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Grasp State Assessment of Deformable Objects Using Visual-Tactile Fusion Perception

Shaowei Cui, Rui Wang, Junhang Wei, Fanrong Li, Shuo Wang

202054 citationsDOI

Abstract

Humans can quickly determine the force required to grasp a deformable object to prevent its sliding or excessive deformation through vision and touch, which is still a challenging task for robots. To address this issue, we propose a novel 3D convolution-based visual-tactile fusion deep neural network (C3D-VTFN) to evaluate the grasp state of various deformable objects in this paper. Specifically, we divide the grasp states of deformable objects into three categories of sliding, appropriate and excessive. Also, a dataset for training and testing the proposed network is built by extensive grasping and lifting experiments with different widths and forces on 16 various deformable objects with a robotic arm equipped with a wrist camera and a tactile sensor. As a result, a classification accuracy as high as 99.97% is achieved. Furthermore, some delicate grasp experiments based on the proposed network are implemented in this paper. The experimental results demonstrate that the C3D-VTFN is accurate and efficient enough for grasp state assessment, which can be widely applied to automatic force control, adaptive grasping, and other visual-tactile spatiotemporal sequence learning problems.

Topics & Concepts

GRASPArtificial intelligenceComputer scienceComputer visionTactile sensorConvolution (computer science)Convolutional neural networkRobotTask (project management)Object (grammar)PerceptionArtificial neural networkEngineeringBiologyProgramming languageNeuroscienceSystems engineeringRobot Manipulation and LearningTactile and Sensory InteractionsMuscle activation and electromyography studies
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