Abstract:

This paper studies the optimal trajectory generation problem for online payload estimation to enable flexible manipulation, where the robotic manipulators pick, transport, and place various types of workpieces. Prevailing work focuses on offline estimation and solve time-consuming optimization problem for the optimal trajectory and initial configuration. By contrast, online estimation requires a quick trajectory generation process where the initial configuration, largely determined by the workpiece and environment layout, is not a design variable. Parameterizing joint trajectories by sinusoidal functions with the amplitudes being design variables, we adopt a supervised learning based approach to fulfill real- time trajectory generation where the mapping from the initial joint positions to the optimal amplitudes is established. This approach shifts the burden of solving computationally intensive and time-consuming trajectory design problems offline and facilitates the fast online generation of identification trajectories. The effectiveness of the trajectory generation method is demonstrated through simulation.