1. A Novel Multiface Recognition Method With Short Training Time and Lightweight Based on ABASNet and H-Softmax
- Author
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Fan Wang, Shibin Shen, Rui Sun, Fei Xie, Jia Le Yang, and Lei Huang
- Subjects
General Computer Science ,Computer science ,neural network ,Feature vector ,Feature extraction ,02 engineering and technology ,Facial recognition system ,Search algorithm ,hierarchical softmax ,multiface recognization ,0202 electrical engineering, electronic engineering, information engineering ,General Materials Science ,Artificial neural network ,business.industry ,Deep learning ,General Engineering ,020207 software engineering ,Pattern recognition ,Statistical classification ,Softmax function ,Principal component analysis ,020201 artificial intelligence & image processing ,Artificial intelligence ,lcsh:Electrical engineering. Electronics. Nuclear engineering ,Beetle antennae search ,business ,lcsh:TK1-9971 - Abstract
In order to solve the problem of low face recognition accuracy of traditional algorithms and excessive long training time in deep learning methods, a novel lightweight and short training time multiface recognition method is proposed in this paper. Firstly, an extraction model of facial feature vectors is established based on local binary mode and principal component analysis. Secondly, the beetle antennae search algorithm (BAS) is optimized using adaptive factors, and the ABAS algorithm is proposed. This paper uses the ABAS algorithm to optimize the initial threshold of the neural network and proposes the ABASNet method. Thirdly, ABASNet method is combined with the face features extracted by the face feature vector extraction model to be used for multi-face classification tasks. Finally, H-softmax (hierarchical softmax) is used to replace softmax in neural networks. By reducing the amount of calculation in the process of multi-category face classification, the training time of the ABASNet network is reduced. Through ablation experiments and comparative experiments with various methods such as IKDA + PNN algorithm and PCANet algorithm, to verify the accuracy, robustness and short training time of the ABASNet method. Among them, the maximum accuracy of the method in the ORL face dataset, ExtYaleB face dataset and FERET face dataset is 99.35%, 99.54% and 99.18% respectively. In addition, actual test results indicate that the training time and recognition time of the method in this paper are 21 seconds and 0.06 seconds respectively, which has demonstrated the lightweight and real-time performance of the proposed method. At the same time, more test results show that the proposed ABASNet method can also be implemented in embedded devices and other classification tasks.
- Published
- 2020