The Solution

Actimus is a revolutionary physical rehabilitation device that combines and gamifies muscle contraction measurement and muscle stimulation. Paired with a mobile application, users play a magic-tiles-style game that activates muscles and strengthens the brain-muscle connection with pioneering efficiency to enhance physical rehabilitation

Physical Rehabilitation Empowered

Rebuild Strength, Reimagine Rehab

Actimus contains three unique modes to supercharge recovery through advanced electrostimulation and real-time monitoring

Control

Precision control for optimal rehabilitation outcomes

Stimulate

Advanced electrostimulation therapy protocols

Activate

Muscle activation and recovery enhancement

Three Powerful Modes

Each mode is designed to target specific rehabilitation needs with precision and effectiveness

Control

Precision control for optimal rehabilitation outcomes

Measure and display real time muscle activity (EMG) to track strength and recovery progress

Stimulate

Advanced electrostimulation therapy protocols

Sends electrostimulation (EMS) pulses to induce targeted contractions for muscle growth

Activate

Muscle activation and recovery enhancement

Gamification of EMG and EMS for optimised neuromuscular control and user enjoyment

The Gamification

Gamification through a dynamic ‘Magic Tiles’-style game that engages users with interactive challenges, adaptive difficulty levels, real-time feedback, and reward-based progression to enhance motivation and learning outcomes

Video Guide Line

Experience the Future of Recovery

Watch how Actimus empowers recovery with cutting-edge gamification of Electromyography and Electrostimulation technologies.

The Technology

Dive into Actimus’s Technology

Our innovation, Actimus, includes a device and mobile application, with functional versions of both already developed.

For the hardware, we created a custom Printed Circuit Board (PCB) which combines an ESP32 microcontroller, an existing electromyography board and a custom electrostimulation circuit which we have developed from research papers. Our electrostimulation circuit produces multiple types of waveform, including TENS, EMS and Russian Waveforms, which are arranged into programs. Electrodes are attached to the skin at specific positions to measure muscle activity in electromyography and cause contraction in electrostimulation. 3D printing is used to create the casing, which has plans to evolve. We also have plans to integrate artificial intelligence to deliver optimised electrostimulation based on responding muscle activity data from electromyography

For the software, the mobile application is designed initially using Figma and built using Flutter. It communicates with the hardware via Bluetooth Low Energy (BLE). We have individual functionlities of electrostimulation and electromyography in “Control” and “Stimulate” pages finished and are undergoing development for the gamification aspect in the “Activate” page.