$H_\infty$-based Terrain Disturbance Rejection for Hydraulically Actuated Mobile Manipulators with a Non-Rigid Link

Rigotti-Thompson, Mattia; Torres-Torriti, Miguel; Auat Cheein, Fernando; Troni, Giancarlo


Decoupling the end-effector motion from that of the mobile base of mobile manipulators traversing uneven terrains is important. This is especially so in mining, where material spillage from excavators and front-end loaders reduces productivity and slows down operations because of increased clean-up and maintenance times. Thus, this paper proposes a strategy that relies on $H_\infty$ feedback control combined with feedforward action to improve the rejection of terrain disturbances that affect the orientation of the end-effector. The dynamic model of the mobile manipulator considers a floating base with non-permanent contacts at each wheel, hydraulic actuators with nonlinear dynamics and a non-rigid arm. The arm flexibility is modeled as a passive spring-damper joint to account for inherent cantilever effects of real excavators and loaders. The analysis considers three different $H_\infty$ controller structures (SISO with feedforward, SIMO without feedforward and MIMO without feedforward) to determine the benefits or disadvantages of: (i) employing the pitch rate of the mobile base as a feedforward control action or as an input handled by the $H_\infty$ controller, and (ii) using only the end-effector actuator or also the other actuated joints of the arm. The root-mean-square error (RMSE) was reduced between 73.8%–86.0% when driving an industrial semi-autonomous skid-steer loader over a ramp using the SISO $H_\infty$ controller with feedforward action. The tilt angle error was kept on average less than 0.9 ± 0.1°. The same controller yields a reduction of the RMSE between 23.5%–38.4% and a tilt angle error smaller than 3.39 ± 0.07° on average when traversing over a bump. Hence, the strategy proposed to reject ground disturbances should contribute to reducing material spillage of existing autonomous machines that navigate with little operator intervention along mining galleries, but that cannot avoid disturbing material lying on the ground or the characteristic unevenness of mining terrains.

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Fecha de publicación: 2020
Página de inicio: 1
Página final: 11
URL: https://ieeexplore.ieee.org/abstract/document/9050519


Notas: ISI