Litcius/Paper detail

Quasi-Static Compliance Calibration of Serial Articulated Industrial Manipulators

Nikolas Alexander Theissen, Monica Katherine Gonzalez, Asier Barrios, Andreas Archenti, IDEKO S.COOP, Elgoibar, Spain

2021International Journal of Automation Technology10 citationsDOIOpen Access PDF

Abstract

This article presents a procedure for the quasi-static compliance calibration of serial articulated industrial manipulators. Quasi-static compliance refers to the apparent stiffness displayed by manipulators at low-velocity movements, i.e., from 50 to 250 mm/s. The novelty of the quasi-static compliance calibration procedure lies in the measurement phase, in which the quasi-static deflections of the manipulator’s end effector are measured under movement along a circular trajectory. The quasi-static stiffness might be a more applicable model parameter, i.e., representing the actual manipulator more accurately, for manipulators at low-velocity movements. This indicates that the quasi-static robot model may yield more accurate estimates for the trajectory optimization compared with static stiffness in the implementation phase. This study compares the static and apparent quasi-static compliance. The static deflections were measured at discretized static configurations along circular trajectories, whereas the quasi-static deflections were measured under circular motion along the same trajectories. Loads of different magnitudes were induced using the Loaded Double Ball Bar. The static and quasi-static displacements were measured using a linear variable differential transformer embedded in the Loaded Double Ball Bar and a Leica AT901 laser tracker. These measurement procedures are implemented in a case study on a large serial articulated industrial manipulator in five different positions of its workspace. This study shows that the measured quasi-static deflections are bigger than the measured static deflections. This, in turn, indicates a significant difference between the static and apparent quasi-static compliance. Finally, the implementation of the model parameters to improve the accuracy of robots and the challenges in realizing cost-efficient compliance calibration are discussed.

Topics & Concepts

Control theory (sociology)Quasistatic processWorkspaceStatic analysisStiffnessLongitudinal static stabilityStatic frictionSerial manipulatorRobotComputer scienceEngineeringStructural engineeringPhysicsMechanicsParallel manipulatorMaterials scienceArtificial intelligenceAerodynamicsComposite materialControl (management)Quantum mechanicsRobotic Mechanisms and DynamicsAdvanced Measurement and Metrology TechniquesRobot Manipulation and Learning
Quasi-Static Compliance Calibration of Serial Articulated Industrial Manipulators | Litcius