Chen-Huan Pi scite author profile

Mimicking biological neuromuscular systems’ sensory motion requires the unification of sensing and actuation in a singular artificial muscle material, which must not only actuate but also sense their own motions. These functionalities would be of great value for soft robotics that seek to achieve multifunctionality and local sensing capabilities approaching natural organisms. Here, we report a soft somatosensitive actuating material using an electrically conductive and photothermally responsive hydrogel, which combines the functions of piezoresistive strain/pressure sensing and photo/thermal actuation into a single material. Synthesized through an unconventional ice-templated ultraviolet–cryo-polymerization technique, the homogenous tough conductive hydrogel exhibited a densified conducting network and highly porous microstructure, achieving a unique combination of ultrahigh conductivity (36.8 milisiemens per centimeter, 103-fold enhancement) and mechanical robustness, featuring high stretchability (170%), large volume shrinkage (49%), and 30-fold faster response than conventional hydrogels. With the unique compositional homogeneity of the monolithic material, our hydrogels overcame a limitation of conventional physically integrated sensory actuator systems with interface constraints and predefined functions. The two-in-one functional hydrogel demonstrated both exteroception to perceive the environment and proprioception to kinesthetically sense its deformations in real time, while actuating with near-infinite degrees of freedom. We have demonstrated a variety of light-driven locomotion including contraction, bending, shape recognition, object grasping, and transporting with simultaneous self-monitoring. When connected to a control circuit, the muscle-like material achieved closed-loop feedback controlled, reversible step motion. This material design can also be applied to liquid crystal elastomers.

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Simultaneous disturbance attenuation and fault detection using proportional integral observers

Shafai

Nork

2002

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This paper considers the design of a proportional integral observer (PIO) for simultaneous disturbance attenuation and fault detection. Unlike a proportional observer, an integral observer alone suffices to achieve good convergence and filtering properties when sensor noise is present in the system. On the other hand, a proportional integral observer makes it possible to decouple the modeling uncertainties while estimating states and faults with satisfactory convergence properties. We show that a generalized P I 0 structure, a proportional integral fading observer (PIFO), facilitates the design procedure for achieving the above goal.

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Low-level autonomous control and tracking of quadrotor using reinforcement learning

Cheng

et al. 2020

Control Engineering Practice

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A Fast and Efficient Attitude Control Algorithm of a Tilt-Rotor Aerial Platform Using Inputs Redundancies

Su¹,

Ruan²,

Yu³

et al. 2022

IEEE Robot. Autom. Lett.

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A Simple Six Degree-of-Freedom Aerial Vehicle Built on Quadcopters

Ruan

et al. 2021

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Chen-Huan Pi

Somatosensory actuator based on stretchable conductive photothermally responsive hydrogel

Simultaneous disturbance attenuation and fault detection using proportional integral observers

Low-level autonomous control and tracking of quadrotor using reinforcement learning

A Fast and Efficient Attitude Control Algorithm of a Tilt-Rotor Aerial Platform Using Inputs Redundancies

A Simple Six Degree-of-Freedom Aerial Vehicle Built on Quadcopters

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