CN115909434B - Data processing system for acquiring facial image characteristics - Google Patents

Abstract

The invention provides a data processing system for acquiring facial image characteristics, which comprises: the system comprises a database, a processor, a memory storing a computer program, a first image data processing platform and N second image data processing platforms, wherein the database comprises an initial face image set and a preset image information set of a target user, and when the computer program is executed by the processor, the following steps are realized: and acquiring a first face image list and a second face image list according to the initial face image set, processing the first face image to acquire second target image characteristics of the first face image and transmitting the second target image characteristics to the first target user, and processing the second face image to acquire second target image characteristics of the second face image and transmitting the second target image characteristics to the second target user. According to the invention, the initial face image set is classified by the time condition, and the time is dynamically adjusted to process the first face image list and the second face image list, so that the accuracy of the obtained face image features is higher.

Description

Data processing system for acquiring facial image characteristics

Technical Field

The invention relates to the technical field of image processing, in particular to a data processing system for acquiring facial image characteristics.

Background

Along with the rapid development of the face image recognition technology, the face recognition expands diversified industry applications in the fields of public security case investigation, station airport ticket checking systems, residential entrance and exit management, accurate business marketing, examination room identity verification and the like, at present, face image recognition methods are diversified, and how to process face images, so that the recognition efficiency and accuracy of the face images are effectively improved, the face image recognition speed and accuracy are continuously enhanced, and accurate services can be provided for various industries.

A method for acquiring facial image features in the prior art is known as follows: extracting the characteristics of the face image, calculating the similarity between the face image to be searched and the face image vector in the target database by using the Euclidean distance or the cosine distance, and obtaining the face image characteristics of which the similarity with the face image to be searched meets the preset condition, wherein the method for obtaining the face image characteristics has the following problems:

on one hand, the number of face images of the database is large, and the search and recognition range of the face images is enlarged by one-to-one comparison with the feature vector of each face image, so that the real-time performance of face recognition is reduced;

on the other hand, the data information is stored in the same platform, and the data storage space is too large, so that the information in the database is lost, and the accuracy of the obtained face image features is lower.

Disclosure of Invention

Aiming at the technical problems, the invention adopts the following technical scheme: a data processing system for acquiring facial image features, the system comprising: the system comprises a database, a processor, a memory storing a computer program, a first image data processing platform and N second image data processing platforms, wherein the database comprises an initial face image set and a preset image information set of a target user, and when the computer program is executed by the processor, the following steps are realized:

s100, according to an initial face image set of a target user, a first face image list A= { A is obtained ₁ ，……，A _i ，……，A _λ And a second face image list b= { B ₁ ，……，B _j ，……，B _γ }，A _i For the first face image corresponding to the ith first target user, i= … … λ, λ is the number of the first target users, B _j For the second face image corresponding to the j-th second target user, j= … … γ, and γ is the number of second target users.

S200, inputting the A and the preset image information set into a second image data processing platform, and obtaining a first target image feature set AC= { AC corresponding to the A ₁ ,……，AC _i ,……，AC _λ }，AC _i Is A _i A corresponding first list of target image features.

S300 according to AC _i The first image data processing platform acquires a second target image feature set AD= { AD corresponding to the A ₁ ,……，AD _i ,……，AD _λ }，AD _i Is A _i And a corresponding second target image feature list.

S400, AD _i And sending the message to the ith first target user.

S500, B and a preset image information set are input to a first image data processing platformIn the station, a second target image feature set bd= { BD corresponding to B is acquired ₁ ,……，BD _j ,……，BD _γ }，BD _j Is B _j And a corresponding second target image feature list.

S600, BD is processed _j And transmitting to the j second target user.

Compared with the prior art, the data processing system for acquiring the facial image features has obvious beneficial effects, can achieve quite technical progress and practicality, has wide industrial utilization value, and has at least the following beneficial effects:

the invention provides a data processing system for acquiring facial image characteristics, which comprises: the system comprises a database, a processor, a memory storing a computer program, a first image data processing platform and N second image data processing platforms, wherein the database comprises an initial face image set and a preset image information set of a target user, and when the computer program is executed by the processor, the following steps are realized: the method comprises the steps of obtaining a first face image list and a second face image list according to an initial face image set, inputting the first face image list and a preset image information set into N second image data processing platforms, obtaining a first target image feature set corresponding to a first face image, obtaining a second target image feature set corresponding to the first face image according to the first target image feature set and the first image data processing platform and sending the second target image feature set to a first target user, inputting the second face image list and the preset image information set into the first image data processing platform, obtaining a second target image feature set corresponding to a second face image and sending the second target image feature set to the second target user. According to the invention, on one hand, the initial face images are classified, and different types of initial face images are processed respectively by utilizing different time conditions, so that the searching range of the face images is reduced, and the real-time performance of face recognition is improved; on the other hand, the time condition is dynamically adjusted, the data information is stored in different platforms, and the data storage space is reduced by establishing the association relation, so that the accuracy of the obtained facial image features is higher under the condition that the database information is not lost.

The foregoing description is only an overview of the present invention, and is intended to be implemented in accordance with the teachings of the present invention, as well as the preferred embodiments thereof, together with the following detailed description of the invention, given by way of illustration only, together with the accompanying drawings.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings required for the description of the embodiments will be briefly described below, and it is apparent that the drawings in the following description are only some embodiments of the present invention, and other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a flowchart of an execution computer program of a data processing system for acquiring facial image features according to an embodiment of the present invention.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to fall within the scope of the invention.

It should be noted that the terms "first," "second," and the like in the description and the claims of the present invention and the above figures are used for distinguishing between similar objects and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used may be interchanged where appropriate such that the embodiments of the invention described herein may be implemented in sequences other than those illustrated or otherwise described herein. Furthermore, the terms "comprises," "comprising," and "having," and any variations thereof, are intended to cover a non-exclusive inclusion, such that a process, method, system, article, or server that comprises a list of steps or elements is not necessarily limited to those steps or elements expressly listed or inherent to such process, method, article, or apparatus, but may include other steps or elements not expressly listed or inherent to such process, method, article, or apparatus.

The embodiment provides a data processing system for acquiring facial image features, which is characterized in that the system comprises: the image processing system comprises a database, a processor, a memory storing a computer program, a first image data processing platform and N second image data processing platforms, wherein the database comprises an initial face image set and a preset image information set of a target user, and when the computer program is executed by the processor, the following steps are realized, as shown in fig. 1:

s100, according to an initial face image set of a target user, a first face image list A= { A is obtained ₁ ，……，A _i ，……，A _λ And a second face image list b= { B ₁ ，……，B _j ，……，B _γ }，A _i For the first face image corresponding to the ith first target user, i= … … λ, λ is the number of the first target users, B _j For the second face image corresponding to the j-th second target user, j= … … γ, and γ is the number of second target users.

Specifically, the step S100 further includes the following steps:

s101, acquiring an initial face image set Q= { Q of a target user from a database ₁ ，……，Q _g ，……，Q _n }，Q _g For the g-th face image of the target user, g= … … n, n is the number of target users.

S102, according to Q, acquiring an initial time list T= { T corresponding to Q ₁ ，……，T _g ，……，T _n }，T _g Is Q _g Corresponding initial time nodes.

S103, when T ⁰ -T _g When T 'is less than or equal to T', T is taken as _g Corresponding Q _g Inserting a first initial face image list A '= { A' ₁ ，……，A' _q ，……，A' _b }，A' _q For the q first initial targetA first initial face image corresponding to the user, q= … … b, b being the number of first initial target users, wherein T ⁰ And T' is a preset first time threshold value for the current time node corresponding to the Q.

Specifically, the value range of T 'is 90 to 180 days, and those skilled in the art know that T' is selected according to actual requirements, which is not described herein.

