CN116665330A - On-site sign-in method and device, equipment, medium and product thereof - Google Patents

Abstract

The application discloses a field sign-in method and a device, equipment, medium and product thereof, wherein the method comprises the following steps: displaying a field sign-in interface and acquiring sign-in field element information; generating a watermark image representing the sign-in site element information, and outputting the watermark image to a site sign-in interface for display; acquiring photo images shot by a plurality of shooting units in a current terminal, and synthesizing the watermark images into the photo images; and generating field check-in information containing each photo image and the check-in field element information, pushing the field check-in information to a server, and enabling a driving server to execute field check-in verification of a current check-in user based on the field check-in information to store the field check-in information. The application provides a novel user sign-in online service for the platform so as to improve the authenticity and effectiveness of the platform user sign-in the platform.

Description

On-site sign-in method and device, equipment, medium and product thereof

Technical Field

The application relates to the field of network sign-in online service, in particular to a field sign-in method, and further relates to a corresponding device, equipment, a nonvolatile storage medium and a computer program product of the method.

Background

With the development of the internet, each internet platform may push out a user check-in online service for a platform user, for example, provide a user check-in online service for user checking-in to manage work checking-in situations of staff, or provide a user check-in online service for a platform activity designated place to determine whether the platform user arrives at the designated place at the designated time, where the existing user check-in online service generally performs check-in verification only on time place information submitted by the platform user as check-in information, but the time place information is easy to be tampered by the user through technical means, so that problems caused by distortion of the check-in information such as check-in falsification exist in the user check-in online service.

In view of the problems with existing user check-in online services, the present inventors have made a corresponding search for consideration in solving the problems.

Disclosure of Invention

The application aims to meet the requirements of users and provides a field sign-in method, and further relates to a corresponding device, equipment, a nonvolatile storage medium and a computer program product of the method.

In order to achieve the purpose of the application, the following technical scheme is adopted:

displaying a field sign-in interface and acquiring sign-in field element information;

Generating a watermark image representing the sign-in site element information, and outputting the watermark image to a site sign-in interface for display;

acquiring photo images shot by a plurality of shooting units in a current terminal, and synthesizing the watermark images into the photo images;

and generating field check-in information containing each photo image and the check-in field element information, pushing the field check-in information to a server, and enabling a driving server to execute field check-in verification of a current check-in user based on the field check-in information to store the field check-in information.

In a further embodiment, the step of displaying a check-in interface and obtaining check-in field element information includes the steps of:

responding to an interface initialization event acting on a field sign-in interface, and pushing a sign-in field element acquisition instruction to a server;

acquiring check-in field element information pushed by a server in response to the check-in field element acquisition instruction, wherein the check-in field element information comprises a check-in field address or check-in field time;

and establishing a data acquisition link acting on the check-in field element information with the server, and continuously acquiring the latest check-in field element information from the server so as to update the check-in field element information in real time.

In a further embodiment, generating a watermark image representing the check-in site element information, and outputting the watermark image to a site check-in interface for display, including the steps of:

responding to a watermark initializing instruction, and acquiring a preset sign-in field watermark template;

acquiring latest sign-in site element information, and generating a watermark image representing the sign-in site element information based on the sign-in site watermark template;

outputting the watermark image to a watermark display position of a scene shooting browsing window in a scene sign-in interface;

and responding to a check-in field element update event, and updating a watermark image displayed in a check-in field shooting browsing window according to the updated check-in field element information.

In a further embodiment, the step of obtaining photo images shot by a plurality of shooting units in the current terminal and synthesizing the watermark images into each photo image includes the following steps:

responding to a photo shooting event of a shot unit in a rear shooting unit or a front shooting unit in the current terminal, and acquiring a photo image corresponding to the photo shooting event;

acquiring the shooting time of the photo image, and monitoring whether the time difference between the shooting time and the current time exceeds the preset shooting interval duration;

And deleting the photo image when the time difference exceeds the preset shooting interval duration, and outputting a notice representing that the shot unit is reused for shooting photos to be displayed in a field check-in interface.

