CN113838239B - Data processing method and device, verification system and electronic equipment - Google Patents

Abstract

The embodiment of the invention provides a data processing method, a data processing device, a verification system and electronic equipment. The data processing method comprises the following steps: acquiring traffic data of a traffic channel in a set time period and an image of a verification area where verification equipment for controlling the traffic channel is located; analyzing the image of the verification area and the traffic data, and determining traffic state information of the traffic channel according to an analysis result; determining traffic guiding information for guiding the user to be passed according to the traffic state information; and sending the passage guiding information to verification equipment corresponding to the passage channel, so that a first indicating device of the verification equipment displays the passage guiding information. The data processing method can improve the traffic efficiency.

Description

Data processing method and device, verification system and electronic equipment

Technical Field

The embodiment of the invention relates to the technical field of computers, in particular to a data processing method, a data processing device, a verification system and electronic equipment.

Background

Existing verification devices generally have only a traffic control function, such as placing the verification device at a venue entrance, and performing verification by collecting information of traffic personnel to control whether traffic is allowed. The verification device has single function, cannot cope with complex entrance or exit demands and changeable use environments, and workers can only rely on subjective experience to perform verification device configuration. During on-site verification, more manpower is required to be configured for order maintenance and maintenance on verification equipment, so that the verification equipment can work normally, the existing stadium entrance and exit verification still needs to rely on manpower to a large extent, and the problems of high verification cost, insufficient intelligence and the like exist.

Disclosure of Invention

Accordingly, embodiments of the present invention provide a data processing scheme to at least partially solve the above-mentioned problems.

According to a first aspect of an embodiment of the present invention, there is provided a data processing method including: acquiring traffic data of a traffic channel in a set time period and an image of a verification area where verification equipment for controlling the traffic channel is located; analyzing the image of the verification area and the traffic data, and determining traffic state information of the traffic channel according to an analysis result; determining traffic guiding information for guiding the user to be passed according to the traffic state information; and sending the passage guiding information to verification equipment corresponding to the passage channel, so that a first indicating device of the verification equipment displays the passage guiding information.

According to a second aspect of an embodiment of the present invention, there is provided a verification system comprising: a verification system, comprising: the system comprises a service end and verification equipment, wherein the service end is in communication connection with the verification equipment; the server side is used for acquiring an image of a verification area where the verification equipment is located and traffic data of a traffic channel controlled by the verification equipment, analyzing the image of the verification area and the traffic data, determining traffic state data according to an analysis result, and determining traffic guiding information for guiding a user to be passed according to the traffic state information; transmitting the traffic guidance information to the corresponding verification device; the verification device is used for controlling the first indicating device to display according to the traffic guiding information.

According to a third aspect of an embodiment of the present invention, there is provided a data processing apparatus including: the acquisition module is used for acquiring the traffic data of the traffic channel in a set time period and the image of the verification area where the verification equipment for controlling the traffic channel is located; the analysis module is used for analyzing the image of the verification area and the traffic data and determining traffic state information of the traffic channel according to an analysis result; the first determining module is used for determining traffic guiding information for guiding the user to be passed according to the traffic state information; and the sending module is used for sending the traffic guiding information to the verification equipment corresponding to the traffic channel so as to enable the first indicating device of the verification equipment to display according to the traffic guiding information.

According to a fourth aspect of an embodiment of the present invention, there is provided an electronic device including: the system comprises a processor, a memory, a passing interface and a passing bus, wherein the processor, the memory and the passing interface complete the passing among each other through the passing bus; the memory is configured to store at least one executable instruction, where the executable instruction causes the processor to perform operations corresponding to the data processing method according to the first aspect.

According to a fifth aspect of an embodiment of the present invention, there is provided a computer storage medium having stored thereon a computer program which, when executed by a processor, implements the data processing method according to the first aspect.

According to the data processing scheme provided by the embodiment of the invention, the pass data of the pass channel and the image of the check area where the check equipment for controlling the pass channel is located are acquired, the digitization of entrance and exit pass demands is realized, the integration, gathering and analysis of the data are realized by analyzing the pass data and the image of the check area, the pass state information is determined according to the analysis result, the pass guide information is determined according to the pass state information, and the pass guide information is sent to the check equipment, so that the first indicating device of the check equipment displays the pass guide information to guide the user to be passed for check, and/or guide the staff for maintenance, so that the check equipment is more intelligent and efficient, the manpower required by check is reduced, and the manpower cost is reduced.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments described in the embodiments of the present invention, and other drawings may be obtained according to these drawings for a person having ordinary skill in the art.

FIG. 1a is a flowchart illustrating steps of a data processing method according to a first embodiment of the present invention;

FIG. 1b is a schematic diagram of a verification device arrangement in one example scenario in the embodiment of FIG. 1 a;

FIG. 1c is a schematic diagram of an example of a scenario in the embodiment of FIG. 1 a;

FIG. 2 is a flow chart showing steps of a data processing method according to a second embodiment of the present invention;

FIG. 3a is a flowchart illustrating a data processing method according to a third embodiment of the present invention;

FIG. 3b is a schematic diagram of an example of a scenario in the embodiment shown in FIG. 3 a;

FIG. 4 is a flow chart showing the steps of a data processing method according to a fourth embodiment of the present invention;

FIG. 5a is a block diagram of a verification system according to a fifth embodiment of the present invention;

fig. 5b is a schematic perspective view of a verification device in a verification system according to a fifth embodiment of the present invention;

FIG. 6 is a block diagram showing a data processing apparatus according to a sixth embodiment of the present invention;

fig. 7 is a schematic structural diagram of an electronic device according to a seventh embodiment of the present invention.

Detailed Description

In order to better understand the technical solutions in the embodiments of the present invention, the following description will clearly and completely describe the technical solutions in the embodiments of the present invention with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. All other embodiments, which are derived by a person skilled in the art based on the embodiments of the present invention, shall fall within the scope of protection of the embodiments of the present invention.

The implementation of the embodiments of the present invention will be further described below with reference to the accompanying drawings.

Example 1

Referring to FIG. 1a, a flowchart of the steps of a data processing method according to a first embodiment of the present invention is shown.

In this embodiment, the data processing method is applied to a server of a verification system, where the verification system includes a server and a plurality of verification devices, and the server is communicatively connected to the verification devices. As shown in fig. 1b, the verification device is deployed within the verification area of the venue.

In this embodiment, the verification device is provided with an image acquisition device, and the image acquisition device is used for acquiring the target image. It should be noted that, the image capturing area in fig. 1b is only for illustrative purposes, and is not limited to the image capturing area, and the range of the image capturing area formed by using different image capturing devices is different, and the image capturing device in this embodiment may be a wide-angle camera. Further, the verification area in the present embodiment may be determined as needed, for example, the verification area includes an area where verification devices are placed and a queuing area in addition thereto. The image acquisition region includes at least a portion of the verification region.

The server is in communication connection with the plurality of verification devices, acquires data from the plurality of verification devices, analyzes the acquired data, determines traffic state information for controlling the verification devices according to analysis results, gathers and analyzes the data of the plurality of verification devices, and controls the verification devices according to analysis results, so that verification of the verification devices is more intelligent and efficient, the number of workers required to be configured during working of the verification devices is reduced, the degree of dependence on manpower is reduced, and verification cost is reduced.

The data processing method of the present embodiment includes the steps of:

step S102: and acquiring traffic data of a traffic channel in a set time period and an image of a verification area where verification equipment for controlling the traffic channel is located.

In this embodiment, as shown in fig. 1b, the number of the passage channels is multiple, and the passage channels may be channels formed by a plurality of verification devices placed in the verification area at intervals, and used for the user to enter or leave the venue. Each passage channel is provided with at least one corresponding verification device, and the verification device is used for controlling the on-off of the corresponding passage channel to be passed. For example, the verification device determines whether the user to be passed has passing authority by collecting credential data of the user to be passed and verifying the user to be passed according to the credential data, and if the user to be passed has the passing authority, the verification device can control the corresponding passing channel to be opened so as to allow the user to be passed; otherwise, if the passing authority is not available, the passing channel is not opened, and the user to be passed is prevented from passing.

The set period of time may be determined as desired, and the set period of time may be 1 minute, 5 minutes, 10 minutes, 30 minutes, or the like.

Traffic data for the traffic channel includes, but is not limited to: user data of passing users, user passing time and the like.

The user data includes user identification (e.g., ID, nickname, etc.), user verification data, user transit time, etc. The verification data comprises credential data, verification modes, verification results, credential data acquisition time and the like. The credential data can be two-dimensional code data, face data, an electronic ticket number and the like which are acquired after the user authorization. The verification mode can be face verification, certificate verification, two-dimensional code verification and the like. The verification result may be verification pass, verification fail, or the like. The user passing time takes the acquisition time of the credential data as the starting time, and the leaving time of the user leaving the passing channel is detected as the ending time.

In this embodiment, a specific manner of acquiring the traffic data may be: and acquiring verification data of the verification equipment from the verification equipment, and determining user identification, verification mode, user traffic time and the like according to the verification data.

The image of the verification area in which the verification device is located can be determined according to the target image acquired by the image acquisition device in each verification device.

Step S104: and analyzing the image of the verification area and the traffic data, and determining traffic state information of the traffic channel according to an analysis result.

In a specific implementation, the number of users to be passed corresponding to each passage is determined by performing image recognition on the image of the verification area, and verification efficiency of verification equipment corresponding to each passage is determined by analyzing the passage data of each passage. Verification efficiency is used to indicate the actual number of verification users per unit time period (typically consistent with the number of users passing). The unit time may be determined as needed, and may be, for example, 1 minute, 5 minutes, 10 minutes, or the like.

And determining the traffic state information corresponding to each traffic channel according to the number of the users to be passed of each traffic channel in the analysis result and the verification efficiency of the verification equipment corresponding to each traffic channel. The traffic status information may indicate whether the corresponding traffic channel is faulty or congested.

Of course, in other embodiments, the images of the verification area, as well as the traffic data, may be analyzed in any other suitable manner, which is not limited by this embodiment.

Step S106: and determining traffic guiding information for guiding the user to be passed according to the traffic state information.

For example, if it is determined that a certain traffic channel is fault-free and not congested according to the traffic state information, traffic guidance information for guiding a user to be traffic to check and pass through the traffic channel may be determined. This traffic guidance information may be represented in any suitable manner, such as by the designation "1," or by other means, etc.

For another example, if it is determined that a certain traffic channel is congested or a corresponding verification device is faulty according to the traffic state information, traffic guidance information for guiding the user to be passed to and through other traffic channels may be determined. This traffic guidance information may be represented in any suitable manner, such as by the designation "0," or in other manners, etc.

Step S108: and sending the passage guiding information to verification equipment corresponding to the passage channel, so that a first indicating device of the verification equipment displays the passage guiding information.

The first indicating device is arranged on the verification equipment, faces to the entrance of the passage and is mainly used for displaying information to the user to be passed.

The server side sends the traffic guidance information to the verification device, so that the verification device controls the first indicating device according to the traffic guidance information to display corresponding guidance content, and accordingly information is transmitted to the user to be passed, and guidance of the user to be passed is achieved.

For example, the server side transmits the traffic guidance information of each traffic channel to the verification device corresponding to the traffic guidance information. For the verification device a, the verification device a acquires the traffic guidance information 1 of the traffic channel a, and controls the first indicating device to display the traffic guidance information (display smooth text content or display a pattern for expressing smooth traffic meaning, etc.) that the traffic channel a can normally pass according to the traffic guidance information 1, so as to guide the queued user to be passed.

It should be noted that the traffic guidance information may be any suitable form of information, for example, may be patterns, characters, voices, colors, and the like.

The following describes the data processing method in connection with a specific usage scenario:

as shown in fig. 1c, in the present usage scenario, the server is communicatively connected to a plurality of verification devices (verification devices a to e shown in fig. 1 c), and the server acquires, from each verification device, a target image acquired by an image acquisition device on the verification device and verification data of each verification device within the last 10 minutes.

An image of the verification region is obtained from the target image. And determining the traffic data of each traffic channel within the last 10 minutes according to the verification data of the verification device corresponding to each traffic channel. The traffic data includes the number of traffic users each traffic channel passes in the last 10 minutes, the time of user traffic of each traffic user, and the like.

The server analyzes the images and the traffic data of the check areas to obtain analysis results, wherein the analysis results comprise the number of users to be passed in each traffic channel and the check efficiency of the corresponding check equipment, the traffic state information of each traffic channel is determined according to the analysis results, the traffic guiding information corresponding to each traffic channel is determined according to the traffic state information, and the traffic guiding information is sent to the corresponding check equipment. The verification device controls the first indicating device to display according to the traffic guiding information.

Through the mode, the data integration of each verification device is realized, verification is not carried out through independent verification devices one by one, but the data of a plurality of verification devices are gathered and analyzed, and comprehensive adjustment is carried out according to the analysis result, so that the intelligence of verification is improved, special staff is not required to be configured for each passing channel for dredging and maintaining, and the dependence on manpower is effectively reduced.

According to the embodiment, the pass data of the pass channel and the image of the check area where the check equipment for controlling the pass channel is located are acquired, the digitization of entrance and exit pass demands is realized, the integration, gathering and analysis of the data are realized by analyzing the pass data and the image of the check area, the pass state information is determined according to the analysis result, the pass guide information is determined according to the pass state information, the pass guide information is sent to the check equipment, the first indicating device of the check equipment displays the pass guide information so as to guide the user to be checked, and/or the staff is guided to maintain, so that the check of the check equipment is more intelligent and efficient, the manpower required by the check is reduced, and the manpower cost is reduced.

Example two

Referring to fig. 2, a flowchart of steps of a data processing method according to a second embodiment of the present invention is shown.

In this embodiment, the data processing method is still described as an example of being configured at the server. Those skilled in the art will appreciate that in other embodiments, the data processing method may be configured on any verification device, and this embodiment is not limited in this regard.

In this embodiment, the data processing method includes the steps S102 to S108 described above. The step S102 of acquiring the image of the verification area where the verification device is located may be implemented through the sub-steps S1021 and S1022.

Substep S1021: and acquiring target images acquired by the image acquisition devices of the verification equipment corresponding to the plurality of traffic channels.

In this embodiment, the image pickup apparatus may be a wide-angle camera, by which the target image is photographed. The target image includes an image of at least a portion of the verification region. As shown in fig. 1b, there is a partial overlap in the image acquisition areas of the wide-angle cameras on two adjacent verification devices.

Of course, in other embodiments, the image acquisition device on the verification apparatus may be other suitable devices having image acquisition capabilities.

The server is in communication connection with the verification device, so that a target image is acquired.

Sub-step S1022: and according to the relative position relation among the image acquisition areas corresponding to the plurality of target images, performing stitching processing on the target images, and obtaining the images of the verification areas.

In one possible manner, the relative position relationship between the image acquisition areas can be recorded in advance, and for the acquired target images, the image position relationship between the target images can be determined according to the relative position relationship between the image acquisition areas corresponding to the target images, so that the target images can be spliced according to the image position relationship to form the complete image of the verification area.

For example, the target images 1 to 3 correspond to the image acquisition regions I to III, respectively. According to the relative position relation between the image acquisition areas, determining that the image acquisition area I is adjacent to the image acquisition area II, and the image acquisition area II is adjacent to the image acquisition area III, wherein the determined image position relation is that the right side of the target image 1 is overlapped with the left side of the target image 2, the right side of the target image 2 is overlapped with the left side of the target image 3, and splicing the target images according to the image position relation to obtain the image of the verification area.

In another possible way, image recognition can be performed on the target images, and the relative position relationship between the image acquisition areas corresponding to the plurality of target images is determined according to the recognition result, so that the target images are spliced.

Taking the target images 1-3 as an example, image recognition is carried out on the 3 target images, and feature data of each target image is obtained. For the target image 1, the feature data of the target image 1 and the feature data of the target images 2 and 3 are respectively matched, and the target image (namely, the target image 2) with an overlapped part of the target image 1 and the relative position relation between the image acquisition area corresponding to the overlapped target image and the image acquisition area corresponding to the target image 1 are determined. By the method, the relative position relation between the image acquisition areas corresponding to the target images can be determined, and then the target images are spliced according to the relative position relation, so that the image of the verification area is obtained.

Optionally, in this embodiment, in order to enhance the intelligence of the verification, the verification function is enriched, and the data processing method of this embodiment further includes steps S110 to S114 in addition to performing the stitching process on the target image to obtain the image of the verification region.

Step S110: and carrying out face recognition on the target image acquired by the image acquisition device, and obtaining face characteristic information of the user to be passed, which is included in the target image.

The person skilled in the art may perform face recognition on the target image in any suitable manner, for example, using a neural network model with face recognition function, etc.

Step S112: and matching the face characteristic information with preset target face characteristic information, and determining whether the user to be passed contains a target object according to a matching result.

The preset target person characteristic information may be determined as needed, for example, the target person may be a lost child or the like. Taking the example of finding a lost child, if a parent and a child (the child is a target person) are lost in a venue, the parent can provide an image containing the face of the target person to a worker, the worker sends the image to a server, and the server performs face recognition on the image to obtain the characteristic information of the target person. And then, the server matches the target character characteristic information with the face characteristic information acquired from the target image, and determines the similarity between each face characteristic information and the target character characteristic information.

If it is determined that the face feature information has the face feature information with the similarity greater than or equal to the set value (the set value may be set according to the requirement, such as 100% or 90%, etc.) with the target person feature information according to the similarity, it is determined that the user to be passed includes the target object, and step S112 is performed; otherwise, if the facial feature information with the similarity being greater than or equal to the set value does not exist, the action is not performed.

Step S114: and if the target object is contained, generating and sending a prompt message.

The alert message may be any suitable form of message. Such as a hint message may carry a target image that includes the target object. The prompt message can be sent to the verification device and displayed by the verification device, so that a worker close to the target object can quickly establish contact with the target object, and the target object is prevented from being lost again. The alert message may also be sent to other required terminal devices, such as the terminal devices of police authorities, other staff members, etc.

In addition, face characteristic information based on face recognition can be subjected to pre-verification, for example, the face characteristic information is matched with face characteristic information acquired during prestored ticket purchasing, so that the waiting users in line are subjected to pre-verification, the residence time of the users in a passing channel is reduced, and verification efficiency can be improved.

The verification device is fully utilized in the mode, the target image acquired by the verification device is effectively utilized, the functions of the verification device are enriched, and the verification device has the specific target object searching and alarming functions.

According to the embodiment, the pass data of the pass channel and the image of the check area where the check equipment for controlling the pass channel is located are acquired, the digitization of entrance and exit pass demands is realized, the integration, gathering and analysis of the data are realized by analyzing the pass data and the image of the check area, the pass state information is determined according to the analysis result, the pass guide information is determined according to the pass state information, the pass guide information is sent to the check equipment, the first indicating device of the check equipment displays the pass guide information so as to guide the user to be checked, and/or the staff is guided to maintain, so that the check of the check equipment is more intelligent and efficient, the manpower required by the check is reduced, and the manpower cost is reduced.

Example III

Referring to fig. 3a, a flow chart of steps of a data processing method according to a third embodiment of the present invention is shown.

In this embodiment, the data processing method is still described as an example of being configured at the server. Those skilled in the art will appreciate that in other embodiments, the data processing method may be configured on any verification device, and this embodiment is not limited in this regard.

The data processing method of the present embodiment includes the aforementioned steps S102 to S108, and may include steps S110 to S114 as required. Step S102 may be implemented in any of the foregoing manners. Step S104 may include sub-steps S1041 to S1043.

Substep S1041: and determining the number of users to be passed corresponding to the passage according to the identification result of carrying out image identification on the image of the verification area.

In this embodiment, the number of the traffic channels is plural, and the verification area includes queuing areas corresponding to the plurality of traffic channels. The queuing area refers to an area except a passing channel in the verification area. The users to be passed are queued in the queuing area to wait for entering the passage for verification.

In a specific implementation, the substep S1041 may be implemented as: performing face recognition on the image of the verification area to obtain a face in the queuing area and position information of the face; and determining the number of users to be passed corresponding to the passing channels according to the position information of the face and the position information of the passing channels.

The face contained in the image of the verification area and the position information of each face can be determined by recognizing the face of the spliced image of the verification area.

According to the position information of the faces and the position information of the passing channels, the passing channel to which each face belongs can be determined, so that the number of users to be passed corresponding to each passing channel is determined.

The position information of the traffic channel may be preset, or may be determined by means of image recognition or the like, which is not limited in this embodiment. Taking the passing channel 1 as an example, the shape of the passing channel 1 is quadrilateral, the position information of the passing channel 1 is coordinates of four vertexes, namely A (x 1, y 1), B (x 2, y 2), C (x 3, y 3) and D (x 4, y 4), then the position information of the queuing area I corresponding to the passing channel 1 can be determined according to the position information of the passing channel 1 and the length and width of the image of the verification area, and then the face overlapped with the queuing area I is determined as the user to be passed corresponding to the passing channel 1 according to the position information of each face.

Sub-step S1042: and determining the verification efficiency of the verification equipment corresponding to the passage according to the passage data in the set time period.

In this embodiment, the traffic data includes user data of the traffic user, and the user data includes user traffic time, for example, the user traffic time of the user a is (st 1, et 1), which indicates that the user a is acquired with credential data at the time st1, and leaves the traffic channel at the time et 1.

The verification efficiency of the verification device controlling the passage can be determined according to the user passage time. The verification efficiency indicates the number of users actually verified in a unit time period, which may be 1 minute, 5 minutes, 10 minutes, or the like.

Substep S1043: and determining the traffic state information according to the number of the users to be passed and the verification efficiency.

In one specific implementation, substep S1043 includes:

sub-step I: and determining the maximum verification efficiency of the verification equipment according to the verification efficiencies of the verification equipment corresponding to the plurality of traffic channels.

As shown in fig. 3b, the maximum verification efficiency may be determined from the verification efficiencies of a plurality of verification apparatuses, such as the verification efficiency of the verification apparatus corresponding to the passing lane 3 in fig. 3b being the highest.

Sub-step II: and determining the traffic state information corresponding to the traffic channel according to the maximum verification efficiency, the number of the users to be passed and the verification efficiency of the verification equipment.

Since the verification efficiency of the verification device is related to whether the verification device is faulty or not, and also related to the number of the traffic users waiting in line for traffic, the traffic state information of the traffic channel should comprehensively consider the verification efficiency of the verification device and the number of the users waiting for traffic. Based on this, in a specific implementation, sub-step II includes process a and/or process B.

Process a: and determining first traffic state information for indicating equipment abnormality aiming at the traffic channel corresponding to the abnormality verification equipment meeting the first abnormality condition.

The first abnormal condition includes that the number of users to be passed is greater than an actual verification number indicated by verification efficiency, and verification efficiency is less than the maximum verification efficiency.

If the verification efficiency of the corresponding verification device is smaller than the maximum verification efficiency for a certain passing channel, the verification device is not operated under full load, the reason for the situation is probably due to the fact that the verification device is in fault or the number of waiting users to be passed in line is small, if the number of the waiting users to be passed is larger than the actual verification number indicated by the verification efficiency, the situation is that the verification device is likely to be in fault, the verification efficiency is too low, and the first passing state information for indicating the abnormality of the device is determined based on the fact.

Process B: and determining second traffic state information for indicating traffic congestion according to the traffic channels corresponding to the abnormal verification devices meeting the second abnormal conditions.

The second abnormal condition includes that the number of users to be passed is greater than an actual verification number indicated by verification efficiency, and verification efficiency is equal to the maximum verification efficiency.

If the verification efficiency of the corresponding verification device is equal to the maximum verification efficiency for a certain passage, the verification device is operated under full load, namely the verification efficiency of the verification device is not improved, if the waiting users in line of the passage are greater than the actual verification number indicated by the verification efficiency, the waiting users are excessive, and therefore second passage state information for indicating the passage congestion is determined.

Of course, if it is determined that the traffic channel is not congested according to the maximum verification efficiency, the number of users to be passed, and the verification efficiency of the verification device, and the verification device is not failed, third traffic state information for indicating that traffic is normal may be determined.

For the aforementioned different traffic state information, corresponding traffic guidance information may be determined in step S106. For example, in the present embodiment, step S106 may be implemented as: and determining a guide channel according to the first traffic state information and/or the second traffic state information, and generating traffic guide information for guiding the user to be passed to the guide channel.

Because the traffic channels corresponding to the first traffic state information and/or the second traffic state information are abnormal, the user may need to wait for a long time, in order to shorten the waiting time, when it is determined that the traffic channels are abnormal, one of other normal traffic channels may be selected as a guiding channel, and traffic guiding information for guiding the user to be passed to the guiding channel is generated.

For example, the first traffic state information indicates that the verification device b corresponding to the traffic channel 2 may have a fault. For example, the verification device b itself is damaged to cause a fault, or the verification mode currently used by the verification device b is incorrect (for example, the user to be passed uses a paper ticket as an entrance certificate, and the verification device b adopts a two-dimension code verification, so that the user to be passed can pass the verification only by replacing the entrance certificate, and the time spent by each user to be passed at the verification device b is increased). Based on the first traffic state information, it is determined that there is no abnormality in the traffic lane 1 in the remaining traffic lanes, it is possible to determine the traffic lane 1 as a guidance lane and to determine traffic guidance information (e.g., "please get to lane 1 queue", "equipment failure, please get to lane 1 queue", etc.) for guiding the user to the traffic lane 1.

Thus, after the passage guide information is subsequently sent to the verification device b, the first indicating device of the verification device b may display the passage guide information, so that the user to be passed spontaneously queues up to other passage channels.

For another example, if the second traffic status information indicates that the traffic channel 3 is congested, the traffic channel 4 is determined to be a guiding channel from other traffic channels without abnormality based on the second traffic status information, and traffic guiding information (such as "please queue to the channel 4") for guiding the user to be traffic to the traffic channel 4 is generated. And then the traffic guidance information is sent to the verification equipment c corresponding to the traffic channel 3, and the verification equipment c controls the first indicating device to display the traffic guidance information for guiding the user to be passed to the traffic channel 4 in a queuing way. So that the user to be passed of the passage 3 can spontaneously queue up to the other passage.

Optionally, in order to facilitate the staff to timely learn the situations of each traffic channel and the verification device corresponding to the traffic channel, the data processing method may further include steps S116 and/or S118 to determine verification status information, and send the verification status information to the verification device. The verification device further comprises a second indicating device which faces to the exit of the passage and is mainly used for displaying verification state information to staff.

Step S116: and sending verification state information for indicating equipment faults to verification equipment corresponding to the first passing state information, so that a second indicating device of the verification equipment displays according to the verification state information.

For example, the first traffic state information indicates that the verification device b corresponding to the traffic channel 2 has a fault, so that verification state information indicating the fault of the device is generated based on the first traffic state information, and the verification state information is sent to the verification device b, so that the verification device b controls the second indicating device to display prompt content (such as "device fault") so as to inform staff that the verification device b may have the fault, and the staff is enabled to maintain the verification device b and guide the user to be passed of the traffic channel 2.

Step S118: and sending verification state information for indicating channel congestion to verification equipment corresponding to the second passing state information, so that a second indicating device of the verification equipment displays the verification state information.

For example, the second traffic status information indicates that the traffic channel 3 is congested, based on the second traffic status information, verification status information indicating that the traffic channel is congested is generated, and the verification status information is sent to verification equipment c corresponding to the traffic channel 3, so that the verification equipment c controls its second indication device to display prompt content (such as "channel congestion") so as to inform staff that there are too many users to be passed through of the traffic channel 3, and the staff is required to guide the users to be passed through.

