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Genoa, Italy
1-10 Employees
2022
Proteso is a deep-tech startup specialized in powered exoskeletons for industrial workers. Our products help companies achieve injury-free productivity and workers feel no fatigue and pain. Proteso is a spin-off of the Italian Institute of Technology, where our team spent the last 10 years building R&D experience, developing exoskeleton technology and studying its physiological effects. We designed several generations of exoskeletons for different applications, and we are now turning them into accessible products. Interested in knowing more about Proteso and how we can work together? This is common in logistics, manufacturing, and many other sectors where repeatedly handling heavy loads is a key component of many jobs.
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Next-gen Exoskeletons for Back Support
... Proteso Exoskeletons – It's you, only ...
Jaipur, India
1-10 Employees
2014
Newndra is offering efficient, unpowered, compact, lightweight and IoT connected smart exoskeletons for different users to increase productivity and endurance while reducing fatigue and musculoskeletal disorders. Newndra innovation has successfully conducted three clinical trials with ethical committee approvals. We are among first and leading exoskeleton companies making most efficient, affordable and lightweight exoskeleton for Automobile, Construction, Logistic, Defence, Medical, Agriculture sectors. JaipurBelt, JaipurBelt, IndoKnee, ArmMax, NewndraX are our flagship product. JaipurBelt, IndoKnee, ArmMax, NewndraX are our flagship product. We help industries and defence increase the productivity and safety of its work force while reducing the musculoskeletal problem and carbon-footprint by providing smart and efficient yet self-powered exoskeletons. JaipurBelt®, SmartEx™, ArmMax™, AssaultEx™, IndoKnee™, BackUp™, KishanEx™, CarryOn™, and are some of Newndra’s current and in-pipeline exoskeletons. Flipkart, FM Logistic, Maruti-Suzuki, John-Deere, Delivery, Shapoorji-Pallonji, NDRF and BOSCH are some of our proud clients.
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Exoskeleton JaipurBelt-S
... Exoskeleton JaipurBelt-S | Exoskeletons ...
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Powered Orthotics | Exoskeleton
... We are a Heidelberg based startup creating new, robotic exoskeletons to improve the quality of life of people with disabilities. ...
Genoa, Italy
1-10 Employees
2017
RoboSuits, "the new exoskeleton company", created in September 2017, is aimed at introducing a new high-performance exoskeleton product on the market. RoboSuits is the sum up of well-established competence, skills, experiences and Customer opportunities. Robosuits is also building an appropriate brand positioning in order to transform the project in a globally renown reality and seize all the expected opportunities within the decade. Robosuits aims to develop a lower limb weight-bearing exoskeleton which is able to transfer each carried weight to the ground and let elderly people feel no weight on the legs. The Global exoskeleton market can be entirely revolutionized by the RoboSuits project.The following chart shows the ten years market expected growth and the activities which will be performed by Robosuits. In this scenario, the possibility of adding a product like FEX which enables the completion and expansion of the know-how in the medical-rehabilitation sector opens up to new growth possibilities; financed with the income raised from the EBW project, Robosuits will also focus on becoming a leader in the hand rehabilitation market. The robotic exoskeleton rehabilitation equipment is mostly used in clinical facilities, though there is a huge opportunity for launching a home care equipment market. It is likely that the position of RoboSuits enables it to become the absolute leader in the Commercial and Medical area and gaining a possible presence in the Military sector as well.
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RoboSuits - "The new exoskeleton company"
... RoboSuits - "The new exoskeleton company" ...
Rijswijk, Netherlands
1-10 Employees
2006
InteSpring was originally founded in 2006 by Boudewijn Wisse (MSc in Industrial Engineering), Wouter van Dorsser (MSc in Industrial Engineering) and Rogier Barents (MSc in Mechanical Engineering). Currently InteSpring focusses on wearables that can exert a force, like exoskeletons and medical orthoses. Our lean team of experts each approach weight balancing and spring systems from a unique perspective. With low overhead and a heavy emphasis on entrepreneurship we can offer cost effective and involved consultancy services to our industry and institutional partners. The patented core technology of InteSpring, counterbalancing gravitational forces by using smart energy storage mechanisms, led to many products and multiple spinout companies. Anchis became a joint venture between InteSpring Holding and Anchor. With the sole purpose of commercializing the by InteSpring developed Balancebox. Sprinq was the first full sister-company of InteSpring.
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An exoskeleton for everyone
... The most ✓ low power and ✓ lightweight exoskeletons in the world. ...
