Advances in brain science and computer technology in the past decade have led to exciting
developments in brain–computer interface (BCI), thereby making BCI a top research area in …

Over the last decade, passive brain–computer interface (BCI) algorithms and biosignal
acquisition technologies have experienced a significant growth that has allowed the real …

All people experience aging, and the related physical and health changes, including
changes in memory and brain function. These changes may become debilitating leading to …

In this article, non-invasive hybrid brain–computer interface (hBCI) technologies for
improving classification accuracy and increasing the number of commands are reviewed …

Brain–computer interfaces (BCIs) provide bidirectional communication between the brain
and output devices that translate user intent into function. Among the different brain imaging …

Brain–computer interface (BCI) technology has the potential to positively contribute to the
educational learning environment, which faces many challenges and shortcomings …

The assistive, adaptive, and rehabilitative applications of EEG‐based robot control and
navigation are undergoing a major transformation in dimension as well as scope. Under the …

In order to strengthen the participation of stroke patients in rehabilitation training and
weaken the dependence of steady-state visually evoked potential (SSVEP)-based brain …

Human-robot interaction is a rapidly develo** field and robots have been taking more
active roles in our daily lives. Patient care is one of the fields in which robots are becoming …

A novel hybrid brain‐computer interface (BCI) based on the electroencephalogram (EEG)
signal which consists of a motor imagery‐(MI‐) based online interactive brain‐controlled …