AI adaptive prosthetic limbs that learn, feel, and move like natural extensions of the human body.
Overview
Novus AI Dynamics is at the forefront of revolutionizing prosthetics, developing advanced smart limbs that transcend traditional functionality to restore natural movement, provide sensory feedback, and significantly enhance quality of life. Our commitment is to bridge the gap between human biology and advanced technology.
Our smart prosthetics integrate cutting-edge AI, sophisticated sensor technology, and intuitive control systems. We leverage breakthroughs in neuroscience and biomechanics to design devices that respond to user intentions with remarkable precision and fluidity.
Personalization
Sensory Feedback
Dexterity Restored
Battery Life
The Challenge
Traditional prosthetics offer rigid, pre-programmed movements that cannot adapt to diverse tasks. Users must consciously manage each movement, leading to fatigue and limited capability.
Without touch or pressure feedback, prosthetic users cannot feel the objects they interact with — making delicate tasks nearly impossible and increasing accidental damage.
Standard prosthetics do not learn or adapt to the user's unique movement patterns, requiring constant manual recalibration and providing sub-optimal performance long-term.
Applications
AI-powered myoelectric arms restoring fine motor skills for daily tasks — from writing and cooking to using tools. Neural interface options enable direct brain-to-limb communication.
Adaptive prosthetic legs with terrain recognition that automatically adjust gait and stability for walking, stair climbing, and running — empowering users to return to active lives.
Specialized prosthetics programs for Iraqi veterans and civilians affected by conflict, providing the most advanced assistive technology aligned with government rehabilitation mandates.
Modular, growing prosthetic designs for children that adapt as the user develops — combining fun aesthetics with cutting-edge AI to support normal childhood development.
Technology
Myoelectric Sensors
EMG electrode arrays detecting residual muscle electrical signals at microvolt precision
Neural Interface
Non-invasive peripheral nerve stimulation for direct brain-to-limb communication
Haptic Actuators
Miniaturized vibrotactile and pressure feedback systems embedded in the prosthetic socket
Adaptive AI
On-device ML model continuously learning and personalizing movement response patterns
Advanced Materials
Carbon fiber composites and titanium alloys for strength, lightness, and long durability
Wireless Connectivity
Bluetooth 5.0 + BLE for real-time data logging, remote diagnostics, and OTA updates
Battery System
High-density lithium cells with fast charging — providing 8+ hours of active use per charge
Cloud Analytics
Anonymized usage data feeds back into model improvements for all users globally
Deployment
Every deployment begins with detailed biomechanical assessment, socket fitting, and baseline AI model calibration for each individual patient's residual limb characteristics.
Over the first 4-6 weeks, the onboard AI continuously learns the user's unique muscle signal patterns through guided exercises, delivering an increasingly natural control experience.
Clinicians remotely monitor device performance and usage data, enabling proactive adjustments and therapy guidance without requiring frequent in-person clinic visits.
Outcomes
Dexterity Restored
Clinical trials show users regaining 85% of dexterous hand function compared to natural limb baseline.
To Full Personalization
The AI model reaches peak personalized performance within one month of consistent daily use.
Quality of Life Score
Patient-reported QoL measures triple after transitioning from conventional to Novus smart prosthetics.
User Retention Rate
Once users experience AI-adaptive prosthetics, nearly all continue using the device long-term vs. abandoning.
Partner with Novus AI Dynamics to bring AI-adaptive prosthetics to rehabilitation programs, hospitals, and veterans care facilities.