United States
1-10 Employees
2015
The Exoskeleton Report has published more than 450 pages and articles since 2015 on exoskeleton technology. However, it isn’t the only source of information any... For years we have heard how using wearable exoskeletons can have desirable secondary effects. Now, a team from Construction Health and Safety New Zealand (CHASNZ) has... The EXSKALLERATE Project published this month a digital map of European organizations connected to exoskeleton technology.
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ExR Exoskeleton Report -
... Exoskeleton News and ...
Barcelona, Spain
11-50 Employees
2018
We are currently developing a new version of the exoskeleton for personal use, to walk at home or in the community, which we plan to launch in the market in the year 2026. We are a medical device start-up based in Barcelona with the mission of enabling mobility, for everyone. Mobility is a fundamental part of living in society autonomously and freely, engaging in daily activities like working, moving and enjoying leisure time. The research is a fundamental part of our innovation process: to explore disruptive ideas, build first proofs of concept and generate clinical evidence. Continuous improvement is the only way to engage clinicians, users and their families with new technologies. We respect value diversity and are committed to equality. Distributor Name * Do you sell other robotic rehabilitation products?* —Please choose an option—NoYes. We design, develop, manufacture and commercialise innovative exoskeleton technology to improve the mobility, health and quality of life of people with disabilities.
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ABLE Human Motion | Next-generation exoskeletons to enable mobility for all
... ABLE Human Motion | Next-generation exoskeletons to enable mobility for ...
South Norfolk, United Kingdom
11-50 Employees
2017
Zapp is a UK company that designs, manufactures and sells high performance electric vehicles. In 2017, we assembled a team of talented designers and engineers to help us realize this vision to design and manufacture electric vehicles. We are committed to original advance design, high performance, safety, quality, customer experience and full-cycle sustainability. Our first entry into the market, the i300, is our embodiment of these values. This starts at our assembly plant, incorporate low energy use, solar power, single station based, automation free systems.
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Zapp | Urban electric high-performance two-wheeler
... EXOSKELETON. ...
Lausanne, Switzerland
1-10 Employees
2021
We provide you with an individual fitting, training program and customised walking assistance. Our mission is to develop a solution which makes a better future for movement impaired people. We are a team of engineers, developers, rehabilitation experts and healthcare professionals. We are interested to hear from you if you wish to participate in the development of autonomyo. Intelligent, human-centered technology is what autonomyo stands for.
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Featured
Start | Autonomyo
... Robotic Exoskeleton ...
Milan, Italy
1-10 Employees
2020
Il primo esoscheletro intelligente progettato per ridurre il rischio di disturbi muscolari delle spalle nella movimentazione manuale dei carichi nell’industria.
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HOME - Italiano - Agade exoskeletons
... HOME - Italiano - Agade exoskeletons ...
Technologies which have been searched by others and may be interesting for you:
Some interesting numbers and facts about the results you have just received for Exoskeleton
| Country with most fitting companies | United Kingdom |
| Amount of fitting manufacturers | 305 |
| Amount of suitable service providers | 168 |
| Average amount of employees | 1-10 |
| Oldest suiting company | 2006 |
| Youngest suiting company | 2022 |
An exoskeleton is a wearable, external framework that provides support, enhances physical capabilities, or protects the body by mimicking its structure and function. Crafted from robust materials such as carbon fiber, metal alloys, or even advanced polymers, these devices are engineered to augment human strength, endurance, and mobility. Exoskeletons find applications across various sectors, including healthcare, where they assist in rehabilitation and mobility for individuals with disabilities, and in industrial settings, where they reduce the risk of workplace injuries by offering support and reducing physical strain during heavy lifting or repetitive tasks. Additionally, military applications leverage exoskeleton technology to enhance soldiers' combat capabilities and resilience. The integration of sensors, actuators, and control systems within exoskeletons allows for seamless human-machine interaction, tailoring the device's response to the wearer's movements and intentions. This symbiosis between human and machine not only amplifies physical abilities but also opens new avenues for research in human biomechanics and robotics. The evolving landscape of exoskeleton technology promises to redefine the limits of human potential, making significant contributions to healthcare, labor, and defense sectors by empowering individuals to perform beyond their natural capabilities.
1. Increased Strength and Endurance
Exoskeletons provide wearers with enhanced strength, allowing them to perform tasks that would typically require much more physical effort. This technology significantly reduces fatigue, enabling users to work longer hours without the risk of strain or injury commonly associated with heavy lifting or repetitive tasks.
2. Improved Mobility
For individuals with mobility impairments, exoskeletons offer a transformative solution. They not only assist in walking or standing but also empower users with a level of independence that traditional mobility aids cannot match. This improved mobility extends to various daily activities, making exoskeletons a superior alternative.