In a further embodiment, the step of obtaining photo images shot by a plurality of shooting units and synthesizing the watermark images into each photo image includes the following steps:

responding to a photo shooting event of a shot unit in a rear shooting unit or a front shooting unit in the current terminal, and acquiring a photo image corresponding to the photo shooting event;

acquiring check-in field element information corresponding to a watermark image which is currently and recently displayed in a field check-in interface, and synthesizing the watermark image into the photo image;

invoking a preset check-in photo anti-counterfeiting data generation algorithm, generating check-in photo anti-counterfeiting data corresponding to the check-in field element information, and packaging the check-in photo anti-counterfeiting data into the photo additional information of the photo image.

In a further embodiment, the step of executing, by the driving server, a check-in check on the current check-in user according to the check-in information, and storing the check-in information includes the steps of:

Receiving field sign-in information pushed by a terminal, and acquiring a photo image and sign-in field element information contained in the field sign-in information;

invoking a preset check-in photo anti-counterfeiting data generation algorithm to generate check-in photo anti-counterfeiting data corresponding to the check-in field element information;

and comparing whether the check-in photo anti-counterfeiting data of the photo information is consistent with the check-in photo anti-counterfeiting data generated currently, and if so, checking in by a check-in user of the terminal through on-site check-in verification.

In a further embodiment, after the step of executing the check-in on the current check-in user by the driving server according to the check-in information, the step of storing the check-in information includes the steps of:

according to sign-in user characteristic information corresponding to the field sign-in information passing the field sign-in verification, storing the sign-in user characteristic information in a sign-in business database in a classified manner, wherein the sign-in user information comprises a user name, a user position or a user work unit;

responding to a field sign-in inquiry command pushed by a management terminal, inquiring one or more corresponding target field sign-in information from the sign-in business database according to inquiry target feature information contained in the field sign-in inquiry command, and pushing the inquiry target feature information to the management terminal, wherein the inquiry target feature information comprises a user name, a user position, a user work unit, a sign-in field address or a sign-in field time period.

A field check-in device proposed for adapting the purpose of the present application, comprising:

the field element acquisition module is used for displaying a field sign-in interface and acquiring sign-in field element information;

the watermark image display module is used for generating a watermark image representing the sign-in site element information and outputting the watermark image to a site sign-in interface for display;

the watermark image synthesis module is used for obtaining photo images shot by a plurality of shooting units in the current terminal and synthesizing the watermark images into the photo images;

the sign-in information pushing module is used for generating the field sign-in information containing each photo image and the sign-in field element information and pushing the field sign-in information to the server, and the driving server is used for executing the field sign-in verification of the current sign-in user based on the field sign-in information and storing the field sign-in information in a business mode.

In a further embodiment, the field element acquisition module includes:

the field element request submodule is used for pushing a sign-in field element acquisition instruction to the server in response to an interface initialization event acting on a field sign-in interface;

the field element acquisition sub-module is used for acquiring check-in field element information pushed by the server in response to the check-in field element acquisition instruction, wherein the check-in field element information comprises a check-in field address or check-in field time;

The field element updating sub-module is used for establishing a data acquisition link acting on the check-in field element information with the server, and continuously acquiring the latest check-in field element information from the server so as to update the check-in field element information in real time.

In a further embodiment, the watermark image display module includes:

the watermark template acquisition sub-module is used for responding to the watermark initializing instruction and acquiring a preset sign-in field watermark template;

the watermark image generation sub-module is used for acquiring the latest sign-in site element information and generating a watermark image representing the sign-in site element information based on the sign-in site watermark template;

the watermark image output sub-module is used for outputting the watermark image to a watermark display position of a scene shooting browsing window in a scene sign-in interface;

and the watermark image updating sub-module is used for responding to a check-in field element updating event and updating the watermark image displayed in the check-in field shooting browsing window according to the updated check-in field element information.

In a further embodiment, the watermark image synthesis module includes:

the photo image acquisition sub-module is used for responding to a photo shooting event of a post shooting unit in the current terminal or a shot unit in the pre shooting unit and acquiring a photo image corresponding to the photo shooting event;

The shooting interval detection sub-module is used for acquiring shooting time of the photo image and monitoring whether the time difference between the shooting time and the current time exceeds the preset shooting interval duration;

and the inquiry shooting notification sub-module is used for deleting the photo image when the time difference exceeds the preset shooting interval duration, and outputting a notification representing that the shot unit is reused for shooting the photo to be displayed in a field sign-in interface.

