Human Machine
Interface

ENHANCE, pROTieNcIATE & EVOLVE
Human Machine Interfaces (HMIs) represent the embodiment of innovation, blurring the lines between the organic and the artificial, and forging a future where technology extends the capabilities of the human body and mind. Through the precise detection and interpretation of bioelectric signals, communication between the human nervous system and external devices is becoming a reality.

Technologic platforms

An ASIC designed specifically for HMIs can significantly enhance the performance, efficiency, and reliability.

By tailoring the circuit to the unique requirements of human-machine interaction, such as rapid response times, high precision, and robust data processing capabilities.
This specialization allows for more compact, energy-efficient designs that can handle complex computations required for interpreting human inputs and translating them into machine actions. It not only propels technological innovation within the company but also strengthens its competitive advantage in the market, leading to superior products that meet the evolving needs of users in various industries.

MEMS smart sensors are indispensable components that elevate the sophistication and responsiveness.

These micro-electromechanical systems combine mechanical and electrical processes in a tiny footprint, making them ideal for integrating into various HMI applications where space and efficiency are paramount.
With its own MEMS design team, Roumai is able to detect and respond to environmental inputs with high precision, providing real-time data.  This capability significantly improves the user experience, fostering more seamless and natural interactions between humans and machines, which is essential in fields ranging from wearable to implantable technology.

AI and machine learning facilitate the decoding and interpretation of neural signals into actionable commands.

These algorithms process the complex patterns of brain activity, allowing the interface to translate thoughts and intentions into movements of prosthetics, computer cursors, or even virtual avatars. Machine learning models constantly evolve with the user, refining their predictive capabilities to produce smoother, more accurate responses over time.
The confluence of neuroscience, AI, and robotics in BMIs heralds a future where the barriers between thought and action are minimized, granting unprecedented levels of interaction and autonomy to those who rely on these advanced systems.

Product Pipeline

Proof of Concept

Preclinical Research

Clinical Phase I, II, III

Commercialization

Electronic Blood Vessel

Proof of Concept

Regulatory Affairs

Commercialization

16-Channel sEMG Bracelet