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COMSOL Inc
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Image Search Results
Journal: Sensors (Basel, Switzerland)
Article Title: Learning to Ascend Stairs and Ramps: Deep Reinforcement Learning for a Physics-Based Human Musculoskeletal Model
doi: 10.3390/s22218479
Figure Lengend Snippet: The proposed DRL method for the dynamic optimization of the forward dynamics of a human musculoskeletal model during stairs or ramp ascent.
Article Snippet: The 3D lower-extremity physics-based human
Techniques:
Journal: Sensors (Basel, Switzerland)
Article Title: Learning to Ascend Stairs and Ramps: Deep Reinforcement Learning for a Physics-Based Human Musculoskeletal Model
doi: 10.3390/s22218479
Figure Lengend Snippet: The physics-based human musculoskeletal model developed in this study. Figures from left to right: side view facing the right leg, front view, side view facing the left leg, and back view.
Article Snippet: The 3D lower-extremity physics-based human
Techniques:
Journal: Sensors (Basel, Switzerland)
Article Title: Learning to Ascend Stairs and Ramps: Deep Reinforcement Learning for a Physics-Based Human Musculoskeletal Model
doi: 10.3390/s22218479
Figure Lengend Snippet: The state variables of the human musculoskeletal model.
Article Snippet: The 3D lower-extremity physics-based human
Techniques: Plasmid Preparation
Journal: Sensors (Basel, Switzerland)
Article Title: Learning to Ascend Stairs and Ramps: Deep Reinforcement Learning for a Physics-Based Human Musculoskeletal Model
doi: 10.3390/s22218479
Figure Lengend Snippet: The reward obtained during the learning process of the human musculoskeletal model to ascend the stairs.
Article Snippet: The 3D lower-extremity physics-based human
Techniques:
Journal: Sensors (Basel, Switzerland)
Article Title: Learning to Ascend Stairs and Ramps: Deep Reinforcement Learning for a Physics-Based Human Musculoskeletal Model
doi: 10.3390/s22218479
Figure Lengend Snippet: The reward obtained during the learning process of the human musculoskeletal model to ascend the ramp.
Article Snippet: The 3D lower-extremity physics-based human
Techniques:
Journal: Materials
Article Title: Numerical Prediction of Microstructure Evolution of Small-Diameter Stainless Steel Balls during Cold Skew Rolling
doi: 10.3390/ma16083246
Figure Lengend Snippet: Identified parameters of 316L SS constitutive model.
Article Snippet: In this study, based on the deformation mechanism of 316L stainless steel, a physical mechanism-based
Techniques: