Supplemental Material for Case Study about Challenges in Soft Tissue Manipulation (doi:10.18419/darus-482)

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Supplemental Material for Case Study about Challenges in Soft Tissue Manipulation

doi:10.18419/darus-482

DaRUS

2020-02-10

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Wnuk, Markus-Christian; Jaensch, Florian; Tomzik, David Adrian; Chen, Zixiao; Terfurth, Jonathan; Kandasamy, Sivakumar; Shahabi, Jalil; Garrett, Amy; Mahmoudinezhad, Masoumeh H.; Csiszar, Akos; Xu, Weiliang; Röhrle, Oliver; Verl, Alexander, 2020, "Supplemental Material for Case Study about Challenges in Soft Tissue Manipulation", https://doi.org/10.18419/darus-482, DaRUS, V1

Supplemental Material for Case Study about Challenges in Soft Tissue Manipulation

doi:10.18419/darus-482

Wnuk, Markus-Christian (Universität Stuttgart)

Jaensch, Florian (Universität Stuttgart)

Tomzik, David Adrian (University of Auckland)

Chen, Zixiao (University of Auckland)

Terfurth, Jonathan (University of Auckland)

Kandasamy, Sivakumar (University of Auckland)

Shahabi, Jalil (University of Auckland)

Garrett, Amy (University of Auckland)

Mahmoudinezhad, Masoumeh H. (University of Auckland)

Csiszar, Akos (Universität Stuttgart)

Xu, Weiliang (University of Auckland)

Röhrle, Oliver (Universität Stuttgart)

Verl, Alexander (Universität Stuttgart)

Jaensch, Florian

Wnuk, Markus-Christian

Tomzik, David Adrian

Chen, Zixiao

Terfurth, Jonathan

Kandasamy, Sivakumar

Shahabi, Jalil

Garrett, Amy

Mahmoudinezhad, Masoumeh H.

Csiszar, Akos

Galliani, Simona

Xu, Weiliang

Röhrle, Oliver

Verl, Alexander

Cheng, Leo

Paskaranandavadivel, Nira

Gorjup, Gal

Liarokapis, Minas

Deines, Inga

2019-03-26

GRK 2198/1

Vice-Chancellor’s Strategic Development Fund

Faculty Research Development Fund

DaRUS

Wnuk, Markus-Christian

Wnuk, Markus-Christian

2019-10-28

https://doi.org/10.18419/darus-482

Computer and Information Science, Engineering

Supplemental image and video material for the paper "Challenges in robotic soft tissue manipulation - Problem identification based on an interdisciplinary case study of a teleoperated drawing robot in practice" presented at the 2019 conference M2VIP. The presented results are the outcome of the 2019 summer school project within the International Research Training Group (IRTG) "Soft Tissue Robotics". Please refer to the project homepage for further information on the IRTG : https://www.str.uni-stuttgart.de/. The setup was used for the analysis and identification of challenges in soft tissue manipulation with rigid robots. It was built by a team of PhD students within one week of interdisciplinary work during the 2019 summer school at the University of Auckland. The setup consists of a 6-axis robot (UR5 of Universal Robots), which has a flexible pen with integrated flex sensors as end effector. A balloon is attached to a fixture in front of the robot which is equipped with a load cell for z-axis force measurement. For the human-machine interface, a haptic device is used. The control for these components is implemented as a distributed control architecture using several PCs and microcontrollers. The robot control is controlled by teleoperation. The forces measured at the end effector are feed back to the operator through the haptic decive. For more information on the utilized teleoperation framework refer to the paper of Gorjup et al. which is listed as related publication.

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Gal Gorjup, Anany Dwivedi, Nathan Elangovan, and Minas Liarokapis, "An Intuitive, Affordances Oriented Telemanipulation Framework for a Dual Robot Arm Hand System: On the Execution of Bimanual Tasks," IEEE/RSJ International Conference on Intelligent Robots and Systems (IROS), Macau, China, 2019

Gal Gorjup, Anany Dwivedi, Nathan Elangovan, and Minas Liarokapis, "An Intuitive, Affordances Oriented Telemanipulation Framework for a Dual Robot Arm Hand System: On the Execution of Bimanual Tasks," IEEE/RSJ International Conference on Intelligent Robots and Systems (IROS), Macau, China, 2019

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Drawing_Result.jpg

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Close-up view of the end effector of the case study’s setup during a drawing process of the letters “IRTG”.

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Overall_Setup.jpg

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Overview of the setup during teleoperated drawing.

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Setup_Schematic.png

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Schematic depiction of the setup of the practical case study.

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Supplemental_Video_Challenges_in_Soft_Tissue_Manipulation.mp4

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Video of the setup used for the identification of challenges in soft tissue manipulation. The setup was built during the 2019 summer school at the University of Auckland (New Zealand) within the IRTG "Soft Tissue Robotics".

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