In a preferred embodiment, the watermark image synthesis module further includes:

the photo image shooting sub-module is used for responding to a photo shooting event of a post shooting unit in the current terminal or a shot unit in the pre shooting unit and acquiring a photo image corresponding to the photo shooting event;

the watermark image synthesis sub-module is used for acquiring sign-in field element information corresponding to a watermark image which is currently and recently displayed in a field sign-in interface, and synthesizing the watermark image into the photo image;

and the photo anti-counterfeiting generation sub-module is used for calling a preset check-in photo anti-counterfeiting data generation algorithm, generating check-in photo anti-counterfeiting data corresponding to the check-in field element information, and packaging the check-in photo anti-counterfeiting data into the photo additional information of the photo image.

In a further embodiment, the sign-in information pushing module includes:

the sign-in information acquisition sub-module is used for receiving the field sign-in information pushed by the terminal and acquiring a photo image and sign-in field element information contained in the field sign-in information;

the verification anti-counterfeiting generation sub-module is used for calling a preset check-in photo anti-counterfeiting data generation algorithm to generate check-in photo anti-counterfeiting data corresponding to the check-in field element information;

and the anti-counterfeiting data comparison sub-module is used for comparing whether the check-in photo anti-counterfeiting data of the photo information is consistent with the check-in photo anti-counterfeiting data generated currently, and if so, the check-in user of the terminal passes the check-in verification on site.

In a preferred embodiment, the sign-in information pushing module further includes:

the sign-in information storage sub-module is used for storing sign-in user characteristic information in a sign-in business database in a classified mode according to sign-in user characteristic information corresponding to the field sign-in information passing the field sign-in verification, wherein the sign-in user information comprises a user name, a user position or a user work unit;

the sign-in information inquiry sub-module is used for responding to a field sign-in inquiry instruction pushed by the management terminal, inquiring one or more corresponding target field sign-in information from the sign-in business database according to inquiry target feature information contained in the field sign-in inquiry instruction, and pushing the inquiry target feature information into the management terminal, wherein the inquiry target feature information comprises a user name, a user position, a user work unit, a sign-in field address or a sign-in field time period.

In order to solve the above technical problem, an embodiment of the present application further provides a computer device, which includes a memory and a processor, where the memory stores computer readable instructions, and when the computer readable instructions are executed by the processor, the processor is caused to execute the steps of the field sign-in method.

To solve the above technical problem, embodiments of the present application further provide a storage medium storing computer readable instructions, where the computer readable instructions when executed by one or more processors cause the one or more processors to perform the steps of the field sign-in method described above.

In order to solve the above technical problem, an embodiment of the present application further provides a computer program product, which includes a computer program and computer instructions, where the computer program and the computer instructions, when executed by a processor, cause the processor to execute the steps of the field sign-in method.

Compared with the prior art, the application has the following advantages:

the application provides a field check-in online service for platform users, wherein a plurality of shooting units of a field check-in online service using terminal are used for shooting photos as field check-in certificates, for example, a front shooting unit and a rear shooting unit of a mobile terminal are used for shooting photos applied to field check-in, so that the shot photos comprise a check-in field place photo and a check-in user portrait photo, when the user checks in the field check-in, the user is ensured to arrive at a designated check-in place to check in, the terminal for checking in generates a watermark image representing a check-in field element, such as a place address of the field in the watermark image and a check-in time when the field check-in is performed, the generated watermark image is output to a field check-in interface for browsing by the user, after the photo shooting units are used for shooting photos, the watermark image is synthesized into the photos shot, the time and address of the check-in user are combined with the photos shot by the shooting units for proving the field check-in, the field check-in process is prevented from falsifying the field check-in, and the field check-in certificate is ensured by the user through a technology, and the field check-in can be managed by the field check-in that the field check-in management personnel can see the field check-in case.