By the data processing method, the server side is utilized to acquire the data of each single verification device and analyze the data, so that the problems that the single verification device operates independently and is not systematic and the verification devices cannot be comprehensively managed in the prior art are solved. In addition, the server gathers and processes the data, overcomes the defect that the existing verification equipment data single machine is used without system analysis, realizes the digitization of the use environment, can more conveniently realize the transfer of similar use scenes, realizes the data precipitation, and can compare and analyze the precipitated data subsequently so as to provide configuration and management strategies for subsequent occasions.

And the traffic state information is determined based on the analysis result of the server, and the verification equipment is enabled to control the first indicating device and/or the second indicating device according to the traffic state information, so that the verification equipment can conduct intelligent control and verification, and the problems of high cost and incapacitation caused by too much relying on manpower in the operation of the verification equipment in the prior art are solved.

According to the embodiment, the pass data of the pass channel and the image of the check area where the check equipment for controlling the pass channel is located are acquired, the digitization of entrance and exit pass demands is realized, the integration, gathering and analysis of the data are realized by analyzing the pass data and the image of the check area, the pass state information is determined according to the analysis result, the pass guide information is determined according to the pass state information, the pass guide information is sent to the check equipment, the first indicating device of the check equipment displays the pass guide information so as to guide the user to be checked, and/or the staff is guided to maintain, so that the check of the check equipment is more intelligent and efficient, the manpower required by the check is reduced, and the manpower cost is reduced.

Example IV

Referring to fig. 4, a flowchart of the steps of a data processing method according to a fourth embodiment of the present invention is shown.

In this embodiment, the data processing method includes the aforementioned steps S102 to S108. The data processing method further includes steps S120 to S122.

Step S120: and receiving a call request of the terminal equipment to a preset data transmission interface.

In this embodiment, the server is configured with a data transmission interface, and the data transmission interface may be called by the terminal device to request the required data. Therefore, staff or other authorized users can acquire the needed data through the data transmission interface according to the needs, and the data are presented through the terminal equipment, so that visual presentation of the data is realized.

Step S122: and sending the data requested by the call request to the terminal equipment according to the call request.

The data requested by the call request includes at least one of the traffic data, the image of the verification area, and the analysis result.

Through configuration data transmission interface, realized the ecologization of verification, avoided the too confined problem of verification system, can richer verification system's function, reduce the fortune dimension cost.

The terminal device can be a display screen configured in a venue or a terminal device (such as a mobile phone, a PAD and the like) used by staff in the venue, and the terminal device requests required data from a server through a data transmission interface and displays the requested data on the display screen, so that data visualization is realized, and the displayed data can also guide users, staff and the like to be passed, so that verification efficiency is higher.

According to the embodiment, the pass data of the pass channel and the image of the check area where the check equipment for controlling the pass channel is located are acquired, the digitization of entrance and exit pass demands is realized, the integration, gathering and analysis of the data are realized by analyzing the pass data and the image of the check area, the pass state information is determined according to the analysis result, the pass guide information is determined according to the pass state information, the pass guide information is sent to the check equipment, the first indicating device of the check equipment displays the pass guide information so as to guide the user to be checked, and/or the staff is guided to maintain, so that the check of the check equipment is more intelligent and efficient, the manpower required by the check is reduced, and the manpower cost is reduced.

In addition, the images, the traffic data and the like of the verification area can be visually displayed through the terminal equipment, so that the opening degree of the verification system is improved.

Example five

Referring to fig. 5a, a block diagram of a verification system according to a fifth embodiment of the present invention is shown.

In this embodiment, the verification system includes: the system comprises a service end and verification equipment, wherein the service end is in communication connection with the verification equipment; the server side is used for acquiring an image of a verification area where the verification equipment is located and traffic data of a traffic channel controlled by the verification equipment, analyzing the image of the verification area and the traffic data, determining traffic state data according to an analysis result, and determining traffic guiding information for guiding a user to be passed according to the traffic state information; transmitting the traffic guidance information to the corresponding verification device; the verification device is used for controlling the first indicating device to display according to the traffic guiding information.

In this embodiment, the server may perform the above data processing method to gather and analyze the data of the verification device, so as to implement intelligentization and digitization of verification, for example, collect, by using an image collecting device of the verification device, a target image and pass data of a pass channel controlled by the verification device, and analyze and process the target image and pass data in real time, thereby implementing digital entrance verification of a venue, and the verification data is stored in the server and processed by the server, so that the verification device can be lighter, and implementing multi-scene entrance verification.

The server can be in communication connection with verification devices of a plurality of different venues, so that the integrity of the verification system is better.

Optionally, the verification system further includes a terminal device, where the terminal device is in communication connection with the server, and the terminal device is configured to obtain and display analysis results corresponding to the multiple traffic channels from the server.

The terminal equipment can be a display screen, a mobile phone, a PAD (personal digital assistant) or the like, and can acquire an image of the verification area from the server, and an analysis result of analyzing the image of the verification area, the traffic data of the traffic channel in real time and the like. The terminal equipment can display images, analysis results and the like of the requested verification area, and data visualization is achieved, so that users and staff to be passed can intuitively and conveniently see the data.

Optionally, in this embodiment, the verification apparatus further includes a third indicating device, and the verification apparatus is further configured to control the third indicating device to display new guidance content according to the received operation.

The third indicating device can be a display board arranged on a gate roll of the verification device, the guide content displayed by the display board can be controlled by the verification device, so that a worker can conveniently replace the guide content displayed by the display board according to the needs, the cost is reduced while the guide of a user to be passed is realized, and paperless is realized.

As shown in fig. 5b, the verification device includes a support portion 10, a verification body 20, a first expansion assembly, and a second expansion assembly. The verification body 20 is provided on the support portion 10 and is rotatable relative to the support portion 10, thereby changing a passing direction of a passing passage controlled by the verification apparatus.

The supporting part comprises a supporting upright post and a gate roll control mechanism, and the gate roll control mechanism is arranged at the top end of the supporting upright post. The gate roll 50 is connected to a gate roll control mechanism, and on-off control of the passage is realized according to control of the gate roll control mechanism.

The verification body 20 includes a housing, a two-dimensional code verification unit, and a radio frequency verification unit. The shell is arranged on the supporting part 10, when the entrance and the exit of the passage are needed to be exchanged, the shell is lifted, and then the shell is rotated, so that the two-dimensional code verification unit and the radio frequency verification unit on the shell are rotated 180 degrees along with the shell, and the entrance to the exit of the passage is switched.

The two-dimensional code verification unit is used for collecting and identifying the two-dimensional code to carry out verification. The radio frequency verification unit can collect radio frequency information of certificates and the like and identify the radio frequency information.

The first expansion assembly is removably attached to the housing for expanding the functionality of the verification body 20. The first expansion assembly includes a vertical rod 381, a first indicating device 382a and a second indicating device (the second indicating device is located at the back of the first indicating device 382a and is not shown in the figure) disposed on the top of the vertical rod 381, an image capturing device 383, and the like.

Wherein the image acquisition device 383 is used for acquiring a target image.

