[HTML][HTML] Hybrid brain–computer interface techniques for improved classification accuracy and increased number of commands: a review
In this paper, hybrid brain-computer interface (hBCI) technologies for improving
classification accuracy and increasing the number of commands are reviewed. Hybridization …
classification accuracy and increasing the number of commands are reviewed. Hybridization …
Current solutions and future trends for robotic prosthetic hands
The desire for functional replacement of a missing hand is an ancient one. Historically,
humans have replaced a missing limb with a prosthesis for cosmetic, vocational, or personal …
humans have replaced a missing limb with a prosthesis for cosmetic, vocational, or personal …
Hybrid EEG–fNIRS-based eight-command decoding for BCI: application to quadcopter control
In this paper, a hybrid electroencephalography–functional near-infrared spectroscopy (EEG–
fNIRS) scheme to decode eight active brain commands from the frontal brain region for brain …
fNIRS) scheme to decode eight active brain commands from the frontal brain region for brain …
Functional assessment of current upper limb prostheses: An integrated clinical and technological perspective
Although recent technological developments in the field of bionic upper limb prostheses,
their rejection rate remains excessively high. The reasons are diverse (eg lack of …
their rejection rate remains excessively high. The reasons are diverse (eg lack of …
Selectivity and longevity of peripheral-nerve and machine interfaces: a review
For those individuals with upper-extremity amputation, a daily normal living activity is no
longer possible or it requires additional effort and time. With the aim of restoring their …
longer possible or it requires additional effort and time. With the aim of restoring their …
Integrating tactile feedback technologies into home-based telerehabilitation: opportunities and challenges in light of COVID-19 pandemic
The COVID-19 pandemic has highlighted the need for advancing the development and
implementation of novel means for home-based telerehabilitation in order to enable remote …
implementation of novel means for home-based telerehabilitation in order to enable remote …
Improving postural stability among people with lower-limb amputations by tactile sensory substitution
Background For people with lower-limb amputations, wearing a prosthetic limb helps restore
their motor abilities for daily activities. However, the prosthesis's potential benefits are …
their motor abilities for daily activities. However, the prosthesis's potential benefits are …
Multimodal pre-screening can predict BCI performance variability: A novel subject-specific experimental scheme
SB Borgheai, AH Zisk, J McLinden, J Mcintyre… - Computers in Biology …, 2024 - Elsevier
Background Brain-computer interface (BCI) systems currently lack the required robustness
for long-term daily use due to inter-and intra-subject performance variability. In this study, we …
for long-term daily use due to inter-and intra-subject performance variability. In this study, we …
[HTML][HTML] Low limb prostheses and complex human prosthetic interaction: A systematic literature review
A Domínguez-Ruiz, EO López-Caudana… - Frontiers in Robotics …, 2023 - frontiersin.org
A few years ago, powered prostheses triggered new technological advances in diverse
areas such as mobility, comfort, and design, which have been essential to improving the …
areas such as mobility, comfort, and design, which have been essential to improving the …
Effect of vibration characteristics and vibror arrangement on the tactile perception of the upper arm in healthy subjects and upper limb amputees
Background Vibrotactile stimulation is a promising venue in the field of prosthetics to retrain
sensory feedback deficits following amputation. Discrimination is well established at the …
sensory feedback deficits following amputation. Discrimination is well established at the …