Drawings

The foregoing and/or additional aspects and advantages of the application will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings, in which:

FIG. 1 is a schematic diagram of a typical network deployment architecture according to an embodiment of the present application;

FIG. 2 is a flow chart of an exemplary embodiment of a check-in method of the present application;

FIG. 3 is a schematic diagram of an interface related to a check-in interface in the present application;

FIG. 4 is a schematic diagram of an interface related to another check-in interface in accordance with the present application;

FIG. 5 is a schematic diagram of an interface for a further check-in interface according to the present application;

FIG. 6 is an interface diagram of a browsing interface for combining a photo image captured by a front-end capturing unit with a watermark image to a photo image captured by a rear-end capturing unit;

FIG. 7 is a flow chart of an embodiment of initializing a field check-in interface and obtaining and updating field element information in accordance with the present application;

FIG. 8 is a flow chart of an embodiment of the generation and output of watermark images to an interface according to the present application;

FIG. 9 is a flowchart of an embodiment of the present application for controlling the shooting interval duration between a front pixel unit and a rear camera unit;

FIG. 10 is a flowchart of an embodiment of synthesizing a watermark image into a photo image and generating check-in photo anti-counterfeit data according to field element information for packaging into the photo image according to the present application;

FIG. 11 is a flowchart of a specific embodiment of performing data consistency verification on check-in photo anti-counterfeit data in a photo image by a server according to the present application;

FIG. 12 is a flow chart of an embodiment of a server for storing check-in information in a field;

FIG. 13 is a functional block diagram of an exemplary embodiment of a field check-in device of the present application;

fig. 14 is a basic structural block diagram of a computer device according to an embodiment of the present application.

Detailed Description

Embodiments of the present application are described in detail below, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to like or similar elements or elements having like or similar functions throughout. The embodiments described below by referring to the drawings are illustrative only and are not to be construed as limiting the application.

As used herein, the singular forms "a", "an", "the" and "the" are intended to include the plural forms as well, unless expressly stated otherwise, as understood by those skilled in the art. It will be further understood that the terms "comprises" and/or "comprising," when used in this specification, specify the presence of stated features, integers, steps, operations, elements, and/or components, but do not preclude the presence or addition of one or more other features, integers, steps, operations, elements, components, and/or groups thereof. It will be understood that when an element is referred to as being "connected" or "coupled" to another element, it can be directly connected or coupled to the other element or intervening elements may also be present. Further, "connected" or "coupled" as used herein may include wirelessly connected or wirelessly coupled. The term "and/or" as used herein includes all or any element and all combination of one or more of the associated listed items.

It will be understood by those skilled in the art that all terms (including technical and scientific terms) used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this application belongs unless defined otherwise. It will be further understood that terms, such as those defined in commonly used dictionaries, should be interpreted as having a meaning that is consistent with their meaning in the context of the prior art and will not be interpreted in an idealized or overly formal sense unless expressly so defined herein.

As used herein, "client," "terminal device," and "terminal device" are understood by those skilled in the art to include both devices that include only wireless signal receivers without transmitting capabilities and devices that include receiving and transmitting hardware capable of two-way communication over a two-way communication link. Such a device may include: a cellular or other communication device such as a personal computer, tablet, or the like, having a single-line display or a multi-line display or a cellular or other communication device without a multi-line display; a PCS (Personal Communications Service, personal communication system) that may combine voice, data processing, facsimile and/or data communication capabilities; a PDA (Personal Digital Assistant ) that can include a radio frequency receiver, pager, internet/intranet access, web browser, notepad, calendar and/or GPS (Global Positioning System ) receiver; a conventional laptop and/or palmtop computer or other appliance that has and/or includes a radio frequency receiver. As used herein, "client," "terminal device" may be portable, transportable, installed in a vehicle (aeronautical, maritime, and/or land-based), or adapted and/or configured to operate locally and/or in a distributed fashion, at any other location(s) on earth and/or in space. As used herein, a "client," "terminal device," or "terminal device" may also be a communication terminal, an internet terminal, or a music/video playing terminal, for example, a PDA, a MID (Mobile Internet Device ), and/or a mobile phone with music/video playing function, or may also be a device such as a smart tv, a set top box, or the like.

The application refers to hardware such as a server, a client, a working node and the like, which essentially is an electronic device with personal computer and other functions, and is a hardware device with necessary components disclosed by von neumann principles such as a central processing unit (comprising an arithmetic unit and a controller), a memory, an input device, an output device and the like, wherein a computer program is stored in the memory, and the central processing unit calls the program stored in the external memory to run, executes instructions in the program, and interacts with the input and output devices, thereby completing specific functions.

It should be noted that the concept of the present application, referred to as "server", is equally applicable to the case of a server cluster. The servers should be logically partitioned, physically separate from each other but interface-callable, or integrated into a physical computer or group of computers, according to network deployment principles understood by those skilled in the art. Those skilled in the art will appreciate this variation and should not be construed as limiting the implementation of the network deployment approach of the present application.

