Model-Based Biomechanical Exoskeleton Concept Optimization for a Representative Lifting Task in Logistics

Abstract: Occupational exoskeletons are a promising solution to prevent work-related musculoskeletal disorders (WMSDs). However, there are no established systems that support heavy lifting to shoulder height. Thus, this work presents a model-based analysis of heavy lifting activities and subsequent exoskeleton concept optimization. Six motion sequences were captured in the laboratory for three subjects and analyzed in multibody simulations with respect to muscle activities (MAs) and joint forces (JFs). The most strenuou… Show more

“…Specifically, the deltoid SWVs correlated with the timed lifting of light and heavy cans, while biceps SWVs only correlated with the timed lifting of heavy cans. Physiological studies show that lifting light objects requires minimal additional weight while lifting heavy objects engages both shoulder and elbow segments muscle for stability [42] , [43] . Thus, ambulant DMD patients with advanced deltoid and biceps involvement struggle to lift heavy objects efficiently.…”

Acoustic radiation force impulse shear wave elastography quantifies upper limb muscle in patients with Duchenne muscular dystrophy

“…Specifically, the deltoid SWVs correlated with the timed lifting of light and heavy cans, while biceps SWVs only correlated with the timed lifting of heavy cans. Physiological studies show that lifting light objects requires minimal additional weight while lifting heavy objects engages both shoulder and elbow segments muscle for stability [42] , [43] . Thus, ambulant DMD patients with advanced deltoid and biceps involvement struggle to lift heavy objects efficiently.…”

Acoustic radiation force impulse shear wave elastography quantifies upper limb muscle in patients with Duchenne muscular dystrophy

“…Effective use of wearable robots requires proper training, and soldiers will need time to integrate these new technologies. There needs to be an investigation into the impact on the user's physical health, including potential strain on joints and muscles, as well as the physiological aspects of wearable robots [71,72]. The load on other body parts can increase depending on a task and wearable robot.…”

Current State, Needs, and Opportunities for Wearable Robots in Military Medical Rehabilitation and Force Protection

Modelling for design and evaluation of industrial exoskeletons: A systematic review