Nonprehensile Manipulation Control and Task Planning for Deformable Object Manipulation: Results from the RoDyMan Project

Ruggiero, Fabio; Kim, Jung-Tae; Gutierrez-Giles, Alejandro; Satici, Aykut C.; Donaire, Alejandro; Cacace, Jonathan; Buonocore, Luca Rosario; Fontanelli, Giuseppe Andrea; Lippiello, Vincenzo; Siciliano, Bruno

Title: Nonprehensile Manipulation Control and Task Planning for Deformable Object Manipulation: Results from the RoDyMan Project
Creator: Ruggiero, Fabio; Kim, Jung-Tae; Gutierrez-Giles, Alejandro; Satici, Aykut C.; Donaire, Alejandro; Cacace, Jonathan; Buonocore, Luca Rosario; Fontanelli, Giuseppe Andrea; Lippiello, Vincenzo; Siciliano, Bruno
Relation: 15th International Conference on Informatics in Control, Automation and Robotics ICINCO 2018. Proceedings of the 15th International Conference on Informatics in Control, Automation and Robotics ICINCO 2018, Volume 613 (Porto, Portugal 29-31 July, 2018) p. 76-100
Publisher Link: http://dx.doi.org/10.1007/978-3-030-31993-9_4
Publisher: Springer
Resource Type: conference paper
Date: 2020
Description: This chapter aims the broadcasting of the results achieved by the RoDyMan project about the task planning manipulation of deformable objects, and the nonprehensile manipulation control. The final demonstrator of the project is a pizza-making process. After an introduction to the general topic of nonprehensile manipulation, the mechatronic design and the high-level software architecture are described. Then, the smoothed particle hydrodynamic formulation is briefly introduced, along with the description of a detection method for a deformable object. The task planning for stretching a modelling clay, emulating the pizza dough, is sketched. After, the problematic control objective is split into several nonprehensile motion primitives: holonomic and nonholonomic rolling, friction-induced manipulation, and tossing are the described primitives. This chapter highlights the achievements reached so far by the project, and pave the way towards future research directions.
Subject: nonprehensile dynamic manipulation; deformable object perception; robot planning; robot control
Identifier: http://hdl.handle.net/1959.13/1439777
Identifier: uon:41027
Identifier: ISBN:9783030319922
Language: eng
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