基于少镜头学习的可信自适应手势识别

2021 IEEE International Conference on Autonomous Systems (ICAS) Pub Date : 2021-08-11 DOI:10.1109/ICAS49788.2021.9551144

E. Rahimian, Soheil Zabihi, A. Asif, S. F. Atashzar, Arash Mohammadi

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引用次数: 5

摘要

这项工作的动机是基于深度神经网络(dnn)的解决方案在改善可信人机界面(HMI)的肌电控制方面的潜力。在这种背景下，我们提出了可信的少数短手手势识别(TFS-HGR)框架，作为一种新的基于dnn的架构，通过多通道表面肌电信号(sEMG)执行手势识别(HGR)。TFS-HGR框架的主要目标是采用Few-Shot Learning (FSL)公式，重点是在源域和目标域之间传递信息和知识(尽管它们存在继承差异)，以解决训练数据的有限可用性。NinaPro DB5数据集用于评估目的。本文提出的TFS-HGR算法对于新重复的少次观测，即5-way 10-shot分类，达到了83.17%的性能。此外，准确率为75.29%的TFS-HGR还可以推广到较少镜头观察的新手势，即5-way 10-shot分类。

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Trustworthy Adaptation with Few-Shot Learning for Hand Gesture Recognition

This work is motivated by potentials of Deep Neural Networks (DNNs)-based solutions in improving myoelectric control for trustworthy Human-Machine Interfacing (HMI). In this context, we propose the Trustworthy Few Shot-Hand Gesture Recognition (TFS-HGR) framework as a novel DNN-based architecture for performing Hand Gesture Recognition (HGR) via multi-channel surface Electromyography (sEMG) signals. The main objective of the TFS-HGR framework is to employ Few-Shot Learning (FSL) formulation with a focus on transferring information and knowledge between source and target domains (despite their inherit differences) to address limited availability of training data. The NinaPro DB5 dataset is used for evaluation purposes. The proposed TFS-HGR achieves a performance of 83.17% for new repetitions with few-shot observations, i.e., 5-way 10-shot classification. Moreover, the TFS-HGR with the accuracy of 75.29% also generalize to new gestures with few-shot observations, i.e., 5-way 10-shot classification.

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2021 IEEE International Conference on Autonomous Systems (ICAS)

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