Category: Wearable Technologies
Newly Archived Webinar Recordings Highlighting How Emerging Technologies Can Prevent Work-related Musculoskeletal Disorders
NIOSH recently posted seven webinars to YouTube highlighting the use of emerging technologies to prevent work-related musculoskeletal disorders (WMSDs). Although the webinars are from 2018-2021, the content is still informative and relevant and receiving praise from those in the industry. The series of webinars focuses on using emerging technologies as interventions or for conducting Read More >
Posted on by 1 CommentExoskeletons: Potential for Preventing Work-related Musculoskeletal Injuries and Disorders in Construction Workplaces
Construction workers are at high risk for work-related musculoskeletal disorders (WMSDs). One potential tool to prevent WMSDs is the use of exoskeletons, which are assistive devices that can be suitable for construction and other industrial work (see related NIOSH pages on robotics and the Center for Occupational Robotics Research). Exoskeletons can be categorized as passive Read More >
Posted on by 2 CommentsExoskeletons and Occupational Health Equity
In the workplace, you need your equipment to fit perfectly. Historically, personal protective equipment (PPE) had been developed from measurements taken from male military recruits in the United States during the 1950s to the 1970s [1]. These data do not represent the range of body shapes and sizes in the majority of the modern Read More >
Posted on by 7 CommentsCan Exoskeletons Reduce Musculoskeletal Disorders in Healthcare Workers?
Musculoskeletal Disorders (MSDs) remain a major concern for workers in the healthcare industry. Healthcare workers are at high risk of work-related MSDs mainly caused by overexertion from lifting and moving patients (i.e., patient handling). Wearable robots—exoskeletons or exosuits—may be a useful tool to help reduce risk of MSDs during patient handling. Background Based on the Read More >
Posted on by 3 CommentsAssessing Lifting Risk Factors Using Wearable Motion Sensors
A combination of work-related physical risk factors such as awkward postures or heavy lifting may lead to an increased risk of developing low back issues. Those in the occupational safety and health field continue to conduct research to prevent workplace musculoskeletal injuries. Researchers have used industry settings, self-reports and observational methods to evaluate these injuries. Read More >
Posted on by 4 CommentsIndustrial Exoskeletons
Exoskeletons used in the workplace are referred to as “industrial exoskeletons.” Their purpose is to augment, amplify, or reinforce the performance of a worker’s existing body components—primarily the lower back and the upper extremity (arms and shoulders). Despite a lack of research, manufacturers of these devices claim productivity gains, work quality improvements, and a reduction Read More >
Posted on by 8 CommentsWearable Technologies for Improved Safety and Health on Construction Sites
Background Wearable technologies are an increasingly popular consumer electronic for a variety of applications at home and at work. In general, these devices include accessories and clothing that incorporate advanced electronic technologies, often with smartphone or ‘internet of things’ (IoT) connectivity. While wearables are increasingly being used to improve health and well-being by aiding in Read More >
Posted on by 5 CommentsArtificial Intelligence: Implications for the Future of Work
What does Artificial Intelligence (AI) have to do with workplace safety and health? NIOSH has been at the forefront of workplace safety and robotics, creating the Center for Occupational Robotics Research (CORR) and posting blogs such as A Robot May Not Injure a Worker: Working safely with robots. However, much remains unknown regarding the related Read More >
Posted on by 65 CommentsRight Sensors Used Right: A Life-cycle Approach for Real-time Monitors and Direct Reading Methodologies and Data. A Call to Action for Customers, Creators, Curators, and Analysts
The Right Sensors Used Right Approach Right Sensors Used Right is an approach of the NIOSH Center for Direct Reading and Sensor Technologies. The objective is to promote the competent development, adoption, and interpretation of real-time monitors and direct-reading methodologies. It also aims to improve the interpretation of the data for taking action in work Read More >
Posted on by 2 CommentsThe Use of Real-time Respirable Dust Monitors
Sensors are an increasing presence in our lives—from wearable gadgets to smart buildings, from autonomous vehicles to smart cities. In occupational health and safety, sensors are used widely for exposure monitoring, emergency response, and safer worker-machine interfaces. The use of sensors as real-time respirable dust monitors is a targeted application with its own specific challenges. Read More >
Posted on by 4 CommentsExoskeletons in Construction: Will they reduce or create hazards?
Wearable exoskeleton devices can reduce some of the mechanical stress of manual labor (1). These wearable machines can be powered by electricity or by human motion, and they can be as large as a space suit or as small as a glove. (1; 2) They are used to amplify or transform worker movements, improve biomechanics Read More >
Posted on by 4 CommentsContinuous Personal Dust Monitor
Until recently, underground coal miners and mine operators had little way of knowing—in real time—if miners were being exposed to hazardous levels of respirable coal dust during their shifts. NIOSH collaborated with an instrument manufacturer, government partners, labor representatives, and coal industry leaders to develop the continuous personal dust monitor (CPDM), a technology that offers Read More >
Posted on by 5 CommentsWearable Sensors: An Ethical Framework for Decision-Making
Wearable sensors are all the rage. They give us information about our health, fitness, productivity and safety. However, downsides to this technology are accuracy and security of the data and challenges to personal privacy. How wearable technology is used in occupational safety and health research and practice is evolving. Wearable sensors can detect and alert Read More >
Posted on by 10 CommentsWearable Exoskeletons to Reduce Physical Load at Work
Robotic-like suits which provide powered assist and increase human strength may conjure thoughts of sci-fi and superhero film genres. But these wearable exoskeleton devices are now a reality and the market for their applications in the workplace is projected to increase significantly in the next five years. As with any technologic innovation some of the Read More >
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