Add to ORKGAbstract — In this paper, we provide a port-based mathemat-ical framework for analyzing and modeling variable stiffness actuators. The framework provides important insights in the energy requirements and, therefore, it is an important tool for the design of energy efficient variable stiffness actuators. Based on new insights gained from this approach, a novel conceptual actuator is presented. Simulations show that the apparent output stiffness of this actuator can be dynamically changed in an energy efficient way. I
The fundamental objective in developing variable stiffness actuators is to enable the actuator to de...
Variable stiffness actuators (VSAs) are complex mechatronic devices that are developed to build pass...
Since their introduction in the early years of this century, variable stiffness actuators (VSA) witn...
Variable stiffness actuators are a particular class of actuators that is characterized by the proper...
In this paper, a metric for comparing different designs of variable stiffness actuators is introduce...
In this paper, we provide a port-based mathematical framework for analyzing and modeling variable st...
In this work, we present a proof of concept of a novel variable stiffness actuator. The actuator des...
Variable stiffness actuators realize a novel class of actuators, which are capable of changing the a...
The concept of variable stiffness actuators is of relevance to emerging robotics applications. In pa...
Variable stiffness actuators realize a particular class of actuators characterized by the property t...
This paper presents the working principle, the design and realization of a novel rotational variable...
Abstract — Research effort in the field of variable stiffness actuators is steadily increasing, due ...
Variable elastic actuators are very promising for applications in physical human–robot interaction. ...
Robots are traditionally used in factory environments, where they perform tasks with high precision ...
In this paper, we investigate the role of variable stiffness in the reduction of the energy cost for...
The fundamental objective in developing variable stiffness actuators is to enable the actuator to de...
Variable stiffness actuators (VSAs) are complex mechatronic devices that are developed to build pass...
Since their introduction in the early years of this century, variable stiffness actuators (VSA) witn...
Variable stiffness actuators are a particular class of actuators that is characterized by the proper...
In this paper, a metric for comparing different designs of variable stiffness actuators is introduce...
In this paper, we provide a port-based mathematical framework for analyzing and modeling variable st...
In this work, we present a proof of concept of a novel variable stiffness actuator. The actuator des...
Variable stiffness actuators realize a novel class of actuators, which are capable of changing the a...
The concept of variable stiffness actuators is of relevance to emerging robotics applications. In pa...
Variable stiffness actuators realize a particular class of actuators characterized by the property t...
This paper presents the working principle, the design and realization of a novel rotational variable...
Abstract — Research effort in the field of variable stiffness actuators is steadily increasing, due ...
Variable elastic actuators are very promising for applications in physical human–robot interaction. ...
Robots are traditionally used in factory environments, where they perform tasks with high precision ...
In this paper, we investigate the role of variable stiffness in the reduction of the energy cost for...
The fundamental objective in developing variable stiffness actuators is to enable the actuator to de...
Variable stiffness actuators (VSAs) are complex mechatronic devices that are developed to build pass...
Since their introduction in the early years of this century, variable stiffness actuators (VSA) witn...