Guillaume Walck scite author profile

Guillaume Walck

5Publications

49Citation Statements Received

59Citation Statements Given

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Affiliations

Bielefeld University, Délégation Paris 6

Publications

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Distinguishing sliding from slipping during object pushing

Meier

Walck

Haschke

et al. 2016

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Abstract-The advent of advanced tactile sensing technology triggered the development of methods to employ them for grasp evaluation, online slip detection, and tactile servoing. In contrast to recent approaches to slip detection, distinguishing slip from non-slip conditions, we consider the more difficult task of distinguishing different types of slippage. Particularly we consider an object pushing task, where forces can only be applied from the top. In that case, the robot needs to notice when the object successfully moves vs. when the object gets stuck while the finger slips over its surface. As an example, consider the task of pushing around a piece of paper.We propose and evaluate three different convolutional network architectures and proof the applicability of the method for online classification in a robot pushing task.

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Augmenting curved robot surfaces with soft tactile skin

Büscher

Meier

Walck

et al. 2015

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We present a novel, soft, tactile skin composed of a fabric-based, stretchable sensor technology based on the piezoresistive effect. Softness is achieved by a combination of a soft silicone padding covered by a skin of more durable, tearproof silicone with an imprinted surface pattern mimicking human glabrous skin, found e.g. in fingertips. Its very thin layer structure (starting from 2.5 mm) facilitates integration on existing robot surfaces, particularly on small and highly curved links. For example, we augmented our Shadow Dexterous Hand with 12 palm sensors, and 2 resp. 3 sensors in the middle resp. proximal phalanges of each finger. To demonstrate the usefulness and efficiency of the proposed sensor skin, we performed a challenging classification task distinguishing squeezed objects based on their varying stiffness.

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Barometer-based Tactile Skin for Anthropomorphic Robot Hand

Kõiva

Schwank

Walck

et al. 2020

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Mechatronic fingernail with static and dynamic force sensing

Kõiva

Schwank

Walck

et al. 2018

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Our fingernails help us to accomplish a variety of manual tasks, but surprisingly only a few robotic hands are equipped with nails. In this paper, we present a sensorized fingernail for mechatronic hands that can capture static and dynamic interaction forces with the nail. Over the course of several iterations, we have developed a very compact working prototype that fits together with our previously developed multi-cell tactile fingertip sensor into the cavity of the distal phalange of a human-sized robotic hand. We present the construction details, list the key performance characteristics and demonstrate an example application of finding the end of an adhesive tape roll using the signals captured by the sensors integrated in the nail. We conclude with a discussion about improvement ideas for future versions.

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Robot self-protection by virtual actuator fatigue: Application to tendon-driven dexterous hands during grasping

Walck

Haschke

Meier

et al. 2017

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Guillaume Walck

Distinguishing sliding from slipping during object pushing

Augmenting curved robot surfaces with soft tactile skin

Barometer-based Tactile Skin for Anthropomorphic Robot Hand

Mechatronic fingernail with static and dynamic force sensing

Robot self-protection by virtual actuator fatigue: Application to tendon-driven dexterous hands during grasping

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