Brain–computer interface robotics for hand rehabilitation after stroke: a systematic review
Background Hand rehabilitation is core to helping stroke survivors regain activities of daily
living. Recent studies have suggested that the use of electroencephalography-based brain …
living. Recent studies have suggested that the use of electroencephalography-based brain …
Combined use of EMG and EEG techniques for neuromotor assessment in rehabilitative applications: A systematic review
Electroencephalography (EEG) and electromyography (EMG) are widespread and well-
known quantitative techniques used for gathering biological signals at cortical and muscular …
known quantitative techniques used for gathering biological signals at cortical and muscular …
An EEG-EMG correlation-based brain-computer interface for hand orthosis supported neuro-rehabilitation
Background Corticomuscular coupling has been investigated for long, to find out the
underlying mechanisms behind cortical drives to produce different motor tasks. Although …
underlying mechanisms behind cortical drives to produce different motor tasks. Although …
A virtual reality muscle–computer interface for neurorehabilitation in chronic stroke: A pilot study
Severe impairment of limb movement after stroke can be challenging to address in the
chronic stage of stroke (eg, greater than 6 months post stroke). Recent evidence suggests …
chronic stage of stroke (eg, greater than 6 months post stroke). Recent evidence suggests …
Online covariate shift detection-based adaptive brain–computer interface to trigger hand exoskeleton feedback for neuro-rehabilitation
A major issue in electroencephalogram (EEG)-based brain-computer interfaces (BCIs) is the
intrinsic nonstationarities in the brain waves, which may degrade the performance of the …
intrinsic nonstationarities in the brain waves, which may degrade the performance of the …
EEG-EMG based hybrid brain computer interface for triggering hand exoskeleton for neuro-rehabilitation
Traditionally a Brain-Computer Interface (BCI) system uses Electroencephalogram (EEG)
signals for communication and control applications. In recent years different biological …
signals for communication and control applications. In recent years different biological …
Role of the ipsilateral primary motor cortex in the visuo-motor network during fine contractions and accurate performance
It is widely recognized that continuous sensory feedback plays a crucial role in accurate
motor control in everyday life. Feedback information is used to adapt force output and to …
motor control in everyday life. Feedback information is used to adapt force output and to …
[HTML][HTML] Functional and neuromuscular changes induced via a low-cost, muscle-computer interface for telerehabilitation: A feasibility study in chronic stroke
O Marin-Pardo, MR Donnelly, CS Phanord… - Frontiers in …, 2022 - frontiersin.org
Stroke is a leading cause of adult disability in the United States. High doses of repeated task-
specific practice have shown promising results in restoring upper limb function in chronic …
specific practice have shown promising results in restoring upper limb function in chronic …
Corticomuscular co-activation based hybrid brain-computer interface for motor recovery monitoring
The effect of corticomuscular coactivation based hybrid brain-computer interface (h-BCI) on
post-stroke neurorehabilitation has not been explored yet. A major challenge in this area is …
post-stroke neurorehabilitation has not been explored yet. A major challenge in this area is …
[HTML][HTML] 脑肌电信号同步耦合分析方法研究进展
素姣李, 苏刘, 贺蓝, 洪流喻 - Sheng Wu Yi Xue Gong Cheng Xue …, 2019 - ncbi.nlm.nih.gov
运动神经系统通过神经振荡活动传递运动控制信息, 从而引起相应肌肉的同步性振荡活动并
反映运动响应信息, 然后反馈至大脑皮层, 使其能够感知肢体的状态。 这种同步振荡活动可 …
反映运动响应信息, 然后反馈至大脑皮层, 使其能够感知肢体的状态。 这种同步振荡活动可 …