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    PARO is an advanced interactive robot developed by AIST, a leading Japanese industrial automation pioneer. It allows the documented benefits of animal therapy to be administered to patients in environments such as hospitals and extended care facilities where live animals present treatment or logistical difficulties. PARO has been found to reduce patient stress and their [..]
    April 21, 2015
    PARO
    PARO is an advanced interactive robot developed by AIST, a leading Japanese industrial automation pioneer. It allows the documented benefits of animal therapy to be administered to patients in environments such as hospitals and extended care facilities where live animal [..]

    3
    QB is a two-wheeled, gyroscopically stabilized remote telepresence unit driven via web browser. The user can select one of a range of bots located around the world, and drive it off from the Anybots website. All that is needed onsite is power, WiFi or 3G/4G. On-board is a touch screen display, speaker and microphone plus [..]
    April 21, 2015
    QB
    QB is a two-wheeled, gyroscopically stabilized remote telepresence unit driven via web browser. The user can select one of a range of bots located around the world, and drive it off from the Anybots website. All that is needed onsite is power, WiFi or 3G/4G. On-board is [..]

    4
    The da Vinci Surgical System is a robotic surgical system made by the American company Intuitive Surgical. Approved by the Food and Drug Administration (FDA) in 2000, it is designed to facilitate complex surgery using a minimally invasive approach, and is controlled by a surgeon from a console. The system is commonly used for prostatectomies, [..]
    The da Vinci Surgical System is a robotic surgical system made by the American company Intuitive Surgical. Approved by the Food and Drug Administration (FDA) in 2000, it is designed to facilitate complex surgery using a minimally invasive approach, and is controlled by [..]

    5
    Last year Dartmouth made headlines around the globe for a tiny innovation: the world’s smallest untethered mobile robot. A joint project between Dartmouth computer scientists and Thayer School engineers, the microrobot was created in the microengineering lab in Cummings Hall. We asked microengineering lab director Professor Christopher Levey, co-PI and lead creator of the breakthrough [..]
    Last year Dartmouth made headlines around the globe for a tiny innovation: the world’s smallest untethered mobile robot. A joint project between Dartmouth computer scientists and Thayer School engineers, the microrobot was created in the microengineering lab in Cummin [..]

    th
    The development of nanorobots is an emerging field with many aspects for further investigations. Simulation is an essential tool for exploring alternatives in the organization, configuration, motion planning, and control of nanodevices exploring the human body. Basically, we may observe two distinct kind of nanorobot utilization. One is nanorobots for the surgery intervention, and the other is nanorobot to monitor patients’ body. The nanorobots require specific controls, sensors [..]
    March 19, 2016
    NANOROBOTICS
    The development of nanorobots is an emerging field with many aspects for further investigations. Simulation is an essential tool for exploring alternatives in the organization, configuration, motion planning, and control of nanodevices exploring the human body. B [..]

    rewalk-personal-6-0
    ReWalk is a wearable robotic exoskeleton that provides powered hip and knee motion to enable individuals with spinal cord injury (SCI) to stand upright, walk, turn, and climb and descend stairs. ReWalk is the only FDA cleared exoskeleton for rehabilitation and personal use in the United States. The new ReWalk Personal 6.0 System is designed [..]
    March 27, 2016
    ReWalk
    ReWalk is a wearable robotic exoskeleton that provides powered hip and knee motion to enable individuals with spinal cord injury (SCI) to stand upright, walk, turn, and climb and descend stairs. ReWalk is the only FDA cleared exoskeleton for rehabilitation and personal [..]

    da_Vinci_S_components_table
    The da Vinci® Surgical System enables surgeons to perform delicate and complex operations through a few small incisions. The da Vinci System consists of several key components, including: an ergonomically designed console where the surgeon sits while operating, a patient-side cart where the patient is positioned during surgery, interactive robotic arms, a 3D HD vision [..]
    The da Vinci® Surgical System enables surgeons to perform delicate and complex operations through a few small incisions. The da Vinci System consists of several key components, including: an ergonomically designed console where the surgeon sits while operating, a patie [..]

    cyberdyne-hal-5-0
    The Hybrid Assistive Limb (also known as HAL) is a powered exoskeleton suit developed by Japan’s Tsukuba University and the robotics company Cyberdyne. It has been designed to support and expand the physical capabilities of its users, particularly people with physical disabilities. There are two primary versions of the system: HAL 3, which only provides [..]
    May 21, 2016
    HAL
    The Hybrid Assistive Limb (also known as HAL) is a powered exoskeleton suit developed by Japan's Tsukuba University and the robotics company Cyberdyne. It has been designed to support and expand the physical capabilities of its users, particularly people with physical d [..]

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