The first expansion component can be further provided with a first face recognition unit, a first display screen, a second display screen and the like. The first face recognition unit is used for collecting face images of users to be passed and recognizing the face images to determine whether passing authorities exist or not. The first display screen is connected with the first face recognition unit and used for displaying face images acquired by the first face recognition unit. The second display screen is arranged on the back of the first display screen and faces the staff, and is used for displaying the face image acquired by the first face recognition unit to the staff, or displaying the control interface of the verification equipment to the staff, and the second display screen can also receive the operation of the staff, so that the staff can control the verification equipment.

A second expansion assembly (not shown) is detachably provided on the upper surface of the housing for expanding the function of the verification body 20. The second expansion component comprises a printing unit, a second face recognition unit and a third display screen. The printing unit is used for printing receipt and other certificates. The second face recognition unit 391 is configured to collect face images to verify the authority of the user to be passed. The third display screen is connected with the second face recognition unit and is used for displaying the face image acquired by the second face recognition unit.

Through this intelligent verification equipment, can make the departure, enter check more digital and intelligent, solve the drawback of check equipment single-point work among the prior art. The off-line intelligent verification equipment is integrated with the server, and a closed loop and a server solution of intelligent digital verification entrance are established. The verification system allows access and data transmission of other intelligent hardware devices, and can achieve light weight.

The intelligent feedback and the data visual presentation of the verification equipment can be realized through the server. The first indicating device and the second indicating device on the verification equipment can display information, and the service end can conduct data analysis on the incoming video, so that digital closed loop is realized. The data transmission interface is established to facilitate the data transmission and enable other terminal devices to be accessed.

Example six

Referring to fig. 6, a schematic diagram of a data processing apparatus according to a sixth embodiment of the present invention is shown.

In this embodiment, a data processing apparatus includes: the acquisition module 602 is configured to acquire traffic data of a traffic channel in a set time period and an image of a verification area where verification equipment for controlling the traffic channel is located; the analysis module 604 is configured to analyze the image of the verification area and the traffic data, and determine traffic state information of the traffic channel according to an analysis result; a first determining module 606, configured to determine traffic guidance information for guiding a user to be traffic according to the traffic state information; and the first sending module 608 is configured to send the traffic guidance information to a verification device corresponding to the traffic channel, so that a first indicating device of the verification device displays the traffic guidance information.

Optionally, the analysis module 604 includes: a second determining module 6041, configured to determine, according to an identification result of performing image identification on the image of the verification area, the number of users to be passed corresponding to the passage; a third determining module 6042, configured to determine, according to the traffic data in the set period of time, verification efficiency of a verification device corresponding to the traffic channel; the fourth determining module 6043 is configured to determine the traffic state information according to the number of the users to be passed and verification efficiency.

Optionally, the number of the passing channels is multiple, and the verification area comprises queuing areas corresponding to the multiple passing channels; the second determining module 6041 is configured to perform face recognition on the image of the verification area, and obtain a face in the queuing area and location information of the face; and determining the number of users to be passed corresponding to the passing channels according to the position information of the face and the position information of the passing channels.

Optionally, the fourth determining module 6043 is configured to determine a maximum verification efficiency of the verification device according to verification efficiencies of verification devices corresponding to the plurality of traffic channels; and determining the traffic state information corresponding to the traffic channel according to the maximum verification efficiency, the number of the users to be passed and the verification efficiency of the verification equipment.

Optionally, the fourth determining module 6043 is configured to determine, when determining the traffic state information corresponding to the traffic channel according to the maximum verification efficiency, the number of users to be passed, and the verification efficiency of the verification device, for the traffic channel corresponding to the abnormal verification device that satisfies a first abnormal condition, where the first abnormal condition includes that the number of users to be passed is greater than an actual verification number indicated by the verification efficiency, and the verification efficiency is less than the maximum verification efficiency; and/or determining second traffic state information for indicating traffic congestion according to traffic channels corresponding to abnormal verification devices meeting second abnormal conditions, wherein the second abnormal conditions comprise that the number of users to be traffic is larger than the actual verification number indicated by the verification efficiency, and the verification efficiency is equal to the maximum verification efficiency.

Optionally, the first determining module 606 is configured to determine a guidance channel according to the first traffic state information and/or the second traffic state information, and generate traffic guidance information for guiding the user to be passed to the guidance channel.

Optionally, the apparatus further comprises: a first determining and sending module 610, configured to send verification status information for indicating a device failure to a verification device corresponding to the first traffic status information, so that a second indicating device of the verification device displays the verification status information; and/or a second determining and sending module 612, configured to send verification status information for indicating channel congestion to the verification device corresponding to the second running status information, so that a second indicating device of the verification device displays the verification status information.

Optionally, the acquiring module 602 is configured to acquire, when the acquiring an image of a verification area where the verification device is located, a target image acquired by an image acquisition device of the verification device corresponding to a plurality of the traffic channels, where the target image includes an image of at least part of the verification area; and according to the relative position relation among the image acquisition areas corresponding to the plurality of target images, performing stitching processing on the target images, and obtaining the images of the verification areas.

Optionally, the apparatus further comprises: the face recognition module 614 is configured to perform face recognition on the target image acquired by the image acquisition device, and obtain face feature information of a user to be passed included in the target image; the face matching module 616 is configured to match the face feature information with preset target face feature information, and determine whether the user to be passed includes a target object according to a matching result; and the alarm module 618 is used for generating and sending a prompt message if the target object is included.

Optionally, the apparatus further comprises: a receiving module 620, configured to receive a call request from a terminal device for a preset data transmission interface; and a second sending module 622, configured to send, according to the call request, data requested by the call request to the terminal device, where the data requested by the call request includes at least one of the traffic data, the image of the verification area, and the analysis result.

Example seven

Referring to fig. 7, a schematic structural diagram of an electronic device according to a seventh embodiment of the present invention is shown, and the specific embodiment of the present invention is not limited to the specific implementation of the electronic device.

As shown in fig. 7, the electronic device may include: a processor 702, a pass interface (Communications Interface) 704, a memory 706, and a pass bus 708.

Wherein:

the processor 702, the pass interface 704, and the memory 706 perform passes between each other via the pass bus 708.

A traffic interface 704 for traffic with other electronic devices or servers.

The processor 702 is configured to execute the program 710, and may specifically perform relevant steps in the above-described data processing method embodiment.

In particular, program 710 may include program code including computer-operating instructions.

The processor 702 may be a Central Processing Unit (CPU), or a specific integrated circuit ASIC (Application Specific Integrated Circuit), or one or more integrated circuits configured to implement embodiments of the present invention. The one or more processors comprised by the smart device may be the same type of processor, such as one or more CPUs; but may also be different types of processors such as one or more CPUs and one or more ASICs.

Memory 706 for storing programs 710. The memory 706 may comprise high-speed RAM memory or may further comprise non-volatile memory (non-volatile memory), such as at least one disk memory.

The program 710 may be specifically configured to cause the processor 702 to: acquiring traffic data of a traffic channel in a set time period and an image of a verification area where verification equipment for controlling the traffic channel is located; analyzing the image of the verification area and the traffic data, and determining traffic state information of the traffic channel according to an analysis result; determining traffic guiding information for guiding the user to be passed according to the traffic state information; and sending the passage guiding information to verification equipment corresponding to the passage channel, so that a first indicating device of the verification equipment displays the passage guiding information.

