Neuronal HAL Robot for Patients With Immobility

Robot Cyberdyne utilizes HAL (Hybrid Assistive Limb) technology to help individuals who have lost lower limb function regain the ability to walk and experience the pleasure of movement. The robotic suit recognizes the user’s intention to move their legs and utilizes HAL to enhance mobility.

HAL is an exoskeleton robot that can be worn and assists with lower limb movements by controlling actuators in real-time. The Wearable Cyborg ™ HAL can assist with the sagittal plane movements of the hip and knee on both sides.

HAL’s attributes

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The wearer’s capabilities can be regained through the use of HAL as a component of the Cyberdyne Treatment. HAL’s capacity to reliably execute uncomplicated and repetitive duties makes Cyberdyne’s robotic apparatus suitable for the task. The HAL Robot suit is formulated to guide the patient through a series of specific motions while providing a particular degree of assistance and controlling unwanted movements.

Cyberdyne HAL is used to deal with immobility

When an individual moves, their brain sends nerve signals to their muscles through motor neurons, causing the musculoskeletal system to initiate movement. Before movement, the body emits small electrical signals onto the skin’s surface. The Wearable Cyborg™, known as HAL, can detect and interpret these signals and utilize them to synchronize joint movement with the individual.

This innovative approach enables real-time communication between HAL, the brain, the nervous system, and muscles, ultimately enhancing functionality in the lower limb, upper limb, and body trunk.

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This innovative treatment, which utilizes the Wearable Cyborg™ HAL for functional regeneration, enhances human brain-nerve-musculoskeletal functions by activating the body’s natural self-healing ability. A specific condition must be met before a patient can use the HAL.

Since the HAL functions as a conversion device, the patient’s body must provide adequate electrical signals, indicating that the nerves connecting the patient’s legs to the brain are still partially functional. The artificial limb capitalizes on the body’s inherent healing capacity. The HAL only necessitates the patient to contribute a portion of the effort; from there, it can interpret the patient’s intentions to generate results.


Cyberdyne treatment offers advanced rehabilitation technologies worldwide. HAL accelerates motor learning in the brain, leading to neuroplasticity. The goal is to develop innovative Cybernetics systems to improve medicine, welfare, and daily life. The focus is on lower extremity rehabilitation. HAL provides feedback to the brain, enabling the wearer to walk independently and relieving immobility.

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Written by Admin

May 25, 2023

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