Under review for RSS 2010. Abstract: We present a novel method for designing controllers for robots with variable impedance actuators. We take an imitation learning approach, whereby we learn impedance modulation strategies from observations of behaviour (for example, that of humans) and transfer these to a robotic plant with very different actuators and dynamics. In contrast to previous approaches where impedance characteristics are directly imitated, our method uses task performance as the metric of imitation, ensuring that the learnt controllers are directly optimised for the hardware of the imitator. As a key ingredient, we use apprenticeship learning to model the optimisation criteria underlying observed behaviour, in order to frame a ...
International audienceFor humans and robots, variable impedance control is an essential component fo...
Robots are becoming standard collaborators not only in factories, hospitals, and offices, but also i...
One of the hallmarks of physical interaction between humans is haptic communication, i.e. an informa...
Abstract — We present a novel method for designing con-trollers for robots with variable impedance a...
We present a novel method for designing controllers for robots with variable impedance actuators. We...
Abstract—This paper presents a comparative study of ap-proaches to control robots with variable impe...
Compared with the robots, humans can learn to perform various contact tasks in unstructured environm...
In this work, we propose a framework to address the autonomous impedance regulation problem of robot...
Modern robotic systems are increasingly expected to interact with unstructured and unpredictable env...
Abstract—For humans and robots, variable impedance control is an essential component for ensuring ro...
Learning variable impedance control is a powerful method to improve the performance of force control...
Robotics applications that involve contacts with the environment require specific force profiles. Co...
Robots that physically interact with their surroundings, in order to accomplish some tasks or assist...
Robots that physically interact with their surroundings, in order to accomplish some tasks or assist...
Efficient human motor control is characterised by an extensive use of joint impedance modulation, wh...
International audienceFor humans and robots, variable impedance control is an essential component fo...
Robots are becoming standard collaborators not only in factories, hospitals, and offices, but also i...
One of the hallmarks of physical interaction between humans is haptic communication, i.e. an informa...
Abstract — We present a novel method for designing con-trollers for robots with variable impedance a...
We present a novel method for designing controllers for robots with variable impedance actuators. We...
Abstract—This paper presents a comparative study of ap-proaches to control robots with variable impe...
Compared with the robots, humans can learn to perform various contact tasks in unstructured environm...
In this work, we propose a framework to address the autonomous impedance regulation problem of robot...
Modern robotic systems are increasingly expected to interact with unstructured and unpredictable env...
Abstract—For humans and robots, variable impedance control is an essential component for ensuring ro...
Learning variable impedance control is a powerful method to improve the performance of force control...
Robotics applications that involve contacts with the environment require specific force profiles. Co...
Robots that physically interact with their surroundings, in order to accomplish some tasks or assist...
Robots that physically interact with their surroundings, in order to accomplish some tasks or assist...
Efficient human motor control is characterised by an extensive use of joint impedance modulation, wh...
International audienceFor humans and robots, variable impedance control is an essential component fo...
Robots are becoming standard collaborators not only in factories, hospitals, and offices, but also i...
One of the hallmarks of physical interaction between humans is haptic communication, i.e. an informa...
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