Shape Control of Elastic Objects Based on Implicit Sensorimotor Models and Data-Driven Geometric Features

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Shape Control of Elastic Objects Based on Implicit Sensorimotor Models and Data-Driven Geometric Features

Conference Paper (2022)

Author(s)

Wanyu Ma (The Hong Kong Polytechnic University)

Jihong Zhu (TU Delft - Mechanical Engineering, Honda)

David Navarro-Alarcon (The Hong Kong Polytechnic University)

Research Group

Learning & Autonomous Control

Robotics Visual servoing Shape control Deformable objects

DOI related publication

https://doi.org/10.1007/978-3-030-95892-3_40 Final published version

To reference this document use

https://resolver.tudelft.nl/uuid:1c20350f-dada-4923-9fb9-218715f62214

More Info

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Publication Year

2022

Language

English

Research Group

Learning & Autonomous Control

Pages (from-to)

518-531

Publisher

Springer

ISBN (print)

978-3-030-95891-6

Event

16th International Conference on Intelligent Autonomous Systems, IAS-16 2020 (2021-06-22 - 2021-06-25), Virtual, Online

Downloads counter

187

Abstract

This paper proposes a general approach to design automatic controls to manipulate elastic objects into desired shapes. The object’s geometric model is defined as the shape feature based on the specific task to globally describe the deformation. Raw visual feedback data is processed using classic regression methods to identify parameters of data-driven geometric models in real-time. Our proposed method is able to analytically compute a pose-shape Jacobian matrix based on implicit functions. This model is then used to derive a shape servoing controller. To validate the proposed method, we report a detailed experimental study with robotic manipulators deforming an elastic rod.