In an alternative embodiment, the program 710 is further configured to cause the processor 702 to determine, when analyzing the image of the verification area and the traffic data and determining traffic state information of the traffic channel according to the analysis result, the number of users to be passed corresponding to the traffic channel according to an identification result of performing image identification on the image of the verification area; determining verification efficiency of verification equipment corresponding to the passing channel according to the passing data in the set time period; and determining the traffic state information according to the number of the users to be passed and the verification efficiency.

In an alternative embodiment, the number of the passage channels is plural, and the verification area includes queuing areas corresponding to the passage channels; the program 710 is further configured to cause the processor 702 to perform face recognition on the image of the verification area to obtain a face in the queuing area and location information of the face when determining the number of users to be passed corresponding to the passage according to a recognition result of performing image recognition on the image of the verification area; and determining the number of users to be passed corresponding to the passing channels according to the position information of the face and the position information of the passing channels.

In an alternative embodiment, the program 710 is further configured to cause the processor 702 to determine, when determining the traffic status information according to the number of users to be passed and verification efficiencies, a maximum verification efficiency of the verification device according to verification efficiencies of verification devices corresponding to a plurality of the traffic channels; and determining the traffic state information corresponding to the traffic channel according to the maximum verification efficiency, the number of the users to be passed and the verification efficiency of the verification equipment.

In an alternative embodiment, the program 710 is further configured to, when determining the traffic state information corresponding to the traffic channel according to the maximum verification efficiency, the number of users to be passed, and the verification efficiency of the verification device, determine, for the traffic channel corresponding to the abnormal verification device that satisfies the first abnormal condition, first traffic state information for indicating that the device is abnormal, where the first abnormal condition includes that the number of users to be passed is greater than an actual verification number indicated by the verification efficiency, and the verification efficiency is less than the maximum verification efficiency; and/or determining second traffic state information for indicating traffic congestion according to traffic channels corresponding to abnormal verification devices meeting second abnormal conditions, wherein the second abnormal conditions comprise that the number of users to be traffic is larger than the actual verification number indicated by the verification efficiency, and the verification efficiency is equal to the maximum verification efficiency.

In an alternative embodiment, the program 710 is further configured to, when determining traffic guidance information for guiding the user to be traffic according to the traffic state information, determine a guidance channel according to the first traffic state information and/or the second traffic state information, and generate traffic guidance information for guiding the user to be traffic to the guidance channel.

In an alternative embodiment, the program 710 is further configured to cause the processor 702 to send verification status information for indicating a device failure to a verification device corresponding to the first traffic status information, so that a second indicating device of the verification device displays the verification status information; and/or sending verification state information for indicating channel congestion to verification equipment corresponding to the second passing state information, so that a second indicating device of the verification equipment displays the verification state information.

In an alternative embodiment, the program 710 is further configured to, when acquiring an image of a verification area where the verification device is located, cause the processor 702 to acquire target images acquired by image acquisition devices of the verification device corresponding to a plurality of the traffic channels, where the target images include an image of at least part of the verification area; and according to the relative position relation among the image acquisition areas corresponding to the plurality of target images, performing stitching processing on the target images, and obtaining the images of the verification areas.

In an alternative embodiment, the program 710 is further configured to cause the processor 702 to perform face recognition on the target image acquired by the image acquisition device, and obtain face feature information of the user to be passed included in the target image; matching the face characteristic information with preset target face characteristic information, and determining whether the user to be passed contains a target object according to a matching result; and if the target object is contained, generating and sending a prompt message.

In an alternative embodiment, the program 710 is further configured to cause the processor 702 to receive a call request from the terminal device for a preset data transmission interface; and sending data requested by the call request to the terminal equipment according to the call request, wherein the data requested by the call request comprises at least one of the traffic data, the image of the verification area and the analysis result.

The specific implementation of each step in the program 710 may refer to the corresponding steps and corresponding descriptions in the units in the above data processing method embodiment, which are not repeated herein. It will be clear to those skilled in the art that, for convenience and brevity of description, specific working procedures of the apparatus and modules described above may refer to corresponding procedure descriptions in the foregoing method embodiments, which are not repeated herein.

It should be noted that, according to implementation requirements, each component/step described in the embodiments of the present invention may be split into more components/steps, or two or more components/steps or part of operations of the components/steps may be combined into new components/steps, so as to achieve the objects of the embodiments of the present invention.

The above-described methods according to embodiments of the present invention may be implemented in hardware, firmware, or as software or computer code storable in a recording medium such as a CD ROM, RAM, floppy disk, hard disk, or magneto-optical disk, or as computer code originally stored in a remote recording medium or a non-transitory machine-readable medium and to be stored in a local recording medium downloaded through a network, so that the methods described herein may be stored on such software processes on a recording medium using a general purpose computer, special purpose processor, or programmable or special purpose hardware such as an ASIC or FPGA. It is understood that a computer, processor, microprocessor controller, or programmable hardware includes a memory component (e.g., RAM, ROM, flash memory, etc.) that can store or receive software or computer code that, when accessed and executed by the computer, processor, or hardware, implements the data processing methods described herein. Further, when a general-purpose computer accesses code for implementing the data processing methods illustrated herein, execution of the code converts the general-purpose computer into a special-purpose computer for executing the data processing methods illustrated herein.

Those of ordinary skill in the art will appreciate that the elements and method steps of the examples described in connection with the embodiments disclosed herein can be implemented as electronic hardware, or as a combination of computer software and electronic hardware. Whether such functionality is implemented as hardware or software depends upon the particular application and design constraints imposed on the solution. Skilled artisans may implement the described functionality in varying ways for each particular application, but such implementation decisions should not be interpreted as causing a departure from the scope of the embodiments of the present invention.

The above embodiments are only for illustrating the embodiments of the present invention, but not for limiting the embodiments of the present invention, and various changes and modifications may be made by one skilled in the relevant art without departing from the spirit and scope of the embodiments of the present invention, so that all equivalent technical solutions also fall within the scope of the embodiments of the present invention, and the scope of the embodiments of the present invention should be defined by the claims.

Claims (14)

1. A data processing method, comprising:

acquiring traffic data of a traffic channel in a set time period and an image of a verification area where verification equipment for controlling the traffic channel is located;

Analyzing the image of the verification area and the traffic data, and determining traffic state information of the traffic channel according to an analysis result, wherein the method comprises the following steps: determining the number of users to be passed corresponding to the passing channel according to the identification result of the image identification of the image of the checking area, determining the checking efficiency of the checking equipment corresponding to the passing channel according to the passing data in the set time period, and determining the passing state information according to the number of the users to be passed and the checking efficiency, wherein the checking efficiency is used for indicating the number of the actual passing users in the unit time period, and the passing state information is used for indicating whether the passing channel is jammed and whether the checking equipment is failed; wherein, the determining the traffic state information according to the number of the users to be passed and the verification efficiency includes: determining the maximum verification efficiency of the verification equipment according to the verification efficiency of the verification equipment corresponding to the plurality of passing channels; determining traffic state information corresponding to the traffic channel according to the maximum verification efficiency, the number of users to be passed, verification efficiency of verification equipment and actual verification number indicated by the verification efficiency;

Determining traffic guiding information for guiding the user to be passed according to the traffic state information;

and sending the passage guiding information to verification equipment corresponding to the passage channel, so that a first indicating device of the verification equipment displays the passage guiding information.

