Add to ORKGVariable stiffness joints are essential for robots or biomechanical applications to generate torque with sufficient compliance to ensure safety simultaneously. This paper presents the dimensioning of the elastic element for an actuator with Variable Torsion Stiffness (VTS). Analytical and finite element calculations are compared to experimental evaluation of a splined shaft profile realized in a prototype implementation. Based on simplifications and effects in the real test-rig the results show similar behaviour. Furthermore, an analytical and finite element investigation of four cross-sections with torsional load illustrate optimal utilization of cylindrical geometries considering the torsional stress. In contrast, the low stressed edges o...
Variable Stiffness Actuator (VSA) is the core mechanism to achieve physical human–robot intera...
Industrial robots are commonly designed to be very fast and stiff in order to achieve extremely prec...
Industrial robots are commonly designed to be very fast and stiff in order to achieve extremely prec...
Abstract—Variable stiffness joints are essential for robots or biomechanical applications to generat...
Introducing compliant actuation to robotic joints is an approach to ensure safety in closer human-ma...
Abstract—This paper proposes a novel variable torsion stiff-ness (VTS) aiming on biomechanical appli...
Abstract—This paper proposes a novel variable torsion stiffness (VTS) aiming on biomechanical applic...
Many mechanisms and applications use mechanical springs for the purpose of reducing shocks, applying...
In this paper we report on the design, modeling, experimental testing and scaling analysis of a nove...
Variable stiffness actuators can be used in order to achieve a suitable trade-off between performanc...
This paper reports about the virtual and physical prototyping of an antagonistic Variable Stiffness ...
Variable stiffness actuators (VSA) are an emerging advanced driving method for robotic joint in phys...
Robot joints are expected to be safe, compliant, compact, simple and low-cost. Gravity compensation,...
In robotics, a manipulator is often referred to a device, which is used to control without any direc...
Variable stiffness actuators can be used in order to achieve a suitable trade-off between performanc...
Variable Stiffness Actuator (VSA) is the core mechanism to achieve physical human–robot intera...
Industrial robots are commonly designed to be very fast and stiff in order to achieve extremely prec...
Industrial robots are commonly designed to be very fast and stiff in order to achieve extremely prec...
Abstract—Variable stiffness joints are essential for robots or biomechanical applications to generat...
Introducing compliant actuation to robotic joints is an approach to ensure safety in closer human-ma...
Abstract—This paper proposes a novel variable torsion stiff-ness (VTS) aiming on biomechanical appli...
Abstract—This paper proposes a novel variable torsion stiffness (VTS) aiming on biomechanical applic...
Many mechanisms and applications use mechanical springs for the purpose of reducing shocks, applying...
In this paper we report on the design, modeling, experimental testing and scaling analysis of a nove...
Variable stiffness actuators can be used in order to achieve a suitable trade-off between performanc...
This paper reports about the virtual and physical prototyping of an antagonistic Variable Stiffness ...
Variable stiffness actuators (VSA) are an emerging advanced driving method for robotic joint in phys...
Robot joints are expected to be safe, compliant, compact, simple and low-cost. Gravity compensation,...
In robotics, a manipulator is often referred to a device, which is used to control without any direc...
Variable stiffness actuators can be used in order to achieve a suitable trade-off between performanc...
Variable Stiffness Actuator (VSA) is the core mechanism to achieve physical human–robot intera...
Industrial robots are commonly designed to be very fast and stiff in order to achieve extremely prec...
Industrial robots are commonly designed to be very fast and stiff in order to achieve extremely prec...