S104, when T ⁰ -T _g At > T', T is taken _g Corresponding Q _g Inserting a second initial face image list B '= { B' ₁ ，……，B' _L ，……，B' _t }，B' _L For the second initial face image corresponding to the L-th second initial target user, l= … … t, where t is the number of second initial target users.

S105, when b > lambda ₀ When a=a 'and b=b' are acquired.

S106, when b is less than or equal to lambda ₀ When T 'is replaced by T' ₁ Wherein lambda is ₀ For a preset image quantity threshold value, T' ₁ Is a preset second time threshold.

Specifically, λ is performed according to the data amount storable by the second image data processing platform ₀ Is known to those skilled in the art, and is not described in detail herein.

Specifically, T' ₁ ＞T'。

By expanding the time range, more initial face images are distributed in the first initial face image set, the comparison quantity of the initial face images with preset image information in the database can be reduced, the face image searching and identifying range is reduced, and the real-time performance of face identification is improved.

S107, when T ⁰ -T _L ≤T' ₁ When B 'is to be used' _L Inserted into a 'to obtain a=a', wherein T _L Is B' _L Corresponding time nodes.

S108, when T ⁰ -T _L ＞T' ₁ When B 'is to be used' _j Deleted in B 'to obtain b=b'.

According to the method, the initial face images of the target users are divided and classified according to different times, the time is dynamically adjusted according to the data quantity which can be stored by the second image data processing platform, more face images are input into the second data platform, the face image searching and identifying range can be shortened, and the real-time performance of face identification is improved.

S200, inputting the A and the preset image information set into a second image data processing platform, and obtaining a first target image feature set AC= { AC corresponding to the A ₁ ,……，AC _i ,……，AC _λ }，AC _i Is A _i A corresponding first list of target image features.

Specifically, the step S200 further includes the following steps:

s201, acquiring a preset image information set M= { M from a database ₁ ，……，M _s ，……，M _v }，M _s For the s-th preset image information in the database, s= … … v, v is the number of preset image information.

S203, inputting M into N second image data processing platforms, and obtaining a target image vector list C corresponding to each second image data processing platform _h ＝{C _h0 ，……，C _hk ，……，C _hμ }, wherein C _hk For the kth target image vector corresponding to the (h) th second image data processing platform, h= … … N, C _hk ＝M _h+k*N ，M _h+k*N For the (h+k x N) th preset image information in M, k=0 … … μ,

according to the method, the preset image information is input to the N second image data processing platforms, a certain amount of preset image information is stored in each second image data processing platform, and the association relation is established by storing the data information in different platforms, so that the data storage space is reduced, and the accuracy of the obtained face image features is higher under the condition that the database information is not lost.

S205, pair C _hk Processing to obtain C _h Corresponding target image orientationQuantity type set C' _h ＝{C' _h1 ，……，C' _hβ ，……，C' _ha }，C' _hβ ＝{C' ¹ _hβ ，……，C' ^u _hβ ，……，C' ^w(β) _hβ }，C' ^u _hβ For the nth target image vector in the nth class in the nth second image data processing platform, u= … … w (β), w (β) is the number of target image vectors in the nth class, β= … … a, a is C' _h The number of target image vector types.

Specifically, in S205, the following steps are further included:

s2051 from C _h Mid-image vector type set H _h ＝{H _h1 ，……，H _hβ ，……，H _ha Sum H _h Corresponding initial center point set H ¹ _h ＝{H ¹ _h1 ，……，H ¹ _hβ ，……，H ¹ _ha }，H _hβ For the intermediate image vector of the beta type in the H second image data processing platform, H ¹ _hβ From C when initially unblustered _h The vector of the beta sample obtained in (1), wherein, the initial H _hβ ＝Null。

S2052 according to C _h And H ¹ _h Obtaining C _hk Corresponding target similarity list HC _hk ＝{HC ¹ _hk ，……，HC ^β _hk ，……，HC ^a _hk }，HC ^β _hk Is C _hk And H is ¹ _hβ The target similarity between the two can be calculated according to any model by a person skilled in the art, and will not be described here.

