![Brain-Computer Interface for wheelchair control operations: An approach based on Fast Fourier Transform and On-Line Sequential Extreme Learning Machine - Clinical Epidemiology and Global Health Brain-Computer Interface for wheelchair control operations: An approach based on Fast Fourier Transform and On-Line Sequential Extreme Learning Machine - Clinical Epidemiology and Global Health](https://cegh.net/cms/asset/9710e730-e053-412a-a40d-2698e6b9fabf/gr1.jpg)
Brain-Computer Interface for wheelchair control operations: An approach based on Fast Fourier Transform and On-Line Sequential Extreme Learning Machine - Clinical Epidemiology and Global Health
![Figure 1 from Navigating a smart wheelchair with a brain-computer interface interpreting steady-state visual evoked potentials | Semantic Scholar Figure 1 from Navigating a smart wheelchair with a brain-computer interface interpreting steady-state visual evoked potentials | Semantic Scholar](https://d3i71xaburhd42.cloudfront.net/8b6c1b061bbc3c54186a06bb9cc40a0367eb9d44/1-Figure1-1.png)
Figure 1 from Navigating a smart wheelchair with a brain-computer interface interpreting steady-state visual evoked potentials | Semantic Scholar
1: Photograph of the prototype Brain Controlled Wheelchair (BCW). The BCW | Download Scientific Diagram
![Brain-Powered Wheelchair Shows Real-World Promise | Texas ECE - Electrical & Computer Engineering at UT Austin Brain-Powered Wheelchair Shows Real-World Promise | Texas ECE - Electrical & Computer Engineering at UT Austin](https://www.ece.utexas.edu/sites/default/files/styles/max_325x325/public/news/images/millan-wheelchair.jpg?itok=kMWLPyZD)