Wearable Neurotechnology and Mixed-Reality Sensor Integration
Expanded biosensing capabilities into wearable and immersive environments, enabling real-time interaction between human physiology and digital systems.
Situation
Most biosensing systems are confined to controlled lab environments, limiting their applicability in real-world or immersive contexts such as AR/VR or human-computer interaction research.
Solution
Developed wearable and integrated sensor platforms. The system allowed biosignal capture in both controlled and dynamic environments.
OUTCOMES
Challenges
Mobility
- •Lab-bound sensing systems
- •Limited field deployment
Integration
- •Weak AR/VR interoperability
- •Fragmented sensor pipelines
Solutions
Wearable EEG Headset
Designed a 3D-printable EEG headset aligned with standardized electrode placement systems.
- Produced 3D-printable headset aligned with electrode standards
- Enabled repeatable placement across experiments
- Reduced fabrication barriers for labs
Dry Electrode Support
Enabled dry electrode configurations for ease of use and rapid deployment.
- Eliminated gel preparation requirements
- Reduced setup time for field environments
- Improved usability for non-specialists
Multimodal Integration
Integrated multi-modal sensing (EEG, EMG, eye tracking) into mixed-reality headsets.
- Combined multiple physiological sensing streams
- Enabled synchronized immersive interaction research
Unified Signal Interface
Created a unified interface for synchronizing signals across multiple sensor types.
- Standardized cross-sensor synchronization workflows
- Enabled consistent data alignment pipelines