AI-powered exoskeletons revolutionizing rehabilitation and mobility

  • * Register (or log in) to the Neural Network to add this session to your agenda or watch the replay

  • Date
    19 November 2024
    Timeframe
    16:00 - 17:30
    Duration
    90 minutes (including 15 minutes networking)
    Share this session

    An estimated 1.3 billion people, or 16% of the world’s population, live with some form of motor disability. AI is revolutionizing rehabilitation of individuals with mobility impairments by improving movement coordination and adaptability in exoskeletons, resulting in more effective, personalized therapy and better responsiveness. 

    However, creating transformative exoskeletons poses challenges, including aligning the technology with human joints, ensuring affordability, comfort, and portability, improving energy efficiency, and designing user-friendly interfaces, among others. These are critical issues that need to be addressed to unlock the full potential of robotic exoskeletons. 

    Join this AI for Good webinar to learn about the dynamic human-machine synergy enabled by AI-powered exoskeletons that help individuals relearn walking, correct malformations, and regain independence. This session will explore the latest technologies and challenges, as well as a way forward, illustrating how exoskeleton technologies are not just assisting in overcoming physical limitations but are paving the way for a new era in medical rehabilitation. 

    This live event includes a 15-minute networking event hosted on the AI for Good Neural Network. This is your opportunity to ask questions, interact with the panelists and participants and build connections with the AI for Good community.

    Share this session
    Discover more from programme stream
    Toward ubiquitous wearable robots enabled through data-driven AI systems

    Toward ubiquitous wearable robots enabled through data-driven AI systems

    5 March 2025 - 16:00 to 17:00

    Soft Robots for Humanity

    Soft Robots for Humanity

    18 March 2025 - 16:00 to 17:00

    Biologically inspired embodied AI for robot design and adaptation

    Biologically inspired embodied AI for robot design and adaptation

    8 April 2025 - 16:00 to 17:00