Pioneering the future of human-machine integration
Founded in 2010 by Dr. Eleanor Shelby, a leading biomedical engineer and neuroscientist, Shelby Cybernetics has been at the forefront of prosthetic innovation for over a decade.
Our mission is to develop cutting-edge prosthetic solutions that not only restore function but enhance human capability, allowing individuals to transcend physical limitations and live life without compromise.
With a team of over 200 scientists, engineers, and medical professionals, we combine expertise in biomechanics, neural interfaces, materials science, and artificial intelligence to create prosthetics that seamlessly integrate with the human body.
Advanced prosthetics for every need
Our flagship upper limb prosthetic with advanced neural interface technology, providing unprecedented dexterity and sensory feedback.
A revolutionary lower limb prosthetic with adaptive terrain response and energy return system for natural gait and enhanced mobility.
Our proprietary neural interface system that creates a seamless connection between mind and machine for intuitive prosthetic control.
A highly articulated prosthetic hand with advanced pressure sensors providing realistic tactile feedback for precision tasks.
The science behind our innovations
Our proprietary neural interface systems create a direct communication pathway between the brain and prosthetic devices, allowing for intuitive control and sensory feedback.
Using a combination of non-invasive sensors and optional minimally invasive implants, we can detect and interpret neural signals with unprecedented accuracy, translating intention into action.
The NeuroBridge system adapts to each user's unique neural patterns, continuously improving response time and accuracy through machine learning algorithms.
Our prosthetics utilize cutting-edge materials that combine strength, flexibility, and biocompatibility to create devices that are both durable and comfortable for long-term use.
Carbon fiber composites, titanium alloys, and proprietary polymers form the structural foundation of our devices, while our bio-integrative coatings promote compatibility with human tissue.
SensiFlex™, our revolutionary synthetic skin, provides realistic texture and appearance while housing thousands of microscopic sensors for tactile feedback.
Artificial intelligence and machine learning algorithms are at the core of our adaptive prosthetic systems, enabling devices that learn and evolve with the user.
Our proprietary CogniTech™ AI platform processes neural signals, environmental data, and user patterns to continuously optimize prosthetic performance and anticipate user intentions.
Edge computing architecture allows for real-time processing without cloud dependency, ensuring reliable performance even without network connectivity.
Our biomechanical engineering team studies human movement in extraordinary detail to create prosthetics that replicate—and in some cases enhance—natural function.
Using motion capture technology and computational modeling, we analyze thousands of movement patterns to design joint systems with optimal range of motion and energy efficiency.
Our patented Energy Return System captures and repurposes kinetic energy during movement, reducing battery consumption and extending operational time between charges.
Real experiences from those we've helped
"After losing my arm in a manufacturing accident, I never thought I'd be able to return to my work as a precision machinist. The NeuroArm X7 not only restored my ability to work but gave me capabilities I never had before. The precision and feedback are extraordinary."
"As a former marathon runner, losing my leg was devastating. The KineticLeg Pro has not only allowed me to run again but to compete at levels comparable to my pre-accident performance. The adaptive terrain response is like nothing else on the market."
"As a concert pianist, I thought my career was over when I lost my hand. The TactileSense Hand has such incredible dexterity and feedback that I've been able to return to performing. The ability to feel the keys has made all the difference."
Pushing the boundaries of what's possible
Our research team is developing next-generation neural interfaces that create a more seamless connection between mind and machine, reducing response time and increasing control precision.
We're pioneering new biocompatible materials that reduce rejection risk and promote integration with the body's natural systems for long-term prosthetic solutions.
Our energy research focuses on developing prosthetics that can harvest energy from the user's movement and body heat, extending battery life and reducing charging frequency.
Beyond replicating natural human senses, we're exploring ways to integrate additional sensory capabilities into our prosthetics, such as temperature detection and electromagnetic sensing.
Take the first step toward a new future
General: info@shelbycybernetics.com
Support: support@shelbycybernetics.com
Press: media@shelbycybernetics.com