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Presentation Structure

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Title: Presentation Structure


1
  • The Cyberdyne HAL robot suit
  • Robotics that suit you
  • Presentation
  • Dujat Symposium 2009
  • The Age of Aging Lessons from Japan
  • Philip J. Wijers Managing Director
  • Cyberdyne Europe
  • Amstelveen, 1 October 2009

2
Presentation Structure
  • Background
  • The HAL robot suit
  • Hybrid Control System
  • HAL user groups and benefits
  • From lab to market
  • Japanese government policies
  • Summary
  • Questions?

3
Background
  • Academic start-up company established in 2004
  • Prof. Yoshiyuki Sankai from Tsukuba University
    inventor, patent share holder and driving force
  • Inspired by disabled and paralysed fellow
    students
  • Main focus improving human performance
  • In 1997 first prototype at University of Tsukuba
  • Earlier lower extremity version in 1999 HAL-1,
    multi-joint simultaneous version in 2001 HAL-3
  • Full version HAL-5 demo at the 2005 Expo in
    Aiichi
  • Clear focus on peaceful use of technology
  • Prof Sankai nominated as leader Global CoE
    Cybernics, a MEXT / JSPS programme

4
The HAL Robot Suit
  • Full exoskeleton type has 8 actuators
  • Dual function support and movement
  • Dissipating and thus supporting its own weight
  • Combining mechanics, IT, electronics robotics
  • S (lt 150 cm), M (150-165 cm), L (165-180 cm)
  • LowEx double leg model 10 kg, single leg 6 kg
  • Lithium-polymer battery ( 1 kg), 60-90 min
    usage, 1 hour charging
  • Actuators respond faster to muscle signal that
    users own muscles (less than 2 ms v. 10-20 ms)
  • Increased strength due to higher joint torque
  • CE MDD certification by TUV in progress

5
Hybrid Control System
  • Unique and flexible concept hybrid control
    system
  • Hybrid refers to the combination of a cybernic
    voluntary and an autonomous robotic control
    system
  • Voluntary Control System driven by users
    bio-electrical nerve signals picked up by sensors
    on skin
  • Autonomous Robotic Control System creates a
    desired functional motion based on stored
    reference data and data from FRF and joint angle
    sensors.
  • Controlled based on signals from sensors on skin,
    in the actuators and shoes.
  • Software settings of the suit can be adjusted
    depending on the characteristics of the user.

6
HAL user groups and benefits
  • Three main target groups 1. For welfare,
    rehabilitation and medical purposes2. As support
    with hard physical labour 3. Entertainment
  • Corporate culture set by Prof Sankai strategic
    focus is on the first and most complex group,
    start with welfare applications in Japan
  • Elderly, disabled, patients with e.g. polio,
    muscle diseases, stroke, gait disorders, spinal
    cord injury, etc. may benefit from HAL
  • Several pilots and clinical trails currently
    under way in Japan
  • Walking support, endurance, strength, increased
    mobility and independence for elderly and the
    disabled
  • HAL could reduce lost working days due to
    physical injuries which are a huge cost to
    society
  • Benefits for disaster relief and emergency
    personnel
  • Many governments aim to let elderly, disabled and
    patients live independently in their own homes.
    HAL fits this objective.

7
From lab to market
  • New emerging industry health, rehabiliation
    bio-robotics
  • Head Office, RD and production centre opened at
    Kenkyu-gakuen, near Tsukuba
  • Daiwa House is shareholder and partner in Japan
  • IPO planned
  • Japan Welfare applications as first strategic
    objective
  • Different regulatory regimes JPAL, EU MDD, FDA
  • MD market access complex and time consuming due
    to clinical pilots trials, certification
    regulatory issues, reimbursement policies.
  • Ground breaking technology develop local HAL
    infrastructure and develop HAL community
  • Enthusiastic response from universities,
    municipalities, hospitals, doctors, therapists,
    patient organisations users

8
Japanese government policies
  • Japanese society rapidly aging
  • Increased competition in Japans export
    industries
  • Need to identify new industrial growth sectors
  • Current world leader in industrial and mobile
    robotics
  • Diversification into care, rehab, micro/nano
    robotics and surgical robotics
  • Programmes by MEXT (JSPS) and METI (NEDO/JST)
  • Programme involvement Panasonic, Toyota, FHI,
    Sohgo Security Cyberdyne
  • Study and research opportunities in Cybernics
    Global CoE programme at University of Tsukuba
  • Info at http//www.cybernics.tsukuba.ac.jp

9
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10
Summary
  • Unique revolutionary direct interface product
  • Flexible Hybrid Control System
  • Many applications from welfare to entertainment
  • Production started late 2008
  • Initial focus on welfare, disabilities,
    rehabilitation
  • Complex regulatory regime
  • New emerging science, medical field and industry
  • Industrial and societal opportunities for Japan
    and other countries
  • Opportunities for scientific exchange and
    scholarships at Tsukuba University through MEXT
    GCoE for Cybernics

11
Questions?
  • More information Cyberdyne www.cyberdyne.jpwww.c
    yberdyne-europe.com
  • More information Cybernics GCoE
    www.cybernics.tsukuba.ac.jp
  • E-mail mail_at_cyberdyne-europe.com
  • Thank you for your attention
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