Add to ORKGModern robot applications benefit from including variable stiffness actuators (VSA) in the kinematic chain. In this paper, we focus on VSA utilizing a magnetic spring made of two coaxial rings divided into alternately magnetized sections. The torque generated between the rings is opposite to the angular deflection from equilibrium and its value increases as the deflection grows – within a specific range of angles that we call a stable range. Beyond the stable range, the spring exhibits negative stiffness what causes problems with prediction and control. In order to avoid it, it is convenient to operate within a narrower range of angles that we call a safe range. The magnetic springs proposed so far utilize few pairs of arc magnets, and thei...
Variable stiffness actuators (VSA) are an emerging advanced driving method for robotic joint in phys...
The increasing use of Variable Stiffness Actuators (VSAs) in robotic joints is helping robots to mee...
Legged and gait-assistance robots can walk more efficiently if their actuators are compliant. The ad...
The development of VIA has gained prominence in recent years, driven by the desire for robots to wor...
In this paper we report on the design, modeling, experimental testing and scaling analysis of a nove...
The high stiffness of conventional robots is beneficial in attaining highly accurate positioning in ...
Variable stiffness actuators can be used in order to achieve a suitable trade-off between performanc...
International audienceRecently, variable stiffness actuators (VSAs) have been introduced for reducin...
Human-machine collaboration is an inevitable development trend of robots, and the variable stiffness...
Theoretical studies suggest and experimental evidence confirms that maintaining and changing human j...
Variable Stiffness Actuator (VSA) is the core mechanism to achieve physical human–robot intera...
Many mechanisms and applications use mechanical springs for the purpose of reducing shocks, applying...
none4noIndustrial robots are commonly designed to be very fast and stiff in order to achieve extreme...
Industrial robots are commonly designed to be very fast and stiff in order to achieve extremely prec...
In this paper, a novel variable stiffness mechanism is presented, which is capable of achieving an o...
Variable stiffness actuators (VSA) are an emerging advanced driving method for robotic joint in phys...
The increasing use of Variable Stiffness Actuators (VSAs) in robotic joints is helping robots to mee...
Legged and gait-assistance robots can walk more efficiently if their actuators are compliant. The ad...
The development of VIA has gained prominence in recent years, driven by the desire for robots to wor...
In this paper we report on the design, modeling, experimental testing and scaling analysis of a nove...
The high stiffness of conventional robots is beneficial in attaining highly accurate positioning in ...
Variable stiffness actuators can be used in order to achieve a suitable trade-off between performanc...
International audienceRecently, variable stiffness actuators (VSAs) have been introduced for reducin...
Human-machine collaboration is an inevitable development trend of robots, and the variable stiffness...
Theoretical studies suggest and experimental evidence confirms that maintaining and changing human j...
Variable Stiffness Actuator (VSA) is the core mechanism to achieve physical human–robot intera...
Many mechanisms and applications use mechanical springs for the purpose of reducing shocks, applying...
none4noIndustrial robots are commonly designed to be very fast and stiff in order to achieve extreme...
Industrial robots are commonly designed to be very fast and stiff in order to achieve extremely prec...
In this paper, a novel variable stiffness mechanism is presented, which is capable of achieving an o...
Variable stiffness actuators (VSA) are an emerging advanced driving method for robotic joint in phys...
The increasing use of Variable Stiffness Actuators (VSAs) in robotic joints is helping robots to mee...
Legged and gait-assistance robots can walk more efficiently if their actuators are compliant. The ad...