Add to ORKGAvailable automatic footwear testing systems still lack flexibility and bio-fidelity to represent the human foot and reproduce the wear conditions accurately. The first part of this article introduces a new design of the robotic running foot for footwear testing using cable conduit mechanisms. This robotic running foot is integrated with an upper leg mechanism to form a complete integrated footwear testing system. The cable conduit mechanisms help remove the bulky actuators and transmissions out of the fast-moving robotic foot. Thus, this robotic running foot design not only allows high-power actuators to be installed, but also avoids a significant dynamic mass and inertia effects on the upper leg mechanism. This means that the integrated f...
A main effort has been devoted in this thesis to consider the effects of the actuator components (i....
It has been recognized that that the design and prescription of Energy Storing and Returning prosthe...
We present work to transfer decentralized neuromuscular control strategies of human locomotion to po...
© 2018 Elsevier Ltd As the shoe durability is affected directly by the dynamic force/pressure betwee...
Footwear effects on the human feet have been widely studied to prevent injuries, improve sports p...
Every footwear manufacturers is competing to make the best footwear in term of cushioning, flexibili...
Part of the testing process for athletic footwear is exposing the shoes to realistic wear conditions...
Supernumerary robotic limbs (SRLs) can be used to provide a person with extra arms to help with diff...
Mechanical devices currently used to test sports equipment are limited to one or two degrees of free...
AbstractMechanical testing plays an important role in the development of athletic footwear. Typicall...
Artificial intelligence is a valuable tool to develop a footwear testing machine for a robotic run...
AbstractThis paper describes a method for testing in running shoes based on a test method for endura...
The Automated Footwear Testing System (AFTS) is a robotic system designed to replicated the movement...
INTRODUCTION: Rearfoot motion can be quantified in three dimensions by examining the movements of th...
Throughout human history, running has evolved from a form of locomotion to a recreation or competiti...
A main effort has been devoted in this thesis to consider the effects of the actuator components (i....
It has been recognized that that the design and prescription of Energy Storing and Returning prosthe...
We present work to transfer decentralized neuromuscular control strategies of human locomotion to po...
© 2018 Elsevier Ltd As the shoe durability is affected directly by the dynamic force/pressure betwee...
Footwear effects on the human feet have been widely studied to prevent injuries, improve sports p...
Every footwear manufacturers is competing to make the best footwear in term of cushioning, flexibili...
Part of the testing process for athletic footwear is exposing the shoes to realistic wear conditions...
Supernumerary robotic limbs (SRLs) can be used to provide a person with extra arms to help with diff...
Mechanical devices currently used to test sports equipment are limited to one or two degrees of free...
AbstractMechanical testing plays an important role in the development of athletic footwear. Typicall...
Artificial intelligence is a valuable tool to develop a footwear testing machine for a robotic run...
AbstractThis paper describes a method for testing in running shoes based on a test method for endura...
The Automated Footwear Testing System (AFTS) is a robotic system designed to replicated the movement...
INTRODUCTION: Rearfoot motion can be quantified in three dimensions by examining the movements of th...
Throughout human history, running has evolved from a form of locomotion to a recreation or competiti...
A main effort has been devoted in this thesis to consider the effects of the actuator components (i....
It has been recognized that that the design and prescription of Energy Storing and Returning prosthe...
We present work to transfer decentralized neuromuscular control strategies of human locomotion to po...