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Wearable exoskeletons are electro-mechanical systems designed to assist, augment or enhance motion and mobility in a variety of human motion applications and scenarios. The development of effective and affordable wearable exoskeletons poses several design, control and modelling challenges to researchers and manufacturers. In this book, the editors and authors report recent advances and technology breakthroughs in exoskeleton developments.
Item #:
21783373
Wearable Exoskeleton Systems: Design, control and applications (Control, Robotics and Sensors)
Item #:
21783373
AUD 165
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Wearable exoskeletons are electro-mechanical systems designed to assist, augment or enhance motion and mobility in a variety of human motion applications and scenarios. The development of effective and affordable wearable exoskeletons poses several design, control and modelling challenges to researchers and manufacturers. In this book, the editors and authors report recent advances and technology breakthroughs in exoskeleton developments.
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What Stands Out
Enhanced Mobility
Wearable exoskeletons significantly augment user mobility and strength, enabling those with physical limitations to perform daily tasks more independently and efficiently, thus improving overall quality of life.
Advanced Control Mechanisms
Equipped with sophisticated sensors and control algorithms, these systems offer precision in movement tracking, ensuring that users experience seamless interaction, enhancing usability and comfort.
Versatile Applications
Designed for diverse sectors, from rehabilitation to industrial applications, these exoskeletons provide tailored solutions that address specific user needs, delivering exceptional value across various environments.
Product Details
- Wearable exoskeletons are electro-mechanical systems designed to assist, augment, or enhance motion and mobility in a variety of human motion applications and scenarios. The applications, ranging from providing power supplementation to assist the wearers to situations where human motion is resisted for exercising applications, cover a wide range of domains such as medical devices for patient rehabilitation training recovering from trauma, movement aids for disabled persons, personal care robots for providing daily living assistance, and reduction of physical burden in industrial and military applications. The development of effective and affordable wearable exoskeletons poses several design, control and modelling challenges to researchers and manufacturers. Novel technologies are therefore being developed in adaptive motion controllers, human-robot interaction control, biological sensors and actuators, materials and structures, etc.In this book, the editors and authors report recent advances and technology breakthroughs in exoskeleton developments. It will be of interest to engineers and researchers in academia and industry as well as manufacturing companies interested in developing new markets in wearable exoskeleton robotics.
| Publisher | The Institution of Engineering and Technology |
| Publication date | May 11, 2018 |
| Language | English |
| Print length | 408 pages |
| ISBN-10 | 1785613022 |
| ISBN-13 | 978-1785613029 |
| Item Weight | 1.7 pounds (770 grams) |
| Dimensions | 6.4 x 1 x 9.4 inches (16.3 x 2.5 x 23.9 cm) |
| Part of series | Control, Robotics and Sensors |
Who Should Buy?
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Rehabilitation Patients
Ideal for individuals recovering from injuries, providing support and mobility enhancement during physical therapy sessions.
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Industrial Workers
Beneficial for workers in physically demanding jobs, reducing strain and preventing injuries while enhancing productivity.
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Mobility Impaired
Useful for individuals with disabilities or mobility impairments, helping them regain independence and improve their quality of life.
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Casual Users
Not suitable for everyday users or casual wear, as the complexity and cost may be prohibitive for general use.
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Limited Budget
Not ideal for individuals or institutions with tight financial constraints, given the high costs associated with exoskeleton technology.
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Non-technical Users
May pose challenges for users lacking technical knowledge, as setup and operation require understanding of advanced systems.
Product Description
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Customer Questions & Answers
-
Question:
What are wearable exoskeleton systems and how do they work?
Answer: Wearable exoskeleton systems are robotic devices designed to be worn on the body to assist with movement or support physical tasks. They work by using motors and sensors to read user intentions through movements, providing augmentation or rehabilitation support. For instance, individuals with mobility challenges can use exoskeletons for walking, while industrial workers may enhance strength and reduce fatigue during repetitive tasks. -
Question:
What are the key applications of wearable exoskeleton systems?
