Wearable Robotics 'Significantly Boost Safety And Efficiency' In Industrial Environments, Says Report Robotics & Automation News

(MENAFN- Robotics & automation News) Wearable robotics 'significantly boost safety and efficiency' in industrial environments, says report

Verve Motion , a Harvard University spinout dedicated to industrial worker safety, has released the results of an extensive, multi-year study on wearable robotics in the workplace.

This landmark research quantifies critical metrics related to back and hip injuries and demonstrates substantial benefits for industrial workers using soft exosuit devices, including a significant reduction in workplace injuries and enhanced worker well-being.

The four-year study, the first of its kind, tracked ergonomics, safety, and injury metrics across more than 65 million lifts at over 40 sites in five industries: Construction, Food & Beverage, Logistics, Manufacturing, and Retail.

The findings offer unprecedented insights into the impact of soft exosuits on physically demanding jobs where workers engage in rigorous, repetitive tasks, such as case picking, manufacturing, order picking, and shipping and receiving, routinely lifting between 10,000 and 60,000 pounds per day.

In selecting the variables to capture in the safety study, Verve Motion modeled its metrics on Marras et al, a 1995 landmark study in ergonomics and occupational health, where the team analyzed over 400 industrial lifting jobs and identified several variables (for example, lifting frequency, the degree of forward bending, and twisting velocity) correlated with the risk of occupational-related lower back disorders.

Ignacio Galiana, CEO and co-founder of Verve Motion, says:“In conducting this data analysis, Verve Motion collaborated with customers across a number of sectors with the focus on metrics that matter most to them, particularly injury reduction, productivity improvement, employee well-being, and retention.

“We then analyzed how incorporating a soft exosuit ergonomically performed in environments that involved repetitive lifting, lowering, and bending – tasks performed hundreds or thousands of times daily.”

Among key transformational insights into workplace safety and productivity, the data analysis revealed:

The study identified the Food & Beverage, Logistics, and Retail sectors as having the most intense and least safe lifting activities, with employees averaging approximately 200 lifts per hour.

Case picking was noted as the occupation with the highest lift rate, averaging 196 lifts per hour, with some sites exceeding 300 lifts per hour.

More than 50 percent of these lifts involved deep lifts, with trunk flexion exceeding 40 degrees, and the heaviest loads exceeding 30,000 pounds per day on average.

Dangerous movements leading to lower back and hip injuries were also highlighted. Bending at the waist accounted for 55-65% of all lifts, twisting for 20-25%, side bending for 10-12%, and excessive forward bending for 15-20%, all of which are well-known risk factors for injuries.

The use of exosuits led to a dramatic reduction in workplace injuries, ranging from 60-85% reduction per site.

For example, at one distribution center which typically experienced one injury every 14,300 hours (roughly one out of seven full-time workers), the ongoing use of an exosuit resulted in just one injury every 94,000 hours, a 5.5-fold improvement (one out of 47 full-time workers).

The soft exosuit not only provided lifting assistance but also encouraged safer movements. The study observed a 36% reduction in unsafe lifts among associates who wore the suit for five months or longer.

The consistent use of exosuits resulted in an average productivity boost of 4.7%, with improvements ranging from 1.5% to 7.9% across the studied sites.

Additionally, the worker productivity distribution became significantly tighter, indicating more consistent performance among workers.

The majority of users (97%) reported that exosuits assisted in their work, with strong positive sentiment (95%), reduced back muscle soreness (87%), less fatigue (79%), and increased job satisfaction (95%).

Companies also reported higher worker retention rates, underscoring the benefits of exosuit devices beyond physical safety.

The study findings also underscored the critical importance of a strong safety culture and committed collaboration at the deployment site for the successful adoption of exosuits.

The research revealed that without these foundational elements, even the most sophisticated technology cannot reach its full potential in enhancing workplace safety.

The analysis highlighted the necessity of cultivating a safety-first environment to effectively drive technological advancements and change.

Galiana says:“The data from this multi-year study confirms the transformative impact wearable robotics can have on reducing workplace injuries in high-risk industries.

“This emphasizes the exosuit's role not just as personal protective equipment, but as a catalyst for industry-wide change and sets a new benchmark for workplace safety and innovation.”

Back injuries are a major concern in workplace safety, affecting millions of workers annually. Occupational back pain is the most common type of injury reported, with more than one million US workers affected each year.

The Occupational Safety and Health Administration estimates that the costs associated with back injury claims, including medical expenses and lost wages, range from $40,000 to $80,000 per incident.

Developed at Harvard's Biodesign Lab, the SafeLift exosuit, which was used in this study, is the world's first soft exosuit designed for industrial use.

Tailored to each worker and task, the exosuit offers adaptive assistance by combining real-time motion sensing with robotic support.

It functions like a lightweight backpack, reducing back strain by about 40 percent during a typical workday and includes a cloud platform with sensors that detect risky movements, enhancing injury prevention and workplace ergonomics through coaching.

SafeLift's inertial measurement units identify critical motions associated with back disorder risks, such as excessive torso bending and twisting, providing targeted support that decreases the workload on biological muscles.

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