Add to ORKGAbstract—This paper proposes a novel variable torsion stiff-ness (VTS) aiming on biomechanical applications like prosthetic knee joints. By varying the effective length of a torsional elastic element via a relocatable counter bearing, the stiffness of a rotational joint is adjusted. This functional concept is described in detail by the authors as well as the design of such VTS joints. Additionally, analytical models for the transfer behaviour of drivetrain and stiffness control are derived. These are used for a simulative evaluation of a pendulum driven by a VTS unit. Based on the results of this simulation, the power requirements of VTS are analysed. Furthermore, an analysis of its structural strength is presented. For practical comprehens...
The variable stiffness of robot joints plays an important role in improving the robot’s compliance, ...
The variable stiffness actuation concept is considered to provide a human-friendly robot technology....
The development of safe and dependable robots for physical human-robot interaction is actually chang...
Abstract—This paper proposes a novel variable torsion stiffness (VTS) aiming on biomechanical applic...
Introducing compliant actuation to robotic joints is an approach to ensure safety in closer human-ma...
Abstract—Variable stiffness joints are essential for robots or biomechanical applications to generat...
In this paper we present the design and characterization of a novel Passive Variable Stiffness Joint...
Variable stiffness joints are essential for robots or biomechanical applications to generate torque ...
Many mechanisms and applications use mechanical springs for the purpose of reducing shocks, applying...
Due to problems of slow response speed and complex mechanisms, the application of variable stiffness...
A prototype of a variable stiffness prosthetic joint has been constructed and tested. The joint is b...
Most modern intelligent knee prosthesis use dampers to modulate dynamic behavior and prevent excessi...
Abstract — Facing new tasks, the conventional rigid design of robotic joints has come to its limits....
Publisher Copyright: © 2021 Authors.This study presents a novel coupling design with adjustable tors...
Robot joints are expected to be safe, compliant, compact, simple and low-cost. Gravity compensation,...
The variable stiffness of robot joints plays an important role in improving the robot’s compliance, ...
The variable stiffness actuation concept is considered to provide a human-friendly robot technology....
The development of safe and dependable robots for physical human-robot interaction is actually chang...
Abstract—This paper proposes a novel variable torsion stiffness (VTS) aiming on biomechanical applic...
Introducing compliant actuation to robotic joints is an approach to ensure safety in closer human-ma...
Abstract—Variable stiffness joints are essential for robots or biomechanical applications to generat...
In this paper we present the design and characterization of a novel Passive Variable Stiffness Joint...
Variable stiffness joints are essential for robots or biomechanical applications to generate torque ...
Many mechanisms and applications use mechanical springs for the purpose of reducing shocks, applying...
Due to problems of slow response speed and complex mechanisms, the application of variable stiffness...
A prototype of a variable stiffness prosthetic joint has been constructed and tested. The joint is b...
Most modern intelligent knee prosthesis use dampers to modulate dynamic behavior and prevent excessi...
Abstract — Facing new tasks, the conventional rigid design of robotic joints has come to its limits....
Publisher Copyright: © 2021 Authors.This study presents a novel coupling design with adjustable tors...
Robot joints are expected to be safe, compliant, compact, simple and low-cost. Gravity compensation,...
The variable stiffness of robot joints plays an important role in improving the robot’s compliance, ...
The variable stiffness actuation concept is considered to provide a human-friendly robot technology....
The development of safe and dependable robots for physical human-robot interaction is actually chang...