International audienceOverhead work is classified as one of the major risk factors for the onset of shoulder work-related musculoskeletal disorders (WMSDs) and muscle fatigue. Upper-limb exoskeletons can be used to assist workers during the execution of industrial overhead tasks to prevent such disorders. Twelve novice participants have been equipped with inertial and force/torque sensors to simultaneously estimate the whole-body kinematics and the joint torques (i.e., internal articular stress) by means of a probabilistic estimator while performing an overhead taskwith a pointing tool. An evaluation has been performed to analyze the effect at the whole-body level by considering the conditions of wearing and not-wearing PAEXO, a passive exo...
This article reports the analysis and preliminary design of a passive, wearable, upper limb exoskele...
The aim of the study is to evaluate how different levels of assistance provided by an upper-limb exo...
Repetitive lifting of heavy loads increases the risk of back pain and even lumbar vertebral injuries...
Repetitive overhead work with a heavy load increases the risk for work-related shoulder disorders. O...
[EN] Over the years, the industry's interest in using external support devices, such as exoskeletons...
International audienceOverhead work is a frequent cause of shoulder work-related musculoskeletal dis...
Overexertion is a common cause of work related musculoskeletal disorder (WMSD) in the modern industr...
Overhead tasks, mostly in the industrial sector, frequently cause upper limb work-related musculoske...
Designing an upper extremity exoskeleton for people with arm weakness requires knowledge of the join...
Musculoskeletal disorders are caused by repetitive tasks of a specific body part, uncomfortable wor...
In exoskeletal robots, the quantification of the user’s muscular effort is important to recognize th...
Work-related musculoskeletal disorders, reported at shoulder and low back regions, rank among the mo...
This thesis focuses on the assessment and functional validation of an upperlimb exoskeleton (MATE) d...
This dataset contains physical, physiological and subjective measurements of humans performing a man...
This article presents the H-PULSE, a novel semi-passive upper-limb exoskeleton for worker assistance...
This article reports the analysis and preliminary design of a passive, wearable, upper limb exoskele...
The aim of the study is to evaluate how different levels of assistance provided by an upper-limb exo...
Repetitive lifting of heavy loads increases the risk of back pain and even lumbar vertebral injuries...
Repetitive overhead work with a heavy load increases the risk for work-related shoulder disorders. O...
[EN] Over the years, the industry's interest in using external support devices, such as exoskeletons...
International audienceOverhead work is a frequent cause of shoulder work-related musculoskeletal dis...
Overexertion is a common cause of work related musculoskeletal disorder (WMSD) in the modern industr...
Overhead tasks, mostly in the industrial sector, frequently cause upper limb work-related musculoske...
Designing an upper extremity exoskeleton for people with arm weakness requires knowledge of the join...
Musculoskeletal disorders are caused by repetitive tasks of a specific body part, uncomfortable wor...
In exoskeletal robots, the quantification of the user’s muscular effort is important to recognize th...
Work-related musculoskeletal disorders, reported at shoulder and low back regions, rank among the mo...
This thesis focuses on the assessment and functional validation of an upperlimb exoskeleton (MATE) d...
This dataset contains physical, physiological and subjective measurements of humans performing a man...
This article presents the H-PULSE, a novel semi-passive upper-limb exoskeleton for worker assistance...
This article reports the analysis and preliminary design of a passive, wearable, upper limb exoskele...
The aim of the study is to evaluate how different levels of assistance provided by an upper-limb exo...
Repetitive lifting of heavy loads increases the risk of back pain and even lumbar vertebral injuries...