S2053, when HC ^β _hk Is HC (HC) _hk At the minimum of (C) _hk Inserted into H _hβ In order to obtain C' _hβ ＝H _hβ 。

S2054 according to H _hβ Obtaining H _h Corresponding intermediate center point set H ² _h ＝{H ² _h1 ，……，H ² _hβ ，……，H ² _ha }, wherein H ² _hβ Meets the following conditions:

wherein Y is ¹ _y To H after 1 st clustering _hβ The y-th preset image information, eta ₁ (H _hβ ) To H after 1 st clustering _hβ The number of image information is preset.

S2055, repeatedly executing S402-S404 to obtain H _h Corresponding target center point set H ^E _h ＝{H ^E _h1 ，……，H ^E _hβ ，……，H ^E _ha }, wherein H ^E _hβ Is the beta target center point obtained after the clustering of the (E-1) th time.

Specifically, the H ^E _hβ Acquisition mode and H of (2) ² _hβ The acquisition modes of the obtained images are consistent.

S2056, when H ^E _hβ ＝H ^E-1 _hβ At the time, C' _hβ ＝H _hβ 。

According to the method, the preset image information in each second image data processing platform is clustered, similar images are gathered into one type, and when the first face image is compared with the preset image information in the second image data processing platform, the face image recognition search range can be narrowed, so that the real-time performance of face recognition is improved.

Specifically, in S205, a meets the following condition:

a＝r ₁ (μ+1) ³ +r ₂ (μ+1) ² +r ₃ (μ+1)+r ₄ wherein r is ₁ For a preset first parameter, r ₂ For a preset second parameter, r ₃ R is a preset third parameter ₄ Is a preset fourth parameter.

Specifically, r ₁ The range of the value of (C) is-8 e ^-13 ～-5e ^-12 Wherein e is the euler constant.

Preferably, r ₁ The value of (2) is-4 e ^-12 。

Specifically, r ₂ The value range of (2) is 2e ^-8 ～3e ^-6 。

Preferably, r ₂ Has a value of 2e ^-7 。

Specifically, r ₃ The range of the value of (2) is-1 to 1.

Preferably, r ₃ Has a value of-0.0068.

Specifically, r ₄ The range of the value of (2) is 50-100.

Preferably, r ₄ Is 99.025.

Above-mentioned, carry out the adjustment of face image type quantity according to the size of face image data volume, the balance of performance and recall rate when can guaranteeing the data match for when obtaining initial face image feature, guarantee the efficiency of data operation and the comprehensiveness of data match, make the degree of accuracy of the face image feature who obtains higher.

S207, according to A and C' ^u _hβ Acquiring a first target image feature set AC= { AC corresponding to A ₁ ,……，AC _i ,……，AC _λ }，AC _i Is A _i A corresponding first list of target image features.

Specifically, in S207, the following steps are further included:

s2071, according to A _i And C' _h Obtaining A _i Corresponding first similarity list F ⁱ _h ＝{F ⁱ _h1 ，……，F ⁱ _hβ ，……，F ⁱ _ha }，F ⁱ _hβ Is A _i And C' _hβ Is a first similarity of (c).

Specifically, in S2071, the following steps are further included:

s20711, according to A, obtaining a first face image vector list A corresponding to A ⁰ ＝{A ⁰ ₁ ，……，A ⁰ _i ，……，A ⁰ _λ }，A ⁰ _i Is A _i Corresponding first face diagramAn image vector.

Specifically, the model for converting the first face image into the first face image vector is selected by a person skilled in the art according to actual requirements, and will not be described herein.

S20713, according to A ⁰ Obtaining A ⁰ _i ＝(A ⁰ _i1 ，……，A ⁰ _ix ，……，A ⁰ _ip ) Wherein A is ⁰ _ix Is A ⁰ _i The bit value of the x-th bit in (1), x= … … p, p is the dimension of the first face image vector.

