Pietro Pustina scite author profile

Pietro Pustina

2Publications

15Citation Statements Received

61Citation Statements Given

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Engineering (Italy), Sapienza University of Rome

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Feedback Regulation of Elastically Decoupled Underactuated Soft Robots

Pustina

Santina

Luca

2022

IEEE Robot. Autom. Lett.

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The intrinsically underactuated and nonlinear nature of continuum soft robots makes the derivation of provably stable feedback control laws a challenging task. Most of the works so far circumvented the issue either by looking at coarse fully-actuated approximations of the dynamics or by imposing quasi-static assumptions. In this letter, we move a step in the direction of controlling generic soft robots taking explicitly into account their underactuation. A class of soft robots that have no direct elastic couplings between the dynamics of actuated and unactuated coordinates is identified. Considering the actuated variables as output, we prove that the system is minimum phase. We then propose regulators that implement different levels of model compensation. The stability of the associated closed-loop systems is formally proven by Lyapunov/LaSalle techniques, taking into account the nonlinear and underactuated dynamics. Simulation results are reported for two models of 2D and 3D soft robots.

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P-satI-D Shape Regulation of Soft Robots

Pustina

Borja

Santina

et al. 2023

IEEE Robot. Autom. Lett.

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Soft robots are intrinsically underactuated mechanical systems that operate under uncertainties and disturbances. In these conditions, this letter proposes two versions of PID-like control laws with a saturated integral action for the particularly challenging shape regulation task. The closed-loop system is asymptotically stabilized and matched constant disturbances are rejected using a very reduced amount of system information for control implementation. Stability is assessed on the underactuated dynamic model through the Invariant Set Theorem for two relevant classes of soft robots, i.e., elastically decoupled and elastically dominated soft robots. Extensive simulation results validate the proposed controllers.

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Pietro Pustina

Feedback Regulation of Elastically Decoupled Underactuated Soft Robots

P-satI-D Shape Regulation of Soft Robots

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