Bridging the gap between the human brain and digital systems through cutting-edge neurotechnology. Explore how we're transforming communication and control.
🧠 Discover Our WorkNeural interfaces are systems that directly link the human brain to devices, enabling individuals to control computers, prosthetics, and even other people. Our lab develops this technology through advanced biocompatible sensors, AI-driven signal processing, and closed-loop feedback systems.
We focus on non-invasive skullcap systems and minimally-invasive subdermal implants, prioritizing user safety and long-term reliability. Our research includes both input (EEG-derived intent detection) and output (haptic neurostimulation) pathways.
Developing neural interfaces to restore mobility for patients with paralysis, using real-time motor signal interpretation and robotic actuation. Our clinical trials show promising results in hand function recovery.
Exploring real-time, low-latency interfaces for person-to-person communication through brain-to-brain networks. Our prototypes achieve text transmission rates exceeding 50 BPS with 85% accuracy.
Creating intuitive brain-computer interaction for gaming, productivity, and AR/VR systems. Our consumer prototypes enable full 3D navigation using intent alone.
We use adaptive filtering algorithms to enhance neural signals while minimizing noise interference. Our newest model achieves 45% higher clarity than previous versions.
Through optimized circuit design and edge computing, our devices use 70% less energy than industry standards, enabling all-day portable use.
Our self-training interfaces adjusts to individual neural patterns over time, improving usability by 80% after 2 weeks of regular use.
Join researchers and engineers in transforming how humans interact with the digital world through direct brain interfaces.
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