Recupero Robotics
Recupero Robotics LLC is a pioneering Rehabilitation Robotics company dedicated to creating affordable and accessible rehabilitation and assistive technologies that support the functional independence of individuals with disabilities across their lifespan. They develop wearable devices, powered hand orthoses, and haptic consoles to improve object manipulation and task performance, aiming to enhance independence and therapy outcomes. Their philosophy centers on innovation, compassionate care, and technology to positively impact healthcare and rehabilitation. The company specializes in advanced medical devices for upper limb rehabilitation, utilizing novel, affordable haptics technology and gamification to motivate patients. Their technology has been prototyped and tested with various healthcare professionals and patients. They collaborate with partners such as the University of Pennsylvania Rehabilitation Robotics Laboratory, Enable Games, and others. Their recent research includes exoskeletons, robotic neurorehabilitation strategies, and assessments for populations with HIV and stroke.
Industries
Nr. of Employees
small (1-50)
Recupero Robotics
Products
Bimanual trunk and shoulder-arm exoskeleton (bimanual upper-limb exoskeleton)
Modular, underactuated trunk and shoulder-arm exoskeleton intended to assist bimanual activities of daily living with configurable trunk compression and detachable shoulder-arm subassemblies.
Single-degree-of-freedom high-force haptic rehabilitation robot
A compact haptic robot using force-feedback mechanisms to deliver adaptive upper-limb therapy and collect kinematic performance metrics.
Compact finger-training robotic module for individual digit movement
A portable device intended to train individual finger movements and provide range-of-motion exercises via gamified interactions.
Wearable exo-glove for hand assistance
A wearable glove-like orthosis that assists hand manipulation and interfaces with haptic consoles and therapy games.
Bimanual trunk and shoulder-arm exoskeleton (bimanual upper-limb exoskeleton)
Modular, underactuated trunk and shoulder-arm exoskeleton intended to assist bimanual activities of daily living with configurable trunk compression and detachable shoulder-arm subassemblies.
Single-degree-of-freedom high-force haptic rehabilitation robot
A compact haptic robot using force-feedback mechanisms to deliver adaptive upper-limb therapy and collect kinematic performance metrics.
Compact finger-training robotic module for individual digit movement
A portable device intended to train individual finger movements and provide range-of-motion exercises via gamified interactions.
Wearable exo-glove for hand assistance
A wearable glove-like orthosis that assists hand manipulation and interfaces with haptic consoles and therapy games.
Services
End-to-end research and engineering to design, prototype, and iterate wearable hand orthoses, exoskeleton subassemblies, and haptic consoles.
Pilot studies and usability testing with patients, therapists, and clinicians to evaluate device effectiveness and refine therapy interactions.
Development and integration of interactive game-based therapy applications to motivate rehabilitation and capture performance metrics.
End-to-end research and engineering to design, prototype, and iterate wearable hand orthoses, exoskeleton subassemblies, and haptic consoles.
Pilot studies and usability testing with patients, therapists, and clinicians to evaluate device effectiveness and refine therapy interactions.
Development and integration of interactive game-based therapy applications to motivate rehabilitation and capture performance metrics.
Expertise Areas
- Wearable rehabilitation robotics
- Haptics and force-feedback systems
- Gamified digital rehabilitation and therapy tracking
- Biomechanical modeling and predictive simulation
Key Technologies
- Wearable exoskeleton mechanics
- Haptic force-feedback actuators
- Finger-level actuation and multi-digit control
- Sensor integration and embedded control