S20715, according to C' _h Obtaining C' ^u _hβ ＝(C' ^u1 _hβ ，……，C' ^ux _hβ ，……，C' ^up _hβ ) Wherein C' ^ux _hβ Is C' ^u _hβ Bit value of the x-th bit in (b).

S20717 according to A ⁰ _ix And C' ^ux _hβ Obtaining a first similarity F ⁱ _hβ Wherein F is ⁱ _hβ Meets the following conditions:

s2073, when F ⁱ _hβ ≥F ₀ At the time, obtain A _i Corresponding second similarity list F ⁱ _hβ ＝{F ⁱ¹ _hβ ，……，F ^iu _hβ ，……，F ^iw(β) _hβ }，F ^iu _hβ Is A _i And C' ^u _hβ Is of the second similarity of F ₀ Is a preset first similarity threshold.

Specifically, F ^iu _hβ Acquisition mode and F of (2) ⁱ _hβ The acquisition modes of the obtained images are consistent.

Specifically, F ₀ The value range of (2) is 0.85-0.9, and the preset similarity threshold is set by the person skilled in the art according to the actual requirement, and will not be described herein.

S2075, when F ^iu _hβ ≥F ₁ At the time, the AC is acquired _i Wherein F ₁ Is a preset second similarity threshold. .

Specifically, F ₁ The value range of (2) is 0.85-0.9, and the preset similarity threshold is set by the person skilled in the art according to the actual requirement, and will not be described herein.

Specifically, F ₀ ＝F ₁ 。

Specifically, the second image data processing platform further includes C _h Corresponding first image feature list FC _h ＝{FC _h0 ,……，FC _hk ，……，FC _hμ }，FC _hk ＝{FC ¹ _hk ，……，FC ^θ _hk ，……，FC ^ζ _hk }，FC ^θ _hk Is C _hk Corresponding to the first record included in the θ -th first field in the first image feature list, θ= … … ζ, where ζ is the number of first fields.

Specifically, in S2075, the following steps are further included:

s20751, when F ^iu _hβ ≥F ₀ At the time, F is acquired ^iu _hβ Corresponding C' ^u _hβ 。

S20753, when C' ^u _hβ ＝C _hk At the time, the AC is acquired _i ＝FC _hk 。

The first face image is compared with the target image vector types in each second image data processing platform, the target image vector types meeting the conditions are selected according to the preset similarity threshold, and then the comparison is carried out with the target image vectors meeting the conditions, so that the face image searching range can be narrowed, the real-time performance of face recognition is improved, meanwhile, the data storage space is reduced, and the accuracy of the obtained face image features is higher under the condition that database information is not lost.

S300 according to AC _i The first image data processing platform acquires a second target image feature set AD= { AD corresponding to the A ₁ ,……，AD _i ,……，AD _λ }，AD _i Is A _i And a corresponding second target image feature list.

Specifically, the first image data processing platform further includes a second image feature list M ' = { M ' corresponding to M ' ₁ ，……，M' _s ，……，M' _v }，M' _s ＝{M' _s1 ，……，M' _sε ，……，M' _sη }，M' _sε Is M _s And the epsilon=1 … … eta, eta is the number of the second fields, of the second records contained in the epsilon second field in the corresponding second image feature list.

Specifically, the step S300 includes the following steps:

s301, when the theta first field is a preset field and the epsilon second field is a preset field, obtaining the FC ^θ _hk And M' _sε Wherein the preset field is an ID.

S303, when s=h+k×n, obtaining AD _i ＝M' _s 。

By associating the data in the first image data processing platform with the data in the second image data processing platform, the second image data processing platform with less stored data is subjected to the same ID matching with the first image data processing platform, so that all the information of the first face image is obtained, the searching range of the face image is reduced, the real-time performance of face recognition is improved, and meanwhile, the accuracy of the obtained face image features is higher under the condition that the database information is not lost.

