Title:Control Strategies for a Hybrid Articulated RobotAuthor(s):Wolfgang Höbarth, Hubert Gattringer, Peter Staufer, Hartmut BremerAbstract:Due to higher requirements in productivity and cost efficiency of production lines, robots and other manipulators have to move faster. One possibility to fulfill the mentioned goals is to build lightweight constructions having elastic deformations in joints and links. The elastic components tend to vibrations and static deflections. Methods that compensate or minimize these drawbacks are the focus of this paper. An articulated robot with 6 joints and flexibility in joints and links is under consideration. The joints are actuated by DC motors combined with Harmonic Drive gears which offer high gear ratios but undergo elastic deformations. The links are flexible in two bending directions and in torsional sense. To achieve ordinary differential equations, a Ritz approach together with the projection equation is used. The obtained model is used for feedforward and feedback control design. Based on reference trajectories and on a rigid body model, estimations for the elastic deflections are calculated. These deflections are used to alter the reference trajectory in order to minimize the error of the tool center point. For basic active damping, non-local curvature feedback is used. Together with PD joint control and the feedforward control, satisfying results are obtained. Additionally, a sliding control approach is presented. The stiffness of the tool center point is enhanced with the drawback of less active damping. Simulation results and measured data are presented and compared.Booktitle:Special Issue: 81st Annual Meeting of the International Association of Applied Mathematics and Mechanics (GAMM)Publisher:WILEY-VCH Verlag GmbHPage Reference:page 39-40, 2 page(s)Publishing:11/2010Volume:10Number:1