Face recognition algorithm training method based on multi-objective learning

A face recognition and training method technology, which is applied in the field of face recognition algorithm training, can solve the problems of limited generalization ability of recognition algorithm, limited robustness of face pose changes, and no consideration of the influence of face pose

Active Publication Date: 2018-10-12
浙江大承机器人科技有限公司
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AI Technical Summary

Problems solved by technology

[0003] 1. The image is only initially aligned when the training image is input, and the influence of the face pose is not considered during the training process, and the robustness to face pose changes is limited;
[0004] 2. The training goal is to target the prediction accuracy rate of the samples in the training set. In actual deployment and application, the features extracted based on the deep convolutional network requi...

Method used

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  • Face recognition algorithm training method based on multi-objective learning
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  • Face recognition algorithm training method based on multi-objective learning

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Experimental program
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Embodiment 1

[0131] Based on the face recognition algorithm and its training algorithm proposed by the present invention, the training is carried out based on the Microsoft database of millions of celebrities, and the test is carried out on the LFW face data set. The test conditions are as follows: Condition 1, using figure 2 The deep network structure of condition 1 does not add inter-class distance and intra-class distance constraints; condition 2, adopts the same deep network structure as condition 1, and adds inter-class distance and intra-class distance constraints.

[0132] Experiments were carried out on the LFW face test data respectively, and the similarity distributions between the same face image pair and different face image pairs were obtained as follows: image 3 and Figure 4 As shown, the test results show that, Figure 4 compared to image 3 , the similarity between the same faces is higher, and the distribution variance is smaller, and the similarity between different...

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Abstract

The invention discloses a face recognition algorithm training method based on multi-objective learning, comprising the following steps: randomly initializing neural network parameters, using a loss function based on face identity and a loss function based on face feature point position constraint to minimize the learning objective to train the deep convolution network; when the prediction accuracyrate of the face identity reaches the threshold, calculating the loss function based on the distance within the face feature classes and the loss function based on the distance between the face feature classes, and performing calculation of the loss function based on the face identity and the loss function of the face feature point position constraint on each sample; based on the artificial weight setting, weighting each loss function to obtain the total loss function, and realizing the back propagation based on the total loss function. Therefore, the update of the network parameters is realized, and the network training is stopped when the accuracy is stable to get the trained face recognition model.

Description

technical field [0001] The invention relates to the technical field of face recognition algorithm training, in particular to a face recognition algorithm training method based on multi-objective learning. Background technique [0002] The face recognition algorithm based on deep convolutional network is the mainstream model of the current face recognition algorithm. The main technologies include the use of multi-layer convolutional neural network, the activation function based on ReLU (rectified linear unit, Rectified linear unit) and the activation function based on TripLet The supervised training method of loss has two main shortcomings: [0003] 1. The image is only initially aligned when the training image is input, and the influence of the face pose is not considered during the training process, and the robustness to face pose changes is limited; [0004] 2. The training goal is to target the prediction accuracy rate of the samples in the training set. In actual deploy...

Claims

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Application Information

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IPC IPC(8): G06K9/00G06N3/04G06N3/08
CPCG06N3/084G06V40/172G06N3/045
Inventor 王军南张清泉余饶东唐杭生
Owner 浙江大承机器人科技有限公司
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