S400, AD _i And sending the message to the ith first target user.

S500, inputting the B and the preset image information set into a first image data processing platform, and acquiring a second target image feature set BD= { BD corresponding to the B ₁ ,……，BD _j ,……，BD _γ }，BD _j Is B _j And a corresponding second target image feature list.

Specifically, in S500, the following steps are further included:

s501, according to B, obtaining a second face image vector column corresponding to BTable B ⁰ ＝{B ⁰ ₁ ，……，B ⁰ _j ，……，B ⁰ _γ }，B ⁰ _j And the j second face image vector is the j second face image vector in the B.

Specifically, the mode of acquiring the second face image vector is consistent with the mode of acquiring the first face image vector, and the fact that the acquired vector forms are inconsistent due to different modes can be avoided by ensuring the consistency of the acquisition modes, the accuracy of subsequent similarity calculation is affected, and therefore the accuracy of the acquired face image features is affected.

S503, according to B and M, obtaining B _j Corresponding third similarity list BM _j ＝{BM ¹ _j ，……，BM ^s _j ，……，BM ^v _j }，BM ^s _j Is B _j And M is as follows _s Is a third similarity of (3).

Specifically, BM ^s _j Acquisition mode of F ^iu _hβ Acquisition mode and BM of (a) ^s _j The acquisition modes of the obtained images are consistent.

S505, when BM ^s _j ≥F ₂ At the time of acquiring BD _j Wherein F is ₂ Is a preset third similarity threshold.

Specifically, F ₂ The value range of (2) is 0.85-0.9, and the preset similarity threshold is set by the person skilled in the art according to the actual requirement, and will not be described herein.

Specifically, F ₀ ＝F ₁ ＝F ₂ 。

Specifically, in S505, the following steps are further included:

s5051, when BM ^s _j ≥F ₀ At the time, obtain B _j Corresponding M _s 。

S5053 according to M _s And M' _s Obtaining BD _j ＝{M' _s1 ，……，M' _sε ，……，M' _sη }。

S600, BD is processed _j And transmitting to the j second target user.

The invention provides a data processing system for acquiring facial image characteristics, which comprises: the system comprises a database, a processor, a memory storing a computer program, a first image data processing platform and N second image data processing platforms, wherein the database comprises an initial face image set and a preset image information set of a target user, and when the computer program is executed by the processor, the following steps are realized: the method comprises the steps of obtaining a first face image list and a second face image list according to an initial face image set, inputting the first face image list and a preset image information set into N second image data processing platforms, obtaining a first target image feature set corresponding to a first face image, obtaining a second target image feature set corresponding to the first face image according to the first target image feature set and the first image data processing platform and sending the second target image feature set to a first target user, inputting the second face image list and the preset image information set into the first image data processing platform, obtaining a second target image feature set corresponding to a second face image and sending the second target image feature set to the second target user. According to the invention, on one hand, the initial face images are classified, and different types of initial face images are processed respectively by utilizing different time conditions, so that the searching range of the face images is reduced, and the real-time performance of face recognition is improved; on the other hand, the time condition is dynamically adjusted, the data information is stored in different platforms, and the data storage space is reduced by establishing the association relation, so that the accuracy of the obtained facial image features is higher under the condition that the database information is not lost.

While certain specific embodiments of the invention have been described in detail by way of example, it will be appreciated by those skilled in the art that the above examples are for illustration only and are not intended to limit the scope of the invention. Those skilled in the art will also appreciate that many modifications may be made to the embodiments without departing from the scope and spirit of the invention. The scope of the invention is defined by the appended claims.

