Sensorimotor Developments in PCC-Based Soft Pneumatic Actuators
Access status:
Open Access
Type
ThesisThesis type
Doctor of PhilosophyAuthor/s
Al-Azzawi, AbdullahAbstract
Soft pneumatic actuators (SPAs) offer notable advantages in various applications due to their compliance and ease of manufacturing. However, accurately predicting their response remains challenging due to their non-linearity and viscoelastic behaviour.
This study, focusing on ...
See moreSoft pneumatic actuators (SPAs) offer notable advantages in various applications due to their compliance and ease of manufacturing. However, accurately predicting their response remains challenging due to their non-linearity and viscoelastic behaviour. This study, focusing on the piecewise constant curvature (PCC) model, addresses three interconnected challenges in SPA sensorimotor functionality: inverse kinematics (IK), twist motion modelling, and EGaIn-based soft sensor modelling. By tackling these limitations, the study enhances SPA adaptability, leading to improved manipulation, sensing, and control accuracy. To achieve these objectives, IK simulations were conducted, a length model based on geodesics and covering spaces was proposed and validated, and a regression-based numerical model was developed for soft sensor behaviour. Custom experimental tests generated datasets for training and validation. Key findings include a quadratic IK solver outperforming the linear solver and resolving singularity issues in the PCC model, a length model achieving 1.5% accuracy under twist, and a highly accurate soft sensor model demonstrating sub-millimetre precision despite hysteresis. This research advances soft robotics by addressing key limitations, contributing to the development of more capable and adaptable machines for diverse applications.
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See moreSoft pneumatic actuators (SPAs) offer notable advantages in various applications due to their compliance and ease of manufacturing. However, accurately predicting their response remains challenging due to their non-linearity and viscoelastic behaviour. This study, focusing on the piecewise constant curvature (PCC) model, addresses three interconnected challenges in SPA sensorimotor functionality: inverse kinematics (IK), twist motion modelling, and EGaIn-based soft sensor modelling. By tackling these limitations, the study enhances SPA adaptability, leading to improved manipulation, sensing, and control accuracy. To achieve these objectives, IK simulations were conducted, a length model based on geodesics and covering spaces was proposed and validated, and a regression-based numerical model was developed for soft sensor behaviour. Custom experimental tests generated datasets for training and validation. Key findings include a quadratic IK solver outperforming the linear solver and resolving singularity issues in the PCC model, a length model achieving 1.5% accuracy under twist, and a highly accurate soft sensor model demonstrating sub-millimetre precision despite hysteresis. This research advances soft robotics by addressing key limitations, contributing to the development of more capable and adaptable machines for diverse applications.
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Date
2025Rights statement
The author retains copyright of this thesis. It may only be used for the purposes of research and study. It must not be used for any other purposes and may not be transmitted or shared with others without prior permission.Faculty/School
Faculty of Engineering, School of Aerospace Mechanical and Mechatronic EngineeringDepartment, Discipline or Centre
Australian Centre for Robotics (ACFR)Awarding institution
The University of SydneyShare