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Hardness Discrimination Using Piezoelectric-Based Biomimetic Tactile Sensor and Machine Learning

Hussein Bassal, Yahya Abbass, Christian Gianoglio, Maurizio Valle

发表年份
2024
引用次数
7

摘要

In this letter, we present a tactile sensing system based on piezoelectric sensors, embedded electronics, and a machine learning (ML)-based approach for hardness discrimination. Various statistical features were extracted and evaluated through machine learning algorithms including support vector machines (SVM), single-layer feed-forward neural networks, and k-nearest neighbor (KNN). Five hardness objects were examined by performing indentation experiments using a Cartesian robot equipped with the sensing system while varying the indentation speed and load. Results showed that the SVM classifier trained on features ranked using principal component analysis (PCA) achieves a discrimination accuracy of 96% while utilizing a single sensor. Furthermore, results demonstrated that fixing the indentation speed and load increases the discrimination accuracy to 100%. This study demonstrated the capability of the tactile sensing system in extracting tactile information opening up interesting perspectives for wearable sensing and soft robots.

关键词

Tactile sensorSupport vector machineArtificial intelligencePrincipal component analysisComputer sciencePattern recognition (psychology)Classifier (UML)IndentationRobotPiezoelectric sensor

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