This article examines state-of-the-art research into the impact of virtual reality (VR) on brain–computer interface (BCI) performance: how the use of virtual reality can affect brain activity and neural plasticity in ways that can improve the performance of brain–computer interfaces in IoT con...
These findings not only directly respond to the goal and hypothesis at the beginning of the research, but also provide important theoretical and technical references for the future development and application of brain–computer interface technology. In the future, we will continue to explore more adva...
Recent engineering and neuroscience applications have led to the development of brain–computer interface (BCI) systems that improve the quality of life of people with motor disabilities. In the same area, a significant number of studies have been conducted in identifying or classifying upper-limb mo...
Finally, the challenges and future directions of personalized BCIs are discussed. It is expected that this study will provide some useful ideas for innovative studies and practical applications of personalized BCIs. Keywords: personalized brain–computer interface (pBCI); specific BCI user; customized ...
Keywords: brain–computer interface;wireless transmission;Bluetooth;Wi-Fi
Lionakis E, Karampidis K, Papadourakis G. Current Trends, Challenges, and Future Research Directions of Hybrid and Deep Learning Techniques for Motor Imagery Brain–Computer Interface.Multimodal Technologies and Interaction. 2023; 7(10):95. https://doi.org/10.3390/mti7100095 ...
Brain–Computer Interface (BCI); Cognitive Vigilance Task (CVT); Multi-Modal Integrated Task (MMIT); stress; distress 1. Introduction 1.1. Quantifying Stress with a BCI System Stress is a common feature in high-pressure environments with high cognitive loading, such as air traffic control centers...
In modern brain–computer interface (BCI) design, the BCI is a direct link between the brain of a person and a computer [1]. More precisely, BCI is a system that measures and processes the nervous system activity used by a computer to restore and/or replace the natural output of the br...
A comprehensive review of the movement imaginary brain-computer interface methods: Challenges and future directions. In Artificial Intelligence-Based Brain-Computer Interface, Bajaj, V., Sinha, G.R., Eds.; Academic Press: Cambridge, MA, USA, 2022; pp. 23–74. [Google Scholar] Boutros, N.N...
Effects of a brain-computer interface with virtual reality (VR) neurofeedback: A pilot study in chronic stroke patients. Front. Hum. Neurosci. 2019, 13, 210. [Google Scholar] [CrossRef] Achanccaray, D.; Izumi, S.I.; Hayashibe, M. Visual-Electrotactile Stimulation Feedback to Improve ...