Optoelectronically Innervated Suction Cup Inspired by the Octopus
The suckers on the octopus arm play a pivotal role in the execution of tasks in unstructured environments by providing a means to grip objects as well as perceive the environment through (chemo‐) tactile receptors in the suckers. This work presents an octopus‐inspired suction cup with high‐resolution tactile sensing capabilities using a camera that captures the displacement of markers that are integrated in the suction cup. The orientation of the suction cup with respect to an object surface could be predicted with an average error of 1.97° for latitude and 9.41° for longitude. In a closed‐loop control experiment, the orientation of the suction cup with respect to the object surface is estimated by an initial touch and the suction cup is consequently reoriented to approach the object surface in a perpendicular manner. The passive compliance of the suction cup is sufficient to compensate for the prediction error and a seal could be created on all of the objects. In combination with the automated design and manufacturing process, this is a major step toward the deployment of sensory innervated suction cups for motion planning and control of soft continuum robot arms.
- Location
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Deutsche Nationalbibliothek Frankfurt am Main
- Extent
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Online-Ressource
- Language
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Englisch
- Bibliographic citation
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Optoelectronically Innervated Suction Cup Inspired by the Octopus ; day:20 ; month:01 ; year:2025 ; extent:16
Advanced intelligent systems ; (20.01.2025) (gesamt 16)
- Creator
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van Veggel, Stein
Wiertlewski, Michaël
Doubrovski, Eugeni L.
Kooijman, Adrie
Mazzolai, Barbara
Scharff, Rob B.N.
- DOI
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10.1002/aisy.202400544
- URN
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urn:nbn:de:101:1-2501201308552.313113953271
- Rights
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Open Access; Der Zugriff auf das Objekt ist unbeschränkt möglich.
- Last update
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15.08.2025, 7:31 AM CEST
Data provider
Deutsche Nationalbibliothek. If you have any questions about the object, please contact the data provider.
Associated
- van Veggel, Stein
- Wiertlewski, Michaël
- Doubrovski, Eugeni L.
- Kooijman, Adrie
- Mazzolai, Barbara
- Scharff, Rob B.N.
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Octopus‐Inspired Suction Cups with Embedded Strain Sensors for Object Recognition
Classification and Evaluation of Octopus‐Inspired Suction Cups for Soft Continuum Robots
Soft octopus-inspired suction cups using dielectric elastomer actuators with sensing capabilities
Octopus‐Inspired Soft Arm with Suction Cups for Enhanced Grasping Tasks in Confined Environments
Octopus‐Inspired Soft Arm with Suction Cups for Enhanced Grasping Tasks in Confined Environments
Suction‐Cup‐Inspired Adhesive Micromotors for Drug Delivery
Suction Cups‐Inspired Adhesive Patch with Tailorable Patterns for Versatile Wound Healing
Untethered Octopus‐Inspired Millirobot Actuated by Regular Tetrahedron Arranged Magnetic Field
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Fouling Release Mechanism of an Octopus‐Inspired Smart Skin
Mechanochromic Suction Cups for Local Stress Detection in Soft Robotics
Liquid‐Amplified Electrostatically Driven Octopus Sucker‐Inspired Suction Cup
Octopus‐Inspired Suction Cups with Embedded Strain Sensors for Object Recognition
Classification and Evaluation of Octopus‐Inspired Suction Cups for Soft Continuum Robots
Soft octopus-inspired suction cups using dielectric elastomer actuators with sensing capabilities
Octopus‐Inspired Soft Arm with Suction Cups for Enhanced Grasping Tasks in Confined Environments
Octopus‐Inspired Soft Arm with Suction Cups for Enhanced Grasping Tasks in Confined Environments
Suction‐Cup‐Inspired Adhesive Micromotors for Drug Delivery
Suction Cups‐Inspired Adhesive Patch with Tailorable Patterns for Versatile Wound Healing
Untethered Octopus‐Inspired Millirobot Actuated by Regular Tetrahedron Arranged Magnetic Field
Untethered Octopus‐Inspired Millirobot Actuated by Regular Tetrahedron Arranged Magnetic Field
Fouling Release Mechanism of an Octopus‐Inspired Smart Skin