Referring to fig. 1, the hardware base required for implementing the related technical solution of the present application may be deployed according to the architecture shown in the figure. The server 80 of the present application is deployed at the cloud as an online server, and may be responsible for further connecting to related data servers and other servers providing related support, so as to form a logically related service cluster, to provide services for related terminal devices, such as a smart phone 81 and a personal computer 82 shown in the figure, or a third party server (not shown). The smart phone and the personal computer can access the internet through a well-known network access mode, and establish a data communication link with the cloud server 80 so as to run a terminal application program related to the service provided by the server.

For the server, the application program is usually constructed as a service process, and a corresponding program interface is opened for remote call of the application program running on various terminal devices.

The application program refers to an application program running on a server or terminal equipment, the application program adopts a programming mode to realize the related technical scheme of the application, the program codes of the application program can be stored in a nonvolatile storage medium which can be identified by a computer in the form of computer executable instructions, and the program codes are called by a central processing unit to run in a memory, and the related device of the application is constructed by the running of the application program on the computer.

For the server, the application program is usually constructed as a service process, and a corresponding program interface is opened for remote call of the application program running on various terminal devices.

Those skilled in the art will appreciate that: although the various methods of the present application are described based on the same concepts so as to be common to each other, the methods may be performed independently of each other unless specifically indicated otherwise. Similarly, for the various embodiments disclosed herein, all concepts described herein are presented based on the same general inventive concept, and thus, concepts described herein with respect to the same general inventive concept, and concepts that are merely convenient and appropriately modified, although different, should be interpreted as equivalents.

Referring to fig. 2, in an exemplary embodiment of the present application, a field sign-in method includes the following steps:

step S11, displaying a field sign-in interface and acquiring sign-in field element information:

the on-site check-in interface provides on-site check-in on-line service for a user at the terminal, and the terminal responds to a on-site check-in interface display instruction triggered by a control for starting the on-site check-in on-line service through touch control by the user, and the on-site check-in interface is displayed in a graphical user interface of the current terminal so that the user can check in on site through the on-site check-in interface.

Referring to fig. 3, the interface shown in fig. 3 is the check-in interface, a user executes a corresponding operation event through a control displayed in the shown check-in interface, so as to generate a watermark control 304 by touch to drive a current terminal to display a watermark image 302 in the check-in interface, drive one or more shooting units of the current terminal to perform a photo image applied to an on-line service by touch to a shooting control 305, and the shooting pictures shot by different shooting units are also displayed by outputting to the shown check-in interface, so that a user at the current terminal browses the shooting pictures shot by different shooting units, and as shown, a front shooting unit shooting picture browsing control 301 outputs and displays the shooting picture shot by the front shooting unit, and as shown, a rear shooting unit shooting 303 outputs and displays the shooting picture shot by the rear shooting unit.

When the front terminal performs output display of a field check-in interface, check-in field element information is also acquired from a server, wherein the check-in field element information is used for representing a field check-in proof when a user uses a field check-in online service, after the server initially displays the field check-in interface, the server pushes part of data contained in the check-in field element information to the server, such as a field address used for representing a place where the user uses the field check-in online service, a field time used for representing a time when the user uses the field check-in online service, platform user data used for representing the user, and the like, and another part of data contained in the check-in field element information, for example, a device feature code (such as an IMEI (international mobile equipment identity) of the front terminal and the like used for identifying each independent communication device in a mobile network) and the like, can be acquired in a local storage space.

In order to ensure that the site element information used for the site check-in on-line service is the latest information, the terminal is prevented from continuously acquiring the latest data acting on the check-in site element information from the server, such as continuously acquiring the latest site address or site time from the server to update the site element information, because the site address of the site which is still the site before the movement and is contained in the site element information acquired by the terminal is moved to other sites when the user uses the site check-in on-line service, or the time when the user does not check-in immediately when the user uses the site check-in on-line service is different from the site time contained in the site element information.