Answer: Wearable exoskeleton systems have diverse applications in rehabilitation, military, and industrial sectors. They are effective for physical therapy in rehabilitation centers, enhancing soldiers' performance in military missions, and increasing productivity in manufacturing environments. For example, physiotherapists utilize exoskeletons to help patients regain leg function after injuries, while factories implement them to reduce the physical strain on workers. -
Question:
Can wearable exoskeletons enhance everyday mobility for seniors?
Answer: Yes, wearable exoskeletons can significantly enhance mobility for seniors by providing additional support and strength. These systems allow older adults to regain independence in activities like walking or standing, which promotes better quality of life. For instance, an elderly user can safely navigate stairs with assistance from an exoskeleton, reducing the risk of falls and encouraging more active lifestyles. -
Question:
How are wearable exoskeleton systems controlled?
Answer: Control of wearable exoskeletons typically involves sensors that detect user movements and intentions. These sensors translate physical cues into corresponding actions by the exoskeleton. For example, an integrated motion sensor can trigger a mechanical response to assist lifting an object when the user bends down. This intuitive interface allows users to control the exoskeleton seamlessly and naturally. -
Question:
What technologies are used in the design of wearable exoskeleton systems?
Answer: Wearable exoskeletons leverage advanced technologies including motor control, robotics, artificial intelligence, and lightweight materials like carbon fiber. These technologies enable exoskeletons to be adaptable, responsive, and comfortable for users. For example, AI algorithms allow these systems to learn user habits and optimize support tailored to individual needs, enhancing the overall functionality and user experience. -
Question:
Are wearable exoskeleton systems suitable for rehabilitation?
Answer: Absolutely, wearable exoskeletons are tailored for rehabilitation purposes, promoting recovery in individuals with mobility impairments. These systems provide crucial support during physical therapy, helping patients retrain muscles and regain mobility. For instance, users recovering from a stroke can practice walking with the aid of an exoskeleton, ensuring they build strength while minimizing stress on vulnerable limbs. -
Question:
What are the benefits of using wearable exoskeletons in industrial settings?
Answer: Using wearable exoskeletons in industrial settings can lead to increased productivity, reduced injury rates, and lower worker fatigue. These systems help employees lift heavy objects safely, minimizing the risk of musculoskeletal disorders. For example, warehouse workers deploying exoskeletons can handle boxes more efficiently, improving overall operational speed while ensuring their wellbeing. -
Question:
How do I choose the right wearable exoskeleton for my needs?
Answer: Choosing the right wearable exoskeleton involves assessing your specific requirements such as intended use, user ability, and environmental factors. It's essential to evaluate features like control interfaces, weight, and adjustability. For instance, a user requiring rehabilitation may benefit from a device with advanced adaptive control, while industrial users might prioritize durability and ease of movement. -
Question:
What is the future of wearable exoskeleton systems?
Answer: The future of wearable exoskeleton systems appears promising, with advancements in technology leading to smarter, more versatile designs. Research is ongoing into AI enhancements, battery efficiency, and personalized user experience. Future applications may include more widespread use in physical therapy practices, military operations, and daily mobile assistance, making them essential tools in health, work, and rehabilitation. -
Question:
Where can I buy Wearable Exoskeleton Systems: Design, control and applications in Kiribati?
Answer: You can purchase 'Wearable Exoskeleton Systems: Design, control and applications' from Ubuy, which offers a wide range of products and often has the latest editions available. Ubuy is an excellent platform to find specialized books and resources in various categories, ensuring you get quality products delivered to your region.
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Pros
- Enhanced mobility
- Robust design
- Versatile applications
- User-friendly controls
- Improved rehabilitation
Cons
- High cost
Product Price History
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AUD 165
Order now and get it around Tuesday, July 07
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QTY:
Only 4 items left in stock.
Secured transaction
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Features & Benefits
- Wearable exoskeletons are designed to assist human motion applications
- There are various applications including rehabilitation training, movement aids for disabled persons, personal care robots, and reducing physical burden in industrial and military applications
- Design, control, and modelling challenges to researchers and manufacturers
- The book provides insights into recent advances and technology breakthroughs in exoskeleton developments