CN108805077A - A kind of face identification system of the deep learning network based on triple loss function - Google Patents

Abstract

A kind of face identification system of the deep learning network based on triple loss function proposed in the present invention, main contents include：Mutual correlation matches convolutional neural networks, the Heavenly Stems and Earthly Branches integrate convolutional neural networks, depth convolutional neural networks integrate and Performance Evaluation, its process is, first three samples of selection are concentrated from training data, including a static ROI (area-of-interest), a positive sample similar with static ROI and one and the negative sample of static ROI dissmilarities, these three samples is allowed to collectively constitute a triple；Then this triple is input in deep learning network and is trained, triple function (distance for the similar ROI that can further) is used in training process；Finally, similar ROI can be formed and be gathered, to achieve the purpose that recognition of face.Present invention employs triple loss functions, have higher accuracy of identification compared to traditional face identification system is played, and operation complexity is relatively low, operation efficiency is higher.

Description

A kind of face identification system of the deep learning network based on triple loss function

Technical field

The present invention relates to field of face identification, more particularly, to a kind of deep learning net based on triple loss function The face identification system of network.

Background technology

Recognition of face is a kind of biological identification technology that the facial feature information based on people carries out identification.Use video camera Or camera acquires image or video flowing containing face, and automatic detect and track face in the picture, and then to detecting Face carry out a series of relevant treatments of face, usually also referred to as Identification of Images, face recognition.Enterprise, house safety and Management aspect, face recognition technology can be used for access control and attendance system, recognition of face antitheft door etc.；In public security, the administration of justice and criminal investigation side Face carries out criminal in combination with face recognition technology face database and chases in the world；In E-Government and e-commerce Use aspect can be more accurate since face identification system is using biological characteristic (rather than traditional character password) Accomplish that party is unified in online digital identity and true identity, to greatly increase e-commerce and e-government system Reliability；In addition, face recognition technology is also in the fields extensive use such as space flight, electric power, frontier inspection, education.However, current face Identifying system operation complexity is higher, and operation efficiency is low, and the accuracy identified is also not high enough.

A kind of face identification system of the deep learning network based on triple loss function proposed in the present invention, first from Training data concentrates three samples of selection, including a static ROI (area-of-interest), a positive sample similar with static ROI This and one and the negative sample of static ROI dissmilarities, allow these three samples to collectively constitute a triple；Then by this three Tuple is input in deep learning network and is trained, used in training process triple function (the similar ROI that can further away from From)；Finally, similar ROI can be formed and be gathered, to achieve the purpose that recognition of face.Present invention employs triple loss function, Have higher accuracy of identification compared to a traditional face identification system is played, and operation complexity is relatively low, operation efficiency compared with It is high.

Invention content

Higher for current face identification system operation complexity, operation efficiency is low, and the accuracy identified The problems such as not high enough, a kind of recognition of face system of the deep learning network based on triple loss function proposed in of the invention System first concentrates three samples of selection, including a static ROI, a positive sample similar with static ROI and one from training data A negative sample with static ROI dissmilarities allows these three samples to collectively constitute a triple；Then this triple is defeated Enter into deep learning network and be trained, triple function (distance for the similar ROI that can further) is used in training process；Most Afterwards, similar ROI can be formed and be gathered, to achieve the purpose that recognition of face.

To solve the above problems, the present invention provides a kind of face knowledge of the deep learning network based on triple loss function Other system, main contents include：

(1) mutual correlation matching convolutional neural networks (CCM-CNN)；

(2) Heavenly Stems and Earthly Branches integrate convolutional neural networks (TBE-CNN)；

(3) depth convolutional neural networks integrate (HaarNet)；

(4) Performance Evaluation.

Wherein, the mutual correlation matches convolutional neural networks, uses matrix Hadamard product, is followed by one and connects entirely Layer is connect, for simulating adaptive weighted cross-correlation technique；Face characterization is learnt using a kind of method optimized based on triple Discriminate, these face characterizations be based on triple, including positive sample and negative sample video interested region (ROI) with And corresponding static state ROI；It is non-targeted a based on static and video by generating in order to further increase the robustness of mask The synthesis face of body ROI, it includes multinomial information to make the trim process of CCM-CNN；It is main that mutual correlation matches convolutional neural networks Including three parts：Feature extraction, mutual correlation matching and triple loss optimization.

Further, the feature extraction is realized by feature extraction pipeline, for not sympathizing with the same object The ROI obtained under condition carries out the extraction of distinctive feature；Feature extraction pipeline includes three sub-networks, is corresponded to respectively static, just The face of sample and negative sample；Each sub-network includes 9 convolutional layers, is a space batch standard after each convolutional layer Layer loses layer and line rectification function layer.

