Geometric analysis of antagonistic stiffness in redundantly actuated parallel mechanisms

Abstract: Parallel closed‐chain mechanical architectures allow for redundant actuation in the force domain. Antagonistic actuation, afforded by this input force redundancy, in conjunction with nonlinear linkage geometry creates an effective stiffness directly analogous to that of a wound metal spring. A general stiffness model for such systems is derived and it is shown that the constitutive relationship between actuation effort and active stiffness is the second‐order kinematic constraint set relating the actuation sit… Show more

“…This allows rewriteing the equation of the "rigid transformation" (5) (17) that employs the 66 matrix inversion. This solution can be simplified by shifting the origin of the coordinate system to the point It is evident that the obtained expression (18) is more computationally efficient compared to (8) and (10). Besides, for some typical cases corresponding to regular meshing patterns of the FEA, expression (18) can be further simplified as shown in the following subsection.…”

“…In this case, the transformation is entirely defined by the corresponding Jacobian matrix. However, if the loading is essential, it is described by a more complicated equation that includes both the Jacobian as well as the Jacobian derivatives and the loading vector [10,11]. Other specific cases, where the above transformation is non-trivial (non-linear or even singular), are related to manipulators with passive joints and over-constrained parallel architectures [12].…”

CAD-based approach for identification of elasto-static parameters of robotic manipulators

“…This allows rewriteing the equation of the "rigid transformation" (5) (17) that employs the 66 matrix inversion. This solution can be simplified by shifting the origin of the coordinate system to the point It is evident that the obtained expression (18) is more computationally efficient compared to (8) and (10). Besides, for some typical cases corresponding to regular meshing patterns of the FEA, expression (18) can be further simplified as shown in the following subsection.…”

“…In this case, the transformation is entirely defined by the corresponding Jacobian matrix. However, if the loading is essential, it is described by a more complicated equation that includes both the Jacobian as well as the Jacobian derivatives and the loading vector [10,11]. Other specific cases, where the above transformation is non-trivial (non-linear or even singular), are related to manipulators with passive joints and over-constrained parallel architectures [12].…”

CAD-based approach for identification of elasto-static parameters of robotic manipulators

“…When an external disturbance is applied to the system, an effective restoring torque is generated and International Conference on Artificial Intelligence and Industrial Engineering (AIIE 2015) causes spring-like behaviour resultantly. It can be modeled with respect to the independent joint of the system as [6] …”

Stiffness Modulation of A1-DOF Robotic Manipulator with Antagonistic Actuators

“…INTRODUCTION N many applications, manipulator stiffness becomes one of the most important performance measures of a robotic system. To evaluate stiffness properties, several methods can be applied such as Finite Element Analysis, Matrix Structural Analysis and Virtual Joint Modeling (VJM) [1][2][3][4][5][6][7][8][9][10][11][12], where the last one is the most attractive in robotic domain since it operates with an extension of the traditional rigid model that is completed by a set of compliant virtual joints (localized springs), which describe elastic properties of the links, joints and actuators. This paper contributes to the VJM-based technique and focuses on some particularities of the manipulators with passive joints.…”

Stiffness Matrix of Manipulators With Passive Joints: Computational Aspects