Claims (8)

1. A data processing system for acquiring facial image features, the system comprising: the system comprises a database, a processor, a memory storing a computer program, a first image data processing platform and N second image data processing platforms, wherein the database comprises an initial face image set and a preset image information set of a target user, and when the computer program is executed by the processor, the following steps are realized:

s100, according to an initial face image set of a target user, a first face image list A= { A is obtained ₁ ，……，A _i ，……，A _λ And a second face image list b= { B ₁ ，……，B _j ，……，B _γ }，A _i For the first face image corresponding to the ith first target user, i= … … λ, λ is the number of the first target users, B _j For the second face image corresponding to the j-th second target user, j= … … γ, where γ is the number of second target users; wherein, in S100, the method further comprises the following steps:

s101, acquiring an initial face image set Q= { Q of a target user from a database ₁ ，……，Q _g ，……，Q _n }，Q _g For the g-th face image of the target user, g= … … n, n being the number of target users;

s102, according to Q, acquiring an initial time list T= { T corresponding to Q ₁ ，……，T _g ，……，T _n }，T _g Is Q _g A corresponding initial time node;

s103, when T ⁰ -T _g When T 'is less than or equal to T', T is taken as _g Corresponding Q _g Inserting a first initial face image list A '= { A' ₁ ，……，A' _q ，……，A' _b }，A' _q For the first initial face image corresponding to the q-th first initial target user, q= … … b, where b is the number of first initial target users, where T ⁰ The current time node corresponding to the Q is set, and T' is a preset first time threshold;

s104, when T ⁰ -T _g At > T', T is taken _g Corresponding Q _g Inserting a second initial face image list B '= { B' ₁ ，……，B' _L ，……，B' _t }，B' _L For the second initial face image corresponding to the L-th second initial target user, l= … … t, where t is the number of second initial target users;

s105, when b > lambda ₀ When a=a 'and b=b' are acquired;

s106, when b is less than or equal to lambda ₀ When T 'is replaced by T' ₁ Wherein lambda is ₀ For a preset image quantity threshold value, T' ₁ A preset second time threshold value;

s107, when T ⁰ -T _L ≤T' ₁ When B 'is to be used' _L Inserted into a 'to obtain a=a', wherein T _L Is B' _L A corresponding time node;

s108, when T ⁰ -T _L ＞T' ₁ When B 'is to be used' _j Deleting in B 'to obtain b=b';

s200, inputting the A and the preset image information set into a second image data processing platform, and obtaining a first target image feature set AC= { AC corresponding to the A ₁ ,……，AC _i ,……，AC _λ }，AC _i Is A _i A corresponding first target image feature list; wherein, in S200, the following steps are included:

s201, acquiring a preset image information set M= { M from a database ₁ ，……，M _s ，……，M _v }，M _s S= … … v for the s-th preset image information in the database, v being the number of preset image information;

s203, inputting M into N second image data processing platforms, and obtaining a target image vector list C corresponding to each second image data processing platform _h ＝{C _h0 ，……，C _hk ，……，C _hμ }, wherein C _hk For the kth target image vector corresponding to the (h) th second image data processing platform, h= … … N, C _hk ＝M _h+k*N ，M _h+k*N For the (h+k x N) th preset image information in M, k=0 … … μ,

s205, pair ofC _hk Processing to obtain C _h Corresponding set of target image vector types C' _h ＝{C' _h1 ，……，C' _hβ ，……，C' _ha }，C' _hβ ＝{C' ¹ _hβ ，……，C' ^u _hβ ，……，C' ^w(β) _hβ }，C' ^u _hβ For the nth target image vector in the nth class in the nth second image data processing platform, u= … … w (β), w (β) is the number of target image vectors in the nth class, β= … … a, a is C' _h The number of target image vector types;

s207, according to A and C' ^u _hβ Acquiring a first target image feature set AC= { AC corresponding to A ₁ ,……，AC _i ,……，AC _λ }，AC _i Is A _i A corresponding first target image feature list, wherein in S207 the steps further comprise:

s2071, according to A _i And C' _h Obtaining A _i Corresponding first similarity list F ⁱ _h ＝{F ⁱ _h1 ，……，F ⁱ _hβ ，……，F ⁱ _ha }，F ⁱ _hβ Is A _i And C' _hβ Is a first similarity of (2);

