Proxy-based sliding-mode tracking control of dielectric elastomer actuators through eliminating rate-dependent viscoelasticity

Abstract: Dielectric elastomer actuators (DEAs) usually suffer from rate-dependent viscoelastic nonlinearity, which manifests as hysteresis in their deformation cycles, leading to huge challenges in their modeling and control. In this work, we propose a model-free, proxy-based, sliding-mode tracking control approach to mitigate viscoelastic nonlinearity, achieving high-precision tracking control of DEAs. To this end, we first investigate the viscoelastic nonlinearity of DEAs, revealing its asymmetric and rate-dependent ch… Show more

“…Zou et al [3] proposed a model-free, proxy-based, sliding-mode tracking control method to deal with viscoelastic nonlinearity in dielectric elastomer actuators (DEAs) and achieve high-precision tracking control. The experimental findings demonstrate that the DEA is able to properly track sinusoidal trajectories in the frequency range of 0.1 Hz-4.0 Hz by minimising the influence of intrinsic viscoelastic nonlinearity when using a sliding-mode tracking controller.…”

Focus on 4D materials design and additive manufacturing

“…Zou et al [3] proposed a model-free, proxy-based, sliding-mode tracking control method to deal with viscoelastic nonlinearity in dielectric elastomer actuators (DEAs) and achieve high-precision tracking control. The experimental findings demonstrate that the DEA is able to properly track sinusoidal trajectories in the frequency range of 0.1 Hz-4.0 Hz by minimising the influence of intrinsic viscoelastic nonlinearity when using a sliding-mode tracking controller.…”

Focus on 4D materials design and additive manufacturing

Modelling and model-based tracking control of soft twisted and coiled actuators

Chattering-Free Sliding-Mode Control of a Soft Actuator for Precise Tracking Performance