipedal stance control requires that the nervous system obtain relevant information about the environment and the body's relationship with it from multiple sensory systems. How does the nervous system accomplish this when the sensory environment compromises the information available from a given sensory system? In previous theoretical and empirical work, we have provided evidence of nonlinearities that are consistent with an hypothesis of sensory re-weighting: The nervous system adapts to changing sensory contexts by decreasi...
Feedback based balance control requires the integration of visual, proprioceptive and vestibular inp...
We addressed postural instability during stance with eyes closed (EC) on a compliant surface in heal...
The process by which humans stabilize bipedal stance represents a confluence of changes associated w...
Numerous studies have demonstrated the real-time use of visual, vibrotactile, auditory, and multimod...
Currently, no bipedal robot exhibits fully human-like characteristics in terms of its postural contr...
Funding for Open Access provided by the UMD Libraries Open Access Publishing Fund.To investigate sen...
Complexity measures have become increasingly prominent in the postural control literature. Several s...
Postural instability in Parkinson’s disease (PD) is characterized by impaired postural responses to ...
Human movement requires adequate postural control. Stimulation of the sensory systems induces altera...
Currently, no bipedal robot exhibits fully human-like characteristics in terms of its postural contr...
Currently, no bipedal robot exhibits fully human-like characteristics in terms of its postural contr...
In its simplest form, the human postural control system can be described as a closed-loop control sy...
As a scientific discipline, dynamic posturography aims to understand the neurological and biomechani...
As a scientific discipline, dynamic posturography aims to understand the neurological and biomechani...
Stable upright stance is achieved through an active postural control process that requires the accur...
Feedback based balance control requires the integration of visual, proprioceptive and vestibular inp...
We addressed postural instability during stance with eyes closed (EC) on a compliant surface in heal...
The process by which humans stabilize bipedal stance represents a confluence of changes associated w...
Numerous studies have demonstrated the real-time use of visual, vibrotactile, auditory, and multimod...
Currently, no bipedal robot exhibits fully human-like characteristics in terms of its postural contr...
Funding for Open Access provided by the UMD Libraries Open Access Publishing Fund.To investigate sen...
Complexity measures have become increasingly prominent in the postural control literature. Several s...
Postural instability in Parkinson’s disease (PD) is characterized by impaired postural responses to ...
Human movement requires adequate postural control. Stimulation of the sensory systems induces altera...
Currently, no bipedal robot exhibits fully human-like characteristics in terms of its postural contr...
Currently, no bipedal robot exhibits fully human-like characteristics in terms of its postural contr...
In its simplest form, the human postural control system can be described as a closed-loop control sy...
As a scientific discipline, dynamic posturography aims to understand the neurological and biomechani...
As a scientific discipline, dynamic posturography aims to understand the neurological and biomechani...
Stable upright stance is achieved through an active postural control process that requires the accur...
Feedback based balance control requires the integration of visual, proprioceptive and vestibular inp...
We addressed postural instability during stance with eyes closed (EC) on a compliant surface in heal...
The process by which humans stabilize bipedal stance represents a confluence of changes associated w...