Using Deep Learning Models to Predict Prosthetic Ankle Torque

Abstract: <p>Inverse dynamics from motion capture is the most common technique for acquiring biomechanical kinetic data. However, this method is time-intensive, limited to a gait laboratory setting, and requires a large array of reflective markers to be attached to the body. A practical alternative must be developed to provide biomechanical information to high-bandwidth prosthesis control systems to enable predictive controllers. In this study, we applied deep learning to build dynamical system models capable of a… Show more

“…With the advent of intelligent materials that can change shape over time or in response to external stimuli, coupled with the ability to place two or more filaments of different polymeric materials, current 3D printing technology opens up new avenues for innovation and progress toward innovative 4D printing technology. Christopher Prasanna (2023) [17] [18] being an additive process, 3D printing has become a viable technique for the production of technical components, in contrast to traditional manufacturing processes. 3D printing is a sustainable technology for industrial application because of its energy efficiency, low post-processing waste, ease of manufacture, low human participation, and minimal material waste.…”

Creating a robust composite material from waste plastic and steel for application in 3D printing

“…With the advent of intelligent materials that can change shape over time or in response to external stimuli, coupled with the ability to place two or more filaments of different polymeric materials, current 3D printing technology opens up new avenues for innovation and progress toward innovative 4D printing technology. Christopher Prasanna (2023) [17] [18] being an additive process, 3D printing has become a viable technique for the production of technical components, in contrast to traditional manufacturing processes. 3D printing is a sustainable technology for industrial application because of its energy efficiency, low post-processing waste, ease of manufacture, low human participation, and minimal material waste.…”

Creating a robust composite material from waste plastic and steel for application in 3D printing