Tactile texture recognition with a 3-axial force MEMS integrated artificial finger

Boissieu, Florian de; Godin, Christelle; Guilhamat, B.; David, Dominique; Servière, Christine; Baudois, D.

doi:10.15607/rss.2009.v.007

Cited by 50 publications

(29 citation statements)

References 12 publications

(12 reference statements)

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“…Others have used tactile sensors to detect ridges and bumps in the material [16] by sliding the robotic finger over an object to estimate the material from the obtained frequency spectrum [4]. Sensors based on piezoelectric vibration have been used to determine the hardness or softness of probed biomaterials [17].…”

Section: A Related Workmentioning

confidence: 99%

Tactile object class and internal state recognition for mobile manipulation

Chitta

Piccoli

Sturm

2010

2010 IEEE International Conference on Robotics and Automation

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Abstract-Tactile information is valuable in determining properties of objects that are inaccessible from visual perception. In this work, we present a tactile perception strategy that allows any mobile robot with tactile sensors in its gripper to measure a set of generic tactile features while grasping an object. We propose a hybrid velocity-force controller, that grasps an object safely and reveals at the same time its deformation properties. As an application, we show that a robot can use these features to distinguish the open/closed and fill state of bottles and cans -purely from tactile sensing -from a small training set. To prove that this is a hard recognition problem, we also conducted a comperative study with 17 human test subjects. We found that the recognition rate of the human subjects were comparable to our robotic gripper.

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Section: A Related Workmentioning

confidence: 99%

Tactile object class and internal state recognition for mobile manipulation

Chitta

Piccoli

Sturm

2010

2010 IEEE International Conference on Robotics and Automation

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“…In order to do so, our humanoid robot -the iCub robot [12] -moves its hand in a vertical plane, while its fingers actively follow the curve of the face to track its shape 1 .There are four faces to classify in this experiment (see Figure 1).…”

Section: The Probing Mechanismmentioning

confidence: 99%

“…Recent progresses in tactile sensing offer a range of novel research directions in robotics, such as recognition of objects through texture [1] and safety during physical human-robot interaction [2]. In humanoid robots, the sense of touch becomes even more important due to the resemblance of these robots to humans and the fact that touch is an essential sense for humans.…”

Section: Introductionmentioning

confidence: 99%

Face classification using touch with a humanoid robot hand

Sommer

Billard

2012

2012 12th IEEE-RAS International Conference on Humanoid Robots (Humanoids 2012)

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Abstract-This paper presents an experiment in which the iCub humanoid robot learns to recognize faces through proprioceptive information. We take inspiration in the way blind people recognize people's faces, i.e. through tactile exploration of the person's face. The iCub robot's tactile sensors are used to provide compliance in the hand motion so as to smoothly scan the facial features. The displacement of the fingers, as the robot explores the face, is used to build a model of the face using Hidden Markov Models. We show that the robot can successfully distinguish across the faces of a standard doll and the faces of three humanoid robots, the HOAP-3 robot, a Robota doll robot and MyDreamBaby, a commercial robotic doll.

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“…For instance, researchers have used tactile sensors to recognize object textures [8], and to detect object slippage [9], [10], [11]. Another component would be the ability to evaluate grasp stability, and use this knowledge to predict grasp failure.…”

Section: Introductionmentioning

confidence: 99%

Grasp stability assessment through unsupervised feature learning of tactile images

Cockbum

Roberge

et al. 2017

2017 IEEE International Conference on Robotics and Automation (ICRA)

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Abstract-Grasping tasks have always been challenging for robots, despite recent innovations in vision-based algorithms and object-specific training. If robots are to match human abilities and learn to pick up never-before-seen objects, they must combine vision with tactile sensing. This paper present a novel way to improve robotic grasping: by using tactile sensors and an unsupervised feature-learning approach, a robot can find the common denominators behind successful and failed grasps, and use this knowledge to predict whether a grasp attempt will succeed or fail. This method is promising as it uses only high-level features from two tactile sensors to evaluate grasp quality, and works for the training set as well as for new objects. In total, using a total of 54 different objects, our system recognized grasp failure 83.70% of time.

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Tactile texture recognition with a 3-axial force MEMS integrated artificial finger

Cited by 50 publications

References 12 publications

Tactile object class and internal state recognition for mobile manipulation

Tactile object class and internal state recognition for mobile manipulation

Face classification using touch with a humanoid robot hand

Grasp stability assessment through unsupervised feature learning of tactile images

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