Electromyography (EMG) sensors are not widely used, but increasingly integrated into computer-machine interfaces, including virtual reality (VR) systems to enhance user interaction and immersion. EMG sensors hold significant potential for VR, driving advancements in gaming, therapy, and human-computer interaction.
EMG technology provides a robust foundation for developing intuitive, gesture-based interfaces. EMG sensors enable precise hand gesture recognition, allowing users to perform actions like grasping or pointing in VR.
The combination of EMG and VR technologies can not only elevates the gaming experience but also, but also significantly help people during rehabilitation process. EMG sensors are increasingly utilized in virtual reality (VR) rehabilitation to enhance motor recovery and functional outcomes. For example, EMG-driven controls can aid stroke patients in motor skill training by simulating real-world tasks.
Our products’ open-source nature empowers users to develop custom projects and devices perfectly meet their specific needs and goals. The wireless system
MYOstack v2.0 supports up to nine sensors, allowing it to simultaneously receive nine EMG signals—ideal for detecting forearm muscle activity and accurately recognizing complex gestures.
Sensors MYOstack are lightweight and have a real small footstep, the whole system allows wireless signal transmission, which makes it an excellent choice for developing wearable solutions.
Areas of application:- VR game controllers
- exoskeletons for VR
- VR reahibilitation tasks
Benefits of the MYOstack v2.0 system:- curved surface for better contact with skin
- use of up to 9 sensors simultaneously for advanced EMG gesture recognition
- wireless signal transmittion up to 200 meters
- reduced number of wires to ease the multisensor use
- mechanical gain regulation for individual adjustment of the prosthesis