About TRYZMEY
At TRYZMEY, we develop intelligent hybrid control systems that translate human intention into precise prosthetic movement. Our work focuses on EMG signal processing, sensor fusion, and real-time adaptive algorithms designed for reliability and clinical scalability.
We aim to bridge the gap between advanced engineering and practical prosthetic implementation.
Why We Build
Modern prosthetic hardware has evolved rapidly, but intuitive control remains a major technical challenge. Latency, signal noise, and inconsistent muscle input limit user experience and functionality.
We focus on solving these challenges through robust control architecture and adaptive signal interpretation.
Technology Focus
- EMG-Based Signal Processing
- Hybrid Sensor Fusion
- Real-Time Embedded Systems
-Adaptive Motion Algorithms
- Modular Hardware Integration
Precision Engineering
We design control systems with strict performance standards, ensuring stability, low latency, and reliable signal interpretation.
Research-Driven Development
Our work is grounded in biomedical research, real-world validation, and continuous system refinement.
Clinical-Ready Solutions
Built for scalability and integration with modern prosthetic hardware platforms.
Yoto Yotov
Founder & Control Systems Engineer
Yoto Yotov is the founder of TRYZMEY, focusing on adaptive control systems for upper limb prosthetics. His work integrates EMG signal processing, embedded system design, and real-time control architectures to enable intuitive human–machine interaction.
TRYZMEY was initiated as a research-driven effort to bridge engineering innovation with practical prosthetic implementation.