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Flexible tactile sensor with an embedded-hair-in-elastomer structure for normal and shear stress sensing

Yudong Cao, Jiacheng Li, Zihao Dong, Tianyu Sheng, Deyuan Zhang, Jun Cai, Yonggang Jiang

2023Soft Science21 citationsDOI

Abstract

Endowing robots with multi-directional tactile sensing capabilities has long been a challenging task in the field of flexible electronics and intelligent robots. This paper reports a highly sensitive, flexible tactile sensor with an embedded-hair-in-elastomer structure, which is capable of decoupling normal stress and shear stress. The flexible tactile sensor is fabricated on a thin polyimide substrate and consists of four self-bending piezoresistive cantilevers in a cross-shaped configuration, which are embedded in an elastomer. The sensor can decouple the tactile information into a normal stress and a shear stress with simple summation and differencing algorithms, and the measurement error is kept within 3%. Moreover, the sensitivity and detection threshold of the sensor can be adjusted by simply changing the elastic material. As a demonstration, the flexible tactile sensor is integrated into a robotic manipulator to precisely estimate the weight of the grasped objects, which shows great potential for application in robotic systems.

Topics & Concepts

Tactile sensorPiezoresistive effectElastomerDecoupling (probability)Materials scienceRobotComputer scienceFlexible electronicsCantileverBendingArtificial intelligenceOptoelectronicsComposite materialControl engineeringEngineeringAdvanced Sensor and Energy Harvesting MaterialsTactile and Sensory InteractionsMuscle activation and electromyography studies
Flexible tactile sensor with an embedded-hair-in-elastomer structure for normal and shear stress sensing | Litcius