Jan Christoph Krause scite author profile

To further advance closed-loop control for soft robotics, suitable sensor and modeling strategies have to be investigated. Although there are many flexible and soft sensors available, the integration into the actuator and the use in a control loop is still challenging. Therefore, a state-space model for closed-loop low-level control of a fiber-reinforced actuator using pressure and orientation measurement is investigated. To do so, the integration of an inertial measurement unit and geometric modeling of actuator is presented. The piecewise constant curvature approach is used to describe the actuator’s shape and deformation variables. For low-level control, the chamber’s lengths are reconstructed from bending angles with a geometrical model and the identified material characteristics. For parameter identification and model validation, data from a camera tracking system is analyzed. Then, a closed-loop control of pressure and chambers’ length of the actuator is investigated. It will be shown, that the reconstruction model is suitable for estimating the state variables of the actuator. In addition, the use of the inertial measurement unit will demonstrate a cost-effective and compact sensor for soft pneumatic actuators.

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Evaluation Environment for Control Design of Soft Pneumatic Actuators

Krause

Ibrahim²,

Raatz³

2019

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Jan Christoph Krause

Linear and Nonlinear Low Level Control of a Soft Pneumatic Actuator

Modeling and Reconstruction of State Variables for Low-Level Control of Soft Pneumatic Actuators

Evaluation Environment for Control Design of Soft Pneumatic Actuators

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