Further, mutual correlation matching, can be efficiently to spy mainly using a kind of pixel matching method Sign mapping is compared, and is estimated it and matched similitude；Comparison process includes mainly three parts：Matrix product, full connection Layer and Softmax layers；The method uses Feature Mapping to indicate ROI, these Feature Mappings are multiplied to triple ROI carries out own coding, greatly reduces the complexity of comparison.

Further, triple loss optimization, is efficiently trained using a two-way triple majorized function Network；In order to make triple loss optimization and Web-compatible, need to add additional feature extraction branch in a network；Triple Loss can be indicated with following formula：

Wherein, S_tp、S_tnAnd S_npSimilarity score in being matched for mutual correlation (is respectively static ROI and positive sample ROI's Compare score, the comparison score of the comparison score and positive sample ROI and negative sample ROI of static ROI and negative sample ROI).

Wherein, the Heavenly Stems and Earthly Branches integrate convolutional neural networks, can be used for the face from overall face image and Heavenly Stems and Earthly Branches network Complementary feature is extracted in tag block；It is artificial synthesized from static image (mainly to adopt in order to be emulated to real video data Manually out of focus and dynamic fuzzy learns to fuzzy insensitive face characterization) fuzzy training data；TBE-CNN includes one Core network and multiple branching networks, some utility layer of Heavenly Stems and Earthly Branches network, for being implanted into global and local information, this method It reduces and calculates cost and effectively merged information；The output feature schematic diagram of Heavenly Stems and Earthly Branches network is together in series to connect entirely It connects and generates final face characterization in layer.

Wherein, the depth convolutional neural networks are integrated, can efficiently learn the strong face characterization of distinctiveness to meet Video face identifies；HaarNet contains a core network and three branching networks, and the design of these networks is for being implanted into Facial characteristics, posture feature and other distinctive features；In addition, in order to promote discrimination, it is more that HaarNet uses one kind The training method in stage, and additionally use a second-order statistics standard triple loss equation and obtained from changing between class in class It wins the confidence breath；Finally, the correlation information of face ROI is implanted into a fine tuning stage, these information, which are stored in, to be logined and promoted Identify the stage of accuracy.

Further, the multistage training method includes mainly that triple is inputted HaarNet, HaarNet It exports result and carries out L₂Standardization indicates and carries out triple loss processing, and this training method can efficiently optimize The inner parameter of HaarNet.

Wherein, the Performance Evaluation comments this system using Cox face database (Cox Face DB) Estimate, the facial information in Cox Face DB includes the high quality mug shot shot under controllable environment from stillcamera With video equipment in the non-controllable low quality face-image shot；Mainly there are two aspects for Performance Evaluation：By static figure Piece and video image compared, the assessment of computational complexity.

Further, the assessment of the computational complexity, computational complexity depends mainly on operational process, and (matching is static ROI and video ROI) quantity, the quantity of network parameter and the number of plies；Computational complexity determines the efficiency of recognition of face.

Description of the drawings

Fig. 1 is a kind of system frame of the face identification system of the deep learning network based on triple loss function of the present invention Frame figure.

Fig. 2 is a kind of network rack of the face identification system of the deep learning network based on triple loss function of the present invention Composition.

Fig. 3 is a kind of training stream of face identification system of the deep learning network based on triple loss function of the present invention Cheng Tu.

Specific implementation mode

It should be noted that in the absence of conflict, the features in the embodiments and the embodiments of the present application can phase It mutually combines, invention is further described in detail in the following with reference to the drawings and specific embodiments.

Fig. 1 is a kind of system frame of the face identification system of the deep learning network based on triple loss function of the present invention Frame figure.Include mainly mutual correlation matching convolutional neural networks, the Heavenly Stems and Earthly Branches integrate convolutional neural networks, depth convolutional neural networks integrate And Performance Evaluation.

Mutual correlation matches convolutional neural networks, uses matrix Hadamard product, is followed by a full articulamentum, is used for mould Intend adaptive weighted cross-correlation technique；Face characterization discriminate is learnt using a kind of method optimized based on triple, these Face characterization be based on triple, including positive sample and the video interested region (ROI) of negative sample and corresponding quiet State ROI；In order to further increase the robustness of mask, by generating the conjunction based on static and the non-targeted individual ROI of video At face, it includes multinomial information to make the trim process of CCM-CNN；It includes three portions that mutual correlation, which matches convolutional neural networks mainly, Point：Feature extraction, mutual correlation matching and triple loss optimization.

