Nuadox’s Post

The deadline is approaching for submissions to our special issue, Wearable Robotics for Rehabilitation, Assistance, and Augmentation! We invite authors to submit original research articles and review papers related but not limited to the following topics. We particularly encourage empirical validation in which studies are performed with human participants: Algorithms for Human-Robot Interaction  Robotics design principles and methodologies Wearable robots for: Human augmentation Rehabilitation Injury prevention Assistance Wearable assistive robots that operate in Industry  Healthcare settings Community exoskeletons and exosuits Machine learning for wearable robotics Sensors for wearable robotics Collaborative and cooperative robotics Human-robot teaming and collaboration Actuation systems for wearable robotics Supervised or shared autonomy in wearable robots User command interfaces for human-robot interaction User experience and user-centered design in robotics Ethics in human-robot interaction research https://lnkd.in/ep_BRSbN

🤖 Robotics in healthcare is making rehabilitation therapy more accessible by providing innovative tools like wearable exoskeletons and robotic devices. These technologies allow patients, including those with neurological conditions, to receive high-quality, consistent therapy, even in remote or underserved areas. 🌟 In Europe, ABLE Human Motion has created the world’s most usable and accessible robotic exoskeletons to improve the mobility, health, and quality of life of people with disabilities. Product Manager, Katlin Kreamer-Tonin and Co-founder and CEO, Alfons Carnicero Carmona, explain more in the video below. If this has piqued your interest, watch our FAQs on robotics in healthcare ▶️ https://loom.ly/gAU3RSI #RoboticsInHealthcare #FutureOfHealth #Wearables

Excited to share my recent CPD on the "Utility of Wearable Sensors in Biomechatronics"! This exploration into cutting-edge technology has broadened my understanding of how wearable sensors can enhance human-machine integration, improving health outcomes and advancing assistive devices. Continuous learning in this field is vital for driving innovation and creating impactful solutions in biomechanics and robotics. #Biomechatronics #WearableTechnology #ContinuousLearning #Innovation

🤖 Robotics in healthcare is making rehabilitation therapy more accessible by providing innovative tools like wearable exoskeletons and robotic devices.    These technologies allow patients, including those with neurological conditions, to receive high-quality, consistent therapy, even in remote or underserved areas.    🌟 In Europe, ABLE Human Motion has created the world’s most usable and accessible robotic exoskeletons to improve the mobility, health, and quality of life of people with disabilities. Product Manager, Katlin Kreamer-Tonin and Co-founder and CEO, Alfons Carnicero Carmona, explain more in the video below.    If this has piqued your interest, watch EIT Health FAQs on robotics in healthcare ▶️ https://loom.ly/gAU3RSI    #RoboticsInHealthcare #FutureOfHealth #Wearables 

Exoskeletons Shine at CES 2025: A Milestone for Wearable Robotics CES 2025 marked an unprecedented year for exoskeleton technology, as highlighted by Borislav Marinov, founder of Exoskeleton Report, in his latest article for Forbes. From robotics to haptic systems, CES has long been the go-to stage for human augmentation technologies, and this year’s showcase set a new benchmark for innovation and recognition in the exoskeleton industry. At German Bionic, we were proud to be part of this transformative moment, debuting our Apogee ULTRA—the smartest and strongest exosuit we’ve ever developed. Designed to empower workers in industries like logistics, manufacturing, and healthcare, it embodies our mission to enhance human potential through cutting-edge wearable robotics. The Apogee ULTRA stood out among the crowd, earning attention from global media and industry leaders alike. As the exoskeleton market grows, it’s clear that solutions like ours are no longer just futuristic concepts—they’re essential tools for creating safer, more sustainable workplaces. A huge thank you to Bobby for shining a spotlight on the evolution of our industry. Read the full article here: https://lnkd.in/ePfUKu5W #CES2025 #Exoskeletons #WearableRobotics #Robotics #AI #HumanAugmentation

The Hypershell AI exoskeleton is a wearable device designed to augment human movement using robotics, ergonomics, and artificial intelligence. It's essentially a robotic suit for the legs, designed to give people extra strength and support, making activities like hiking or running easier. This is a great example of how AI is moving beyond our phones and laptops. It's all about innovation that can improve people's lives! ------ Follow Muhammad Ehsan for more tech stuff. #ai #innovation #tech #robotics #artificialintelligence #exoskeleton #wearabletech #augmentation #humanmovement #hypershell #ergonomics #technology #futuretech #assistivetechnology #wearabledevice #smarttech #innovative #healthtech #lifetech

#Wearable #Medical #Robot #Market Size and Projections The Wearable Medical Robot Market Size was valued at USD 1.8 Billion in 2023 and is expected to reach USD 3.24 Billion by 2031, growing at a 7.5% CAGR from 2024 to 2031. The report comprises of various segments as well an analysis of the trends and factors that are playing a substantial role in the market. Technological developments and the growing need for individualized healthcare solutions are driving a spectacular increase in the wearable medical robot market. By providing precise medication distribution, real-time monitoring, and rehabilitation support, these cutting-edge gadgets improve patient care and treatment results. Furthermore, the aging population and the increased incidence of chronic illnesses are driving market growth. Furthermore, wearable medical robots are undergoing a revolution in efficiency and user-friendliness due to the integration of artificial intelligence and machine learning capabilities. This market is expected to increase significantly with continued research and development, which bodes well for improved healthcare delivery in the future. key Players Ekso Bionics Rewalk Robotics Parker Hannifin Bionik Laboratories CYBERDYNE, INC.

-Biomechanics and Human Augmentation 🦾 Robotics is advancing prosthetics and wearable technology to unprecedented levels. Bionic limbs now provide sensory feedback and precise control. Wearable exoskeletons enhance worker productivity and safety in physically demanding jobs. 💡 Example: Exoskeletons allow construction workers to lift heavy objects with reduced physical strain. Why It Matters: These advancements blur the line between human and machine, redefining physical capabilities.

For a soccer enthusiast, how thrilling it is to capture and analyze the postures of soccer players using NOKOV motion capture system! 😆 #MotionCapture #SportsPerformanceAnalysis

AI powered exoskeleton themes have been dominating and the news for a couple of weeks now. Goes to show that AI is not a pretty buzzword, or a fad. For students entering into the exoskeleton world, to be fascinated by robotics and AI is not far-fetched. ‘Tis why there should not be a battle between the eye/powered/smart EXOs and passive XO that are particularly fabric, wire or elastic based. There is a role and fascination for different types of EXO – hopefuls! #exosuits #wearables #biomechanics #exoskeletons #exosforall https://lnkd.in/eabcU7g6