G.O.G: A Versatile Gripper-On-Gripper Design for Bimanual Cloth Manipulation with a Single Robotic Arm
IEEE Robotics and Automation Letters 2024 The manipulation of garments poses research challenges due to their deformable nature and the extensive variability in shapes and sizes. Despite numerous attempts by researchers to address these via approaches involving robot perception and control, there ha...
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| creator | Lee, Dongmyoung Chen, Wei Chen, Xiaoshuai Rojas, Nicolas |
| description | IEEE Robotics and Automation Letters 2024 The manipulation of garments poses research challenges due to their
deformable nature and the extensive variability in shapes and sizes. Despite
numerous attempts by researchers to address these via approaches involving
robot perception and control, there has been a relatively limited interest in
resolving it through the co-development of robot hardware. Consequently, the
majority of studies employ off-the-shelf grippers in conjunction with dual
robot arms to enable bimanual manipulation and high dexterity. However, this
dual-arm system increases the overall cost of the robotic system as well as its
control complexity in order to tackle robot collisions and other robot
coordination issues. As an alternative approach, we propose to enable bimanual
cloth manipulation using a single robot arm via novel end effector design --
sharing dexterity skills between manipulator and gripper rather than relying
entirely on robot arm coordination. To this end, we introduce a new gripper,
called G.O.G., based on a gripper-on-gripper structure where the first gripper
independently regulates the span, up to 500mm, between its fingers which are in
turn also grippers. These finger grippers consist of a variable friction module
that enables two grasping modes: firm and sliding grasps. Household item and
cloth object benchmarks are employed to evaluate the performance of the
proposed design, encompassing both experiments on the gripper design itself and
on cloth manipulation. Experimental results demonstrate the potential of the
introduced ideas to undertake a range of bimanual cloth manipulation tasks with
a single robot arm. Supplementary material is available at
https://sites.google.com/view/gripperongripper. |
| doi_str_mv | 10.48550/arxiv.2401.10702 |
| format | Article |
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deformable nature and the extensive variability in shapes and sizes. Despite
numerous attempts by researchers to address these via approaches involving
robot perception and control, there has been a relatively limited interest in
resolving it through the co-development of robot hardware. Consequently, the
majority of studies employ off-the-shelf grippers in conjunction with dual
robot arms to enable bimanual manipulation and high dexterity. However, this
dual-arm system increases the overall cost of the robotic system as well as its
control complexity in order to tackle robot collisions and other robot
coordination issues. As an alternative approach, we propose to enable bimanual
cloth manipulation using a single robot arm via novel end effector design --
sharing dexterity skills between manipulator and gripper rather than relying
entirely on robot arm coordination. To this end, we introduce a new gripper,
called G.O.G., based on a gripper-on-gripper structure where the first gripper
independently regulates the span, up to 500mm, between its fingers which are in
turn also grippers. These finger grippers consist of a variable friction module
that enables two grasping modes: firm and sliding grasps. Household item and
cloth object benchmarks are employed to evaluate the performance of the
proposed design, encompassing both experiments on the gripper design itself and
on cloth manipulation. Experimental results demonstrate the potential of the
introduced ideas to undertake a range of bimanual cloth manipulation tasks with
a single robot arm. Supplementary material is available at
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deformable nature and the extensive variability in shapes and sizes. Despite
numerous attempts by researchers to address these via approaches involving
robot perception and control, there has been a relatively limited interest in
resolving it through the co-development of robot hardware. Consequently, the
majority of studies employ off-the-shelf grippers in conjunction with dual
robot arms to enable bimanual manipulation and high dexterity. However, this
dual-arm system increases the overall cost of the robotic system as well as its
control complexity in order to tackle robot collisions and other robot
coordination issues. As an alternative approach, we propose to enable bimanual
cloth manipulation using a single robot arm via novel end effector design --
sharing dexterity skills between manipulator and gripper rather than relying
entirely on robot arm coordination. To this end, we introduce a new gripper,
called G.O.G., based on a gripper-on-gripper structure where the first gripper
independently regulates the span, up to 500mm, between its fingers which are in
turn also grippers. These finger grippers consist of a variable friction module
that enables two grasping modes: firm and sliding grasps. Household item and
cloth object benchmarks are employed to evaluate the performance of the
proposed design, encompassing both experiments on the gripper design itself and
on cloth manipulation. Experimental results demonstrate the potential of the
introduced ideas to undertake a range of bimanual cloth manipulation tasks with
a single robot arm. Supplementary material is available at
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deformable nature and the extensive variability in shapes and sizes. Despite
numerous attempts by researchers to address these via approaches involving
robot perception and control, there has been a relatively limited interest in
resolving it through the co-development of robot hardware. Consequently, the
majority of studies employ off-the-shelf grippers in conjunction with dual
robot arms to enable bimanual manipulation and high dexterity. However, this
dual-arm system increases the overall cost of the robotic system as well as its
control complexity in order to tackle robot collisions and other robot
coordination issues. As an alternative approach, we propose to enable bimanual
cloth manipulation using a single robot arm via novel end effector design --
sharing dexterity skills between manipulator and gripper rather than relying
entirely on robot arm coordination. To this end, we introduce a new gripper,
called G.O.G., based on a gripper-on-gripper structure where the first gripper
independently regulates the span, up to 500mm, between its fingers which are in
turn also grippers. These finger grippers consist of a variable friction module
that enables two grasping modes: firm and sliding grasps. Household item and
cloth object benchmarks are employed to evaluate the performance of the
proposed design, encompassing both experiments on the gripper design itself and
on cloth manipulation. Experimental results demonstrate the potential of the
introduced ideas to undertake a range of bimanual cloth manipulation tasks with
a single robot arm. Supplementary material is available at
https://sites.google.com/view/gripperongripper.</abstract><doi>10.48550/arxiv.2401.10702</doi><oa>free_for_read</oa></addata></record> |
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| identifier | DOI: 10.48550/arxiv.2401.10702 |
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| subjects | Computer Science - Robotics |
| title | G.O.G: A Versatile Gripper-On-Gripper Design for Bimanual Cloth Manipulation with a Single Robotic Arm |
| url | https://sfx.bib-bvb.de/sfx_tum?ctx_ver=Z39.88-2004&ctx_enc=info:ofi/enc:UTF-8&ctx_tim=2025-01-28T05%3A20%3A08IST&url_ver=Z39.88-2004&url_ctx_fmt=infofi/fmt:kev:mtx:ctx&rfr_id=info:sid/primo.exlibrisgroup.com:primo3-Article-arxiv_GOX&rft_val_fmt=info:ofi/fmt:kev:mtx:journal&rft.genre=article&rft.atitle=G.O.G:%20A%20Versatile%20Gripper-On-Gripper%20Design%20for%20Bimanual%20Cloth%20Manipulation%20with%20a%20Single%20Robotic%20Arm&rft.au=Lee,%20Dongmyoung&rft.date=2024-01-19&rft_id=info:doi/10.48550/arxiv.2401.10702&rft_dat=%3Carxiv_GOX%3E2401_10702%3C/arxiv_GOX%3E%3Curl%3E%3C/url%3E&disable_directlink=true&sfx.directlink=off&sfx.report_link=0&rft_id=info:oai/&rft_id=info:pmid/&rfr_iscdi=true |