The Heavenly Stems and Earthly Branches integrate convolutional neural networks, can be used for from the facial markers block of overall face image and Heavenly Stems and Earthly Branches network extracting Complementary feature；In order to be emulated to real video data, it is artificial synthesized from static image (it is main using artificial out of focus and Dynamic fuzzy learns to fuzzy insensitive face characterization) fuzzy training data；TBE-CNN includes core network and more A branching networks, some utility layer of Heavenly Stems and Earthly Branches network, for being implanted into global and local information, this method, which reduces, to be calculated as Originally and information has effectively been merged；The output feature schematic diagram of Heavenly Stems and Earthly Branches network is together in series to be generated most in full articulamentum Whole face characterization.

Depth convolutional neural networks are integrated, can efficiently learn the strong face characterization of distinctiveness to meet video face knowledge Not；HaarNet contains a core network and three branching networks, the designs of these networks be for be implanted into facial characteristics, Posture feature and other distinctive features；In addition, in order to promote discrimination, HaarNet uses a kind of multistage instruction Practice method, and additionally uses a second-order statistics standard triple loss equation and obtain information from changing between class in class； Finally, the correlation information of face ROI is implanted into a fine tuning stage, these information, which are stored in, logins and promoted identification accurately The stage of property.

Performance Evaluation is assessed this system, Cox Face using Cox face database (Cox Face DB) Facial information in DB includes that the high quality mug shot shot under controllable environment from stillcamera and video equipment exist The low quality face-image shot in the case of non-controllable；Mainly there are two aspects for Performance Evaluation：By static picture and video image It is compared, the assessment of computational complexity.

Wherein, the assessment of computational complexity, computational complexity depend mainly on operational process and (match static ROI and video ROI the quantity of quantity, network parameter and the number of plies)；Computational complexity determines the efficiency of recognition of face.

Fig. 2 is a kind of network rack of the face identification system of the deep learning network based on triple loss function of the present invention Composition.Include mainly feature extraction, mutual correlation matching and triple loss optimization so that mutual correlation matches convolutional neural networks as an example Three parts.

Feature extraction realized by feature extraction pipeline, the ROI for being obtained in varied situations to the same object into The extraction of row distinctive feature；Feature extraction pipeline includes three sub-networks, corresponds to the face of static, positive sample and negative sample respectively Portion；Each sub-network includes 9 convolutional layers, is a space batch index bed after each convolutional layer, loses layer and linear Rectification function layer.

Mutual correlation matches, and mainly using a kind of pixel matching method, can efficiently be compared to Feature Mapping, And estimates it and match similitude；Comparison process includes mainly three parts：Matrix product, full articulamentum and Softmax layers；This Method uses Feature Mapping to indicate ROI, these Feature Mappings are multiplied to carry out own coding to the ROI of triple, greatly The big complexity for reducing comparison.

Triple loss optimization, network is efficiently trained using a two-way triple majorized function；In order to make ternary Group loss optimization and Web-compatible, need to add additional feature extraction branch in a network；Triple loss can be used to lower public affairs Formula indicates：

Wherein, S_tp、S_tnAnd S_npSimilarity score in being matched for mutual correlation (is respectively static ROI and positive sample ROI's Compare score, the comparison score of the comparison score and positive sample ROI and negative sample ROI of static ROI and negative sample ROI).

Fig. 3 is a kind of training stream of face identification system of the deep learning network based on triple loss function of the present invention Cheng Tu.By taking the training flow that depth convolutional neural networks integrate as an example, this training method is a kind of multistage training method, main Include the output result progress L that triple is inputted to HaarNet, HaarNet₂Standardization indicates and carries out triple loss Processes, this training methods such as processing can efficiently optimize the inner parameter of HaarNet.

For those skilled in the art, the present invention is not limited to the details of above-described embodiment, in the essence without departing substantially from the present invention In the case of refreshing and range, the present invention can be realized in other specific forms.In addition, those skilled in the art can be to this hair Bright to carry out various modification and variations without departing from the spirit and scope of the present invention, these improvements and modifications also should be regarded as the present invention's Protection domain.Therefore, the following claims are intended to be interpreted as including preferred embodiment and falls into all changes of the scope of the invention More and change.

Claims (10)

1. a kind of face identification system of the deep learning network based on triple loss function, which is characterized in that include mainly Mutual correlation matches convolutional neural networks (one)；The Heavenly Stems and Earthly Branches integrate convolutional neural networks (two)；Depth convolutional neural networks integrate (three)； Performance Evaluation (four).

