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Publication

Embedded real-time objects’ hardness classification for robotic grippers

Published in: Elsevier Ltd.
Year: 2023
Authors: Youssef Amin, Christian Gianoglio, Maurizio Valle
Project Member: UNIGE
Abstract

Robotic grippers can be equipped with tactile sensing systems to extract information from a ma nipulated object. The real-time classification of the physical properties of a grasped object on resource-constrained devices requires efficient and effective pre-processing techniques and machine learning (ML) algorithms. In this paper, we propose a tactile sensing system mounted on the Baxter robot for the hardness classification of objects. In particular, we pre-processed the raw data with low computational cost techniques, and we designed three ML algorithms to provide real-time, energy efficient, and low-memory impact classification on a resource-constrained microcontroller. Results show that convolutional neural networks (CNNs) achieve the best accuracy (> 98%), while the support vector machine (SVM) presents the lowest memory occupation (1576 bytes), inference time (< 0.077 ms), and energy consumption (< 5.74 µJ)