At #AHs2026, Hirano et al. will present “Motor Imagery BCI Extension Using Onomatopoeia Speech Imagery: Discriminating Walking Speeds within the Same Limb.” It improves subtle motor imagery classification within the same limb without remapping to different limbs.
At #AHs2026, Yamamoto(M1) et al. will present "ParaSights: A Spatial Presentation Technique Enabling Parallel Interaction with Two Virtual Environments by Exploiting Binocular Rivalry Suppression." It enables parallel interaction without explicit switching.
@HKallioGoblin Thank you for your comment! Yes, I agree that is a unique and excellent example of how this research can be applied. However, there are still some issues regarding control accuracy, and there is room for improvement.
I presented my research at #AHs2026!
Our study focuses on the control of augmented bodies via Brain-Computer Interface (BCI) and its impact on the sense of embodiment.
At #AHs2026, Kasahara et al. present "BCI Control of Virtual Supernumerary Limbs: An Investigation of Imagery Separability and Sense of Embodiment in Multitasking". We used MI-BCI for simultaneous control of virtual arms during body movements, exploring controllability & SoE.
At #AHs2026, Kasahara et al. present "BCI Control of Virtual Supernumerary Limbs: An Investigation of Imagery Separability and Sense of Embodiment in Multitasking". We used MI-BCI for simultaneous control of virtual arms during body movements, exploring controllability & SoE.