Ten steps to becoming a musculoskeletal simulation expert: a half-century of progress and outlook for the future
Over the past half-century, musculoskeletal simulations have deepened our knowledge of
human and animal movement. This article outlines ten steps to becoming a musculoskeletal …
human and animal movement. This article outlines ten steps to becoming a musculoskeletal …
A review of combined functional neuroimaging and motion capture for motor rehabilitation
Background Technological advancements in functional neuroimaging and motion capture
have led to the development of novel methods that facilitate the diagnosis and rehabilitation …
have led to the development of novel methods that facilitate the diagnosis and rehabilitation …
Human motion capture, reconstruction, and musculoskeletal analysis in real time
U Lugrís, M Pérez-Soto, F Michaud… - Multibody System …, 2024 - Springer
Optical motion capture is an essential tool for the study and analysis of human movement.
Currently, most manufacturers of motion-capture systems provide software applications for …
Currently, most manufacturers of motion-capture systems provide software applications for …
Fusion of wearable kinetic and kinematic sensors to estimate triceps surae work during outdoor locomotion on slopes
Muscle–tendon power output is commonly assessed in the laboratory through the work loop,
a paired analysis of muscle force and length during a cyclic task. Work-loop analysis of …
a paired analysis of muscle force and length during a cyclic task. Work-loop analysis of …
A wearable real-time kinetic measurement sensor setup for human locomotion
Current laboratory-based setups (optical marker cameras+ force plates) for human motion
measurement require participants to stay in a constrained capture region which forbids rich …
measurement require participants to stay in a constrained capture region which forbids rich …
Method for using IMU-based experimental motion data in BVH format for musculoskeletal simulations via OpenSim
I Wechsler, A Wolf, S Fleischmann, J Waibel, C Molz… - Sensors, 2023 - mdpi.com
Biomechanical simulation allows for in silico estimations of biomechanical parameters such
as muscle, joint and ligament forces. Experimental kinematic measurements are a …
as muscle, joint and ligament forces. Experimental kinematic measurements are a …
Tap** Into Skeletal Muscle Biomechanics for Design and Control of Lower Limb Exoskeletons: A Narrative Review
Lower limb exoskeletons and exosuits (“exos”) are traditionally designed with a strong focus
on mechatronics and actuation, whereas the “human side” is often disregarded or minimally …
on mechatronics and actuation, whereas the “human side” is often disregarded or minimally …
Role of joint interactions in upper limb joint movements: a disability simulation study using wearable inertial sensors for 3D motion capture
Restriction of movement at a joint due to disease or dysfunction can alter the range of motion
(ROM) at other joints due to joint interactions. In this paper, we quantify the extent to which …
(ROM) at other joints due to joint interactions. In this paper, we quantify the extent to which …
Online non-collocated estimation of payload and articular stress for real-time human ergonomy assessment
Improving the quality of work for human beings is receiving a lot of attention from multiple
research communities. In particular, digital transformation in human factors and ergonomics …
research communities. In particular, digital transformation in human factors and ergonomics …
[HTML][HTML] Perspective on “in the wild” movement analysis using machine learning
Recent advances in wearable sensing and machine learning have created ample
opportunities for “in the wild” movement analysis in sports, since the combination of both …
opportunities for “in the wild” movement analysis in sports, since the combination of both …