Wearable Robots, Exoskeletons leverage better
technology, they support high quality, lightweight materials and long life
batteries. Wearable robots, exoskeletons are used for permitting paraplegic
wheel chair patients walk. They are used to assist with weight lifting for
workers: Designs with multiple useful features are available. The study has 421
pages and 161 tables and figures.
Wearable robots, exoskeletons units are evolving
additional functionality rapidly. Wearable robots functionality is used to
assist to personal mobility via exoskeleton robots. They promote upright
walking and relearning of lost functions. Exoskeletons are helping older people
move after a stroke. Exoskeleton s deliver higher quality rehabilitation,
provide the base for a growth strategy for clinical facilities.
Exoskeletons support occupational heavy lifting.
Exoskeletons are poised to play a significant role in warehouse management,
ship building, and manufacturing. Usefulness in occupational markets is being
established. Emerging markets promise to have dramatic and rapid growth.
Industrial workers and warfighters can perform at a
higher level when wearing an exoskeleton. Exoskeletons can enable paraplegics
to walk again. Devices have the potential to be adapted further for expanded
use in healthcare and industry. Elderly people benefit from powered human
augmentation technology. Robots assist wearers with walking and lifting
activities, improving the health and quality of life for aging populations.
Exoskeletons are being developed in the U.S., China,
Korea, Japan, and Europe. They are useful in medical markets. They are
generally intended for logistical and engineering purposes, due to their short
range and short battery life. Most exoskeletons can operate independently for
several hours. Chinese manufacturers express hope that upgrades to exoskeletons
extending the battery life could make them suitable for frontline infantry in
difficult environments, including mountainous terrain.
Robotics has tremendous ability to support work tasks
and reduce disability. Disability treatment with sophisticated exoskeletons is
anticipated to providing better outcomes for patients with paralysis due to
traumatic injury. With the use of exoskeletons, patient recovery of function is
subtle or non existent, but getting patients able to walk and move around is of
substantial benefit, People using exoskeleton robots are able to make continued
progress in regaining functionality even years after an injury.
Rehabilitation robotic technologies developed in the
areas of stroke rehabilitation and SCI represent therapeutic interventions with
utility at varying points of the continuum of care. Exoskeletons are a related
technology, but provide dramatic support for walking for people who simply
cannot walk.
Parker Hannifin Indego intends to include functional
electrical stimulation. It accelerates recovery of therapy in every dimension.
Implementation in these kinds of devices is a compelling use of the electrical
stimulation technology.
It is a question of cost. The insurance will only pay
for a small amount of exoskeleton rehabilitation. More marketing will have a
tremendous effect in convincing people that they can achieve improvements even
after years of effort.
Rehabilitation robotics includes development of
devices for assisting performance of sensorimotor functions. Devices help arm,
hand, leg rehabilitation by supporting repetitive motion that builds
neurological pathways to support use of the muscles. Development of different
schemes for assisting therapeutic training is innovative. Assessment with
sensorimotor performance helps patients move parts of the body that have been
damaged.
Exoskeletons are used mainly as therapy aids in this
manner, highly targeted, highly specific as to how much movement is supported
at any one time. Learning how to walk for a wheelchair bound patient or
relearning of lost functions in a patient depends on stimulation of desire to
conquer the disability. Effective tools help incent desire of the patient to
get better.
Initially when a market is just developing and it is
going through the early adopter phase, penetration analysis is an appropriate
balance to growth %. The penetration analysis for wearable robots is still too
small to be useful but it is useful to bear in mind that there is tremendous
upside to this market.
Wearable Robots, Exoskeletons at $16.5 million in
2014 are anticipated to reach $2.1 billion by 2021. New technology from a range
of vendors provide multiple designs actually work. This bodes well for market
development.
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Key Topics
- Exoskeleton
- Spinal Cord Injury
- Stroke Protocols
- Active Prostheses
- Exoskeletons
- Robotic Technologies Leverage Neuroplasticity
- Wearable Robotics
- Strengthen The Upper Extremity
- Wearable Robots
- Strengthen The Lower Extremity
- Hand Rehabilitation
- Physical Therapy Automation
- Recovery After Hip Injury
- Wrist Rehabilitation
- Stroke Rehabilitation
- Exoskeleton Software
- Hip Rehabilitation
- Anti-Gravity Treadmill
- Gait Training
- Spinal Cord Injury Rehabilitation
- Paraplegic Walking
- Wearable Robot Stroke Recovery
- Wearable Robot Manufacturing
- Wearable Robot Shipbuilding,
- Wearable Robot Warehouse
- Wearable Robot Construction
Spanning over 421 pages “Wearable Robots, Exoskeletons: Market Shares, Strategy,
And Forecasts, Worldwide, 2015 To 2021” report
covers Wearable Robot Exoskeleton Executive Summary, Wearable Robot Exoskeleton
Market Description And Market Dynamics, Exoskeleton Market Shares And Market
Forecasts, Wearable Robot Exoskeleton Products, Exoskeleton Technology,
Exoskeleton Company Profiles. The report covered companies few are - Ekso Bionics,
ReWalk, China North Industries Group Corporation (NORINCO), Rex Bionics, Parker
Hannifin, Cyberdyne, Sarcos, Lockheed Martin, Daewoo
For further information on this report, please visit- http://mrr.cm/oPs
Find all Robotics Reports at: http://www.marketresearchreports.com/robotics
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