s2073, when F ⁱ _hβ ≥F ₀ At the time, obtain A _i Corresponding second similarity list F ⁱ _hβ ＝{F ⁱ¹ _hβ ，……，F ^iu _hβ ，……，F ^{iw (β)} _hβ }，F ^iu _hβ Is A _i And C' ^u _hβ Is of the second similarity of F ₀ Is a preset first similarity threshold;

s2075, when F ^iu _hβ ≥F ₁ At the time, the AC is acquired _i Wherein F ₁ Is a preset second similarity threshold;

s300 according to AC _i The first image data processing platform acquires a second target image feature set AD= { AD corresponding to the A ₁ ,……，AD _i ,……，AD _λ }，AD _i Is A _i A corresponding second target image feature list;

s400, AD _i Transmitting to the ith first target user;

s500, inputting the B and the preset image information set into a first image data processing platform, and acquiring a second target image feature set BD= { BD corresponding to the B ₁ ,……，BD _j ,……，BD _γ }，BD _j Is B _j A corresponding second target image feature list;

s600, BD is processed _j And transmitting to the j second target user.

2. The data processing system for acquiring facial image features according to claim 1, wherein the value of T' ranges from 90 days to 180 days.

3. A data processing system for acquiring facial image features as in claim 1, wherein T' ₁ ＞T'。

4. The data processing system for acquiring facial image features according to claim 1, wherein said second image data processing platform further comprises C _h Corresponding first image feature list FC _h ＝{FC _h0 ,……，FC _hk ，……，FC _hμ }，FC _hk ＝{FC ¹ _hk ，……，FC ^θ _hk ，……，FC ^ζ _hk }，FC ^θ _hk Is C _hk Corresponding to the first record included in the θ -th first field in the first image feature list, θ= … … ζ, where ζ is the number of first fields.

5. The data processing system for acquiring facial image features as recited in claim 4, comprising the step of, in S2075:

s20751, when F ^iu _hβ ≥F ₁ At the time, F is acquired ^iu _hβ Corresponding C' ^u _hβ ；

S20753, when C' ^u _hβ ＝C _hk At the time, the AC is acquired _i ＝FC _hk 。

6. The data processing system for acquiring facial image features according to claim 1, wherein the first image data processing platform further comprises a second image feature list M ' = { M ' corresponding to M ' ₁ ，……，M' _s ，……，M' _v }，M' _s ＝{M' _s1 ，……，M' _sε ，……，M' _sη }，M' _sε Is M _s And the epsilon=1 … … eta, eta is the number of the second fields, of the second records contained in the epsilon second field in the corresponding second image feature list.

7. The data processing system for acquiring facial image features as recited in claim 6, wherein in S300, comprising the steps of:

s301, when the theta first field is a preset field and the epsilon second field is a preset field, obtaining the FC ^θ _hk And M' _sε Wherein the preset field is an ID;

s303, when s=h+k×n, obtaining AD _i ＝M' _s 。

8. The data processing system for acquiring facial image features according to claim 6, further comprising the step of, in S500:

s501, according to B, obtaining a second face image vector list B corresponding to B ⁰ ＝{B ⁰ ₁ ，……，B ⁰ _j ，……，B ⁰ _γ }，B ⁰ _j The j-th second face image vector in the B;

s503, according to B ⁰ And M, obtain B _j Corresponding third similarity list BM _j ＝{BM ¹ _j ，……，BM ^s _j ，……，BM ^v _j }，BM ^s _j Is B _j And M is as follows _s Is a third similarity of (2);

s505, when BM ^s _j ≥F ₂ At the time of acquiring BD _j Wherein F is ₂ Is a preset third similarity threshold, where in S505, the method further includes the following steps:

s5051, when BM ^s _j ≥F ₂ At the time, obtain B _j Corresponding M _s ；

S5053 according to M _s And M' _s Obtaining BD _j ＝{M' _s1 ，……，M' _sε ，……，M' _sη }。

Images