2011 IEEE International Conference on Robotics and Biomimetics 2011
DOI: 10.1109/robio.2011.6181620
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A scalable joint-space controller for musculoskeletal robots with spherical joints

Abstract: Abstract-In the long history of robotics research, the most prominent problem has always been, to develop robots that can safely operate in human-centered environments. One way towards the goal of a safe, and human-friendly robot, is to incorporate more and more of the flexibility that can be found in humans, by mimicking the internal mechanisms. In this work we propose a scalable joint-space control scheme based on computed torque control for an anthropomimetic robot. To achieve this, the dynamic system model… Show more

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Cited by 29 publications
(22 citation statements)
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“…Robotic controllers on the other hand lack the scalability for more complex robots. The controller proposed in [12] has proven useful to control the simulation of an anthropomimetic robot arm and will in this work be evaluated for controlling a physical robot based on the control architecture described in [13].…”
Section: Introductionmentioning
confidence: 99%
“…Robotic controllers on the other hand lack the scalability for more complex robots. The controller proposed in [12] has proven useful to control the simulation of an anthropomimetic robot arm and will in this work be evaluated for controlling a physical robot based on the control architecture described in [13].…”
Section: Introductionmentioning
confidence: 99%
“…The mapping of the derivative of a quaternion and the corresponding rotational velocities is well known [11]. We define a matrix A(α), as a diagonal matrix, in which each revolute joint is represented by a 1 and each spherical joint is represented by the corresponding mapping, such that [12]:…”
Section: A Skeletal Dynamicsmentioning
confidence: 99%
“…The system states of (11) and (12) have been replaced by x 1 and x 2 which denote the muscle force f and the actuator velocityθ, respectively. Note that the system state of the first equation…”
Section: Muscle Kinematicsmentioning
confidence: 99%
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“…The principle of virtual work can then be used to derive the missing transformation between the muscle forces f and joint torques H [17]: However, the analytical derivation of the muscle Jacobian for our anthropomimetic robots is not possible, because of the absence of CAD data, and because of the presence of tendon-skeleton collisions. Therefore, we decided to approximate it by (i) utilizing machine learning techniques to learn the geometric mapping between tendon lengths l and joint angles q, and (ii) differentiating this geometric mapping using the difference quotient [29]. As samples can be drawn from the entire joint space, the function approximator need only support the interpolation between samples, without the need for extrapolation.…”
Section: Computed Force Controlmentioning
confidence: 99%