3. Reduced Risk of Workplace Injuries
In occupational settings, exoskeletons play a crucial role in reducing the incidence of work-related injuries. By mechanically supporting the body, they alleviate the stress placed on muscles and joints during physically demanding tasks. This prevention of overexertion significantly lowers the likelihood of musculoskeletal disorders, a common issue in manual labor jobs.
4. Precision and Accuracy
Exoskeletons enhance the precision and accuracy of the wearer during intricate tasks. By stabilizing movements and providing additional support, these devices allow for more controlled and precise operations, particularly in industries where fine motor skills are essential, such as manufacturing or surgery.
While evaluating the different suppliers make sure to check the following criteria:
1. Technical Specifications
Ensure the exoskeleton meets specific requirements for weight, power source, autonomy, and adaptability to different body types.
2. Compliance and Certifications
Check for industry standards compliance and necessary certifications that guarantee safety and efficacy.
3. Customization and Scalability
Determine the supplier's ability to customize the product to specific needs and scale production according to demand.
4. Support and Training
Assess the level of customer support and training provided to ensure effective use and maintenance of the exoskeleton.
5. Warranty and After-Sales Service
Look for comprehensive warranty terms and accessible after-sales service to address any future issues.
6. Cost-effectiveness
Evaluate the total cost of ownership, including purchase price, maintenance costs, and potential operational savings.
7. Innovation and Research
Consider the supplier's commitment to innovation and research for continuous improvement of the exoskeleton technology.
Exoskeleton technology has been increasingly adopted in the manufacturing sector, where it aids workers in lifting heavy objects with minimal strain. This application significantly reduces the risk of workplace injuries, enhancing productivity and ensuring a healthier workforce. Employees equipped with exoskeletons can perform tasks that would otherwise require heavy machinery or multiple workers, streamlining operations and cutting costs. In the healthcare industry, exoskeletons are revolutionizing patient rehabilitation. They assist individuals with mobility impairments, enabling them to walk or regain strength in affected limbs. This technology not only accelerates the recovery process but also provides a semblance of independence to patients, improving their quality of life. The construction industry benefits from exoskeletons by improving worker safety and efficiency on-site. Workers wearing these devices can easily carry heavy materials and tools, reducing fatigue and the likelihood of accidents. This use case highlights the potential of exoskeletons to transform physically demanding jobs, making them safer and more sustainable in the long run. Lastly, exoskeletons find applications in the logistics and warehousing sector, where picking and packing tasks can be labor-intensive. By supporting workers in lifting and moving goods, these devices minimize the occurrence of strain injuries and enhance operational efficiency, allowing companies to meet the growing demands of e-commerce and supply chain management.
Exoskeleton technology, as of the latest advancements, is predominantly positioned at Technology Readiness Level (TRL) 7. This classification signifies that exoskeleton prototypes have been tested in operational environments, showcasing their potential in augmenting human strength, aiding mobility, and enhancing the performance of various tasks across medical, industrial, and military sectors. The progression to TRL 7 is attributed to substantial advancements in materials science, which have enabled the development of lighter, more durable exoskeleton frames. Additionally, breakthroughs in sensor technology and artificial intelligence have significantly improved the intuitiveness and responsiveness of these systems, allowing for seamless human-machine interaction. The integration of advanced power sources has also played a crucial role, offering longer usage periods and making the technology more practical for everyday applications. Despite these achievements, the exoskeleton field continues to navigate challenges related to cost reduction, user comfort, and further integration into diverse operational scenarios, which are essential steps toward achieving higher readiness levels and widespread adoption.
In the Short-Term, advancements in exoskeleton technology are poised to enhance mobility for individuals with physical impairments. The focus is on refining the lightweight design and improving battery efficiency, enabling users to wear these devices for extended periods without discomfort. Integration with AI is expected to enhance the adaptability of exoskeletons to user movements, providing more natural and intuitive support during daily activities. Looking into the Mid-Term phase, the development is likely to pivot towards the widespread application of exoskeletons in industrial settings. Innovations will concentrate on augmenting human strength and endurance, thereby reducing workplace injuries and increasing productivity. Enhanced sensor technology will allow for more precise control and feedback, tailoring the exoskeleton’s response to specific tasks and user needs. This period will also witness the beginning of more affordable models making their way into the market, driven by economies of scale and technological advancements. In the Long-Term, exoskeleton technology is expected to break new ground in human augmentation, potentially blurring the lines between human capabilities and technology. Breakthroughs in materials science could lead to the development of exoskeletons that are not only wearable but also implantable, offering permanent solutions to mobility challenges. Integration with neural interfaces may allow for seamless control of the exoskeleton through thought, offering unprecedented levels of autonomy and functionality for users.