2. The method of claim 1, wherein the traffic channels are a plurality, and the verification area comprises a queuing area corresponding to the plurality of traffic channels;

according to the recognition result of image recognition on the image of the verification area, determining the number of users to be passed corresponding to the passage comprises the following steps:

performing face recognition on the image of the verification area to obtain a face in the queuing area and position information of the face;

and determining the number of users to be passed corresponding to the passing channels according to the position information of the face and the position information of the passing channels.

3. The method of claim 1, wherein determining traffic state information corresponding to the traffic channel according to the maximum verification efficiency, the number of users to be traffic, and verification efficiency of verification devices comprises:

Determining first traffic state information for indicating equipment abnormality aiming at a traffic channel corresponding to abnormal verification equipment meeting first abnormal conditions, wherein the first abnormal conditions comprise that the number of users to be traffic is larger than the actual verification number indicated by the verification efficiency and the verification efficiency is smaller than the maximum verification efficiency;

and/or the number of the groups of groups,

and determining second traffic state information for indicating traffic congestion according to traffic channels corresponding to abnormal verification equipment meeting second abnormal conditions, wherein the second abnormal conditions comprise the number of users to be traffic being greater than the actual verification number indicated by the verification efficiency, and the verification efficiency is equal to the maximum verification efficiency.

4. A method according to claim 3, wherein said determining traffic guidance information for guiding a user to be traffic based on said traffic state information comprises:

and determining a guide channel according to the first traffic state information and/or the second traffic state information, and generating traffic guide information for guiding the user to be passed to the guide channel.

5. A method according to claim 3, wherein the method further comprises:

sending verification state information for indicating equipment faults to verification equipment corresponding to the first passing state information, so that a second indicating device of the verification equipment displays the verification state information;

And/or the number of the groups of groups,

and sending verification state information for indicating channel congestion to verification equipment corresponding to the second passing state information, so that a second indicating device of the verification equipment displays the verification state information.

6. The method of claim 1, wherein the acquiring an image of the verification area in which the verification device is located comprises:

acquiring target images acquired by an image acquisition device of the verification device corresponding to a plurality of passing channels, wherein the target images comprise images of at least part of the verification areas;

and according to the relative position relation among the image acquisition areas corresponding to the plurality of target images, performing stitching processing on the target images, and obtaining the images of the verification areas.

7. The method of claim 6, wherein the method further comprises:

performing face recognition on the target image acquired by the image acquisition device, and acquiring face feature information of a user to be passed, which is included in the target image;

matching the face characteristic information with preset target face characteristic information, and determining whether the user to be passed contains a target object according to a matching result;

And if the target object is contained, generating and sending a prompt message.

8. The method of claim 1, wherein the method further comprises:

receiving a call request of terminal equipment to a preset data transmission interface;

and sending data requested by the call request to the terminal equipment according to the call request, wherein the data requested by the call request comprises at least one of the traffic data, the image of the verification area and the analysis result.

9. A verification system, comprising: the system comprises a service end and verification equipment, wherein the service end is in communication connection with the verification equipment;

the server side is used for acquiring an image of a verification area where the verification equipment is located and traffic data of a traffic channel controlled by the verification equipment, analyzing the image of the verification area and the traffic data, determining traffic state information according to an analysis result, and determining traffic guiding information for guiding a user to be passed according to the traffic state information; and sending the traffic guidance information to the corresponding verification device, wherein the analysis of the image of the verification area and the traffic data and the determination of the traffic state information according to the analysis result comprise: determining the number of users to be passed corresponding to the passing channel according to the identification result of image identification on the image of the checking area, determining the checking efficiency of the checking equipment corresponding to the passing channel according to the passing data in a set time period, and determining the passing state information according to the number of users to be passed and the checking efficiency, wherein the checking efficiency is used for indicating the number of actual passing users in a unit time period, and the passing state information is used for indicating whether the passing channel is jammed and whether the checking equipment fails; wherein, the determining the traffic state information according to the number of the users to be passed and the verification efficiency includes: determining the maximum verification efficiency of the verification equipment according to the verification efficiency of the verification equipment corresponding to the plurality of passing channels; determining traffic state information corresponding to the traffic channel according to the maximum verification efficiency, the number of users to be passed, verification efficiency of verification equipment and actual verification number indicated by the verification efficiency;

The verification device is used for controlling the first indicating device to display according to the traffic guiding information.

10. The verification system of claim 9, further comprising a terminal device, wherein the terminal device is in communication connection with the server, and the terminal device is configured to obtain and display analysis results corresponding to the plurality of traffic channels from the server.

11. The verification system of claim 9, wherein the verification device further comprises a third indication means, the verification device further being configured to control the third indication means to display new guidance content in accordance with the received operation.

12. A data processing apparatus comprising:

the acquisition module is used for acquiring the traffic data of the traffic channel in a set time period and the image of the verification area where the verification equipment for controlling the traffic channel is located;

the analysis module is used for analyzing the image of the verification area and the traffic data and determining traffic state information of the traffic channel according to an analysis result, and comprises the following steps: determining the number of users to be passed corresponding to the passing channel according to the identification result of the image identification of the image of the checking area, determining the checking efficiency of the checking equipment corresponding to the passing channel according to the passing data in the set time period, and determining the passing state information according to the number of the users to be passed and the checking efficiency, wherein the checking efficiency is used for indicating the number of the actual passing users in the unit time period, and the passing state information is used for indicating whether the passing channel is jammed and whether the checking equipment is failed; wherein, the determining the traffic state information according to the number of the users to be passed and the verification efficiency includes: determining the maximum verification efficiency of the verification equipment according to the verification efficiency of the verification equipment corresponding to the plurality of passing channels; determining traffic state information corresponding to the traffic channel according to the maximum verification efficiency, the number of users to be passed, verification efficiency of verification equipment and actual verification number indicated by the verification efficiency;

The first determining module is used for determining traffic guiding information for guiding the user to be passed according to the traffic state information;

and the sending module is used for sending the traffic guiding information to the verification equipment corresponding to the traffic channel so as to enable the first indicating device of the verification equipment to display according to the traffic guiding information.

13. An electronic device, comprising: the system comprises a processor, a memory, a passing interface and a passing bus, wherein the processor, the memory and the passing interface complete the passing among each other through the passing bus;

the memory is configured to store at least one executable instruction, where the executable instruction causes the processor to perform operations corresponding to the data processing method according to any one of claims 1 to 8.

14. A computer storage medium having stored thereon a computer program which, when executed by a processor, implements a data processing method as claimed in any one of claims 1 to 8.