Towards intelligent environments: An augmented reality-brain-machine interface operated with a see-through head-mount display

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Abstract

The brain-machine interface (BMI) or brain-computer interface is a new interface technology that uses neurophysiological signals from the brain to control external machines or computers. This technology is expected to support daily activities, especially for persons with disabilities. To expand the range of activities enabled by this type of interface, here, we added augmented reality (AR) to a P300-based BMI. In this new system, we used a see-through head-mount display (HMD) to create control panels with flicker visual stimuli to support the user in areas close to controllable devices. When the attached camera detects an AR marker, the position and orientation of the marker are calculated, and the control panel for the pre-assigned appliance is created by the AR system and superimposed on the HMD. The participants were required to control system-compatible devices, and they successfully operated them without significant training. Online performance with the HMD was not different from that using an LCD monitor. Posterior and lateral (right or left) channel selections contributed to operation of the AR-BMI with both the HMD and LCD monitor. Our results indicate that AR-BMI systems operated with a see-through HMD may be useful in building advanced intelligent environments. © 2011 Takano, Hata and Kansaku.

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APA

Takano, K., Hata, N., & Kansaku, K. (2011). Towards intelligent environments: An augmented reality-brain-machine interface operated with a see-through head-mount display. Frontiers in Neuroscience, (APR). https://doi.org/10.3389/fnins.2011.00060

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