2. based on the mutual correlation matching convolutional neural networks (one) described in claims 1, which is characterized in that mutual correlation matching volume Product neural network (CCM-CNN) uses matrix Hadamard product, is followed by a full articulamentum, adaptive weighted for simulating Cross-correlation technique；Face characterization discriminate is learnt using a kind of method optimized based on triple, these face characterizations are bases In triple, including positive sample and negative sample video interested region (ROI) and corresponding static state ROI；In order into One step improves the robustness of mask, by generating based on static and the non-targeted individual ROI of video synthesis face, makes CCM- The trim process of CNN includes multinomial information；It includes three parts that mutual correlation, which matches convolutional neural networks mainly,：Feature extraction, Mutual correlation matches and triple loss optimization.

3. based on the feature extraction described in claims 2, which is characterized in that realized by feature extraction pipeline, for same The ROI that one object obtains in varied situations carries out the extraction of distinctive feature；Feature extraction pipeline includes three sub-networks, The face of static, positive sample and negative sample is corresponded to respectively；Each sub-network includes 9 convolutional layers, after each convolutional layer It is a space batch index bed, loses layer and line rectification function layer.

4. based on the mutual correlation matching described in claims 2, which is characterized in that mutual correlation matches mainly using a kind of picture Plain matching process can efficiently compare Feature Mapping, and estimate it and match similitude；Comparison process includes mainly Three parts：Matrix product, full articulamentum and Softmax layers；The method uses Feature Mapping to indicate ROI, by these spies Sign mapping is multiplied to carry out own coding to the ROI of triple, greatly reduces the complexity of comparison.

5. losing optimization based on the triple described in claims 2, which is characterized in that optimize letter using a two-way triple It counts efficiently to train network；In order to make triple loss optimization and Web-compatible, need to add additional feature in a network Extracting branch；Triple loss can be indicated with following formula：

Wherein, S_tp、S_tnAnd S_npSimilarity score in being matched for mutual correlation (is respectively the comparison of static ROI and positive sample ROI The comparison score of score, the comparison score and positive sample ROI and negative sample ROI of static ROI and negative sample ROI).

6. integrating convolutional neural networks (two) based on the Heavenly Stems and Earthly Branches described in claims 1, which is characterized in that the Heavenly Stems and Earthly Branches integrate convolution god It can be used for extracting complementary feature from the facial markers block of overall face image and Heavenly Stems and Earthly Branches network through network (TBE-CNN)；For Real video data emulated, it is artificial synthesized from static image (main out of focus to be learned with dynamic fuzzy using artificial Practise to fuzzy insensitive face characterization) obscure training data；TBE-CNN includes a core network and multiple branching networks, Some utility layer of Heavenly Stems and Earthly Branches network, for being implanted into global and local information, this method reduce calculate cost and effectively Information is merged in ground；The output feature schematic diagram of Heavenly Stems and Earthly Branches network is together in series to generate final facial table in full articulamentum Sign.

7. integrating (three) based on the depth convolutional neural networks described in claims 1, which is characterized in that depth convolutional Neural net Network, which integrates (HaarNet), can efficiently learn the strong face characterization of distinctiveness to meet video face identification；HaarNet is contained One core network and three branching networks, the designs of these networks be for be implanted into facial characteristics, posture feature and other Distinctive feature；In addition, in order to promote discrimination, HaarNet uses a kind of multistage training method, and also uses One second-order statistics standard triple loss equation obtains information from changing between class in class；Finally, rank is finely tuned at one The correlation information of implantation face ROI, these information are stored in the stage for logining and being promoted identification accuracy in section.

8. based on the multistage training method described in claims 7, which is characterized in that main includes inputting triple The output result of HaarNet, HaarNet carry out L₂Standardization indicates and carries out triple loss processing, this training method energy Enough inner parameters for efficiently optimizing HaarNet.

9. based on the Performance Evaluation (four) described in claims 1, which is characterized in that use Cox face database (Cox Face DB) this system to be assessed, the facial information in Cox Face DB includes from stillcamera in controllable environment The high quality mug shot and video equipment of lower shooting are in the non-controllable low quality face-image shot；Performance Evaluation master It will be there are two aspect：Static picture and video image are compared, the assessment of computational complexity.

10. the assessment based on the computational complexity described in claims 9, which is characterized in that computational complexity depends mainly on Quantity, the quantity of network parameter and the number of plies of operational process (matching static ROI and video ROI)；Computational complexity determines people The efficiency of face identification.