Step S12, generating a watermark image representing the sign-in site element information, and outputting the watermark image to a site sign-in interface for display:

after the site element information is acquired, a watermark image representing part of the site element data in the site element information is generated, and the watermark image is output to the site check-in interface for display, namely, part of the display element data is visually output in a watermark mode, so that a user who checks-in the site can know the site element data used when the user checks-in the site through the site check-in interface, for example, the watermark image displayed in the site check-in interface is generated and output to have check-in time and check-in address contained in the site element information, so that the user can know the place and time where the user checks-in the site.

Referring to fig. 3, taking a watermark image representing a check-in time and a check-in address included in check-in field element information as an example, a watermark image 302 displayed in a check-in interface shown in fig. 3 represents the check-in time and the check-in address included in the field element information, wherein the check-in time represented in the watermark image 302 is 2023, 22, 8 days and 30 minutes, the check-in address is guangdian, guangzhou, and it can be seen that the check-in time and the check-in address in the watermark image 302 are displayed in a certain layout, and because a check-in field watermark template for generating a watermark image is generally provided in a terminal, the terminal determines a display position where part of field check-in element data in the check-in field element information is located in the watermark image based on a preset check-in field watermark template, and then locates each piece of the check-in field element data in the check-in field watermark template to generate a corresponding watermark image.

Regarding the output display mode of the watermark image in the field sign-in interface, the watermark image can be output to the field sign-in interface for display in a picture or control mode, or the watermark image is synthesized into a shooting picture shot by a shooting unit in an image texture mode, when the watermark image is output and displayed in a picture mode, the watermark image is output to the field sign-in interface as a picture, and in order to prevent the watermark image from shielding the field sign-in interface, the picture of the watermark image which is output and displayed has a certain transparency or can be dragged; the watermark image displayed by the control has a function of being dragged in the field check-in interface, and also has a watermark image updating function, for example, a user clicks the watermark image control displayed in the field check-in interface by touch control, so that the terminal generates the watermark image of the field check-in element information acquired from the server to replace the old watermark image currently displayed in the watermark image control, thereby realizing the check-in element information updating of the watermark image.

Regarding the mode of synthesizing the watermark image into the shooting picture shot by the shooting unit, specifically, after the current terminal generates the watermark image, synthesizing the watermark texture of the generated watermark image into the shooting picture frame shot by the shooting unit for outputting to the site check-in interface, namely synthesizing the watermark texture of the watermark image into the shooting picture for the user to browse in the site check-in interface, so that the watermark image and the shooting picture shot by the shooting unit are synchronously output to the site check-in interface, the interface elements which are needed to consume the calculation resources and are arranged in the site check-in interface are reduced, the running fluency of the site check-in interface is improved, and the experience of the user using the site check-in on-line service is optimized.

In an embodiment, referring to fig. 3, a check-in watermark control 304 is provided in the check-in interface shown in fig. 3, after responding to a touch click event acting on the check-in watermark control 304, the terminal may output a generated watermark image to the check-in interface for display, that is, if the user does not touch click on the check-in watermark control 304, the generated watermark image will not be displayed in the check-in interface, so that the user may hide a watermark image displayed at a shooting picture shot by a shooting unit in the check-in interface, so that the user can better browse the shooting picture, and in order to ensure that the watermark image output to the check-in interface is a watermark image representing the latest check-in element information, when the user clicks the check-in watermark control 304 to reactivate the hidden watermark image to display in the check-in interface, the terminal will regenerate the watermark image for display in the check-in interface, and the check-in element information represented in the newly output watermark image will be the latest check-in element information, so as to ensure that the check-in element information is synchronized with the current actual check-in element of the user, such as the current address or the current time of the user and the actual check-in place representation.

Step S13, photo images shot by a plurality of shooting units in the current terminal are acquired, and the watermark images are synthesized into the photo images:

the shooting unit refers to shooting hardware for shooting photos and videos in a terminal, and the mobile terminal, such as a mobile communication terminal (mobile phone), generally includes a front-end shooting unit (front-end camera) and a rear-end shooting unit (rear-end pixel head), and shooting is performed by starting the front-end shooting unit and the rear-end shooting unit of the terminal, and shooting pictures shot by the front-end shooting unit and the rear-end shooting unit are output and displayed in a field sign-in interface, so that a user can browse pictures currently shot by the front-end shooting unit and the rear-end shooting unit, and then the front-end shooting unit and the rear-end shooting unit are used for shooting photos to generate corresponding photo images.

Referring to fig. 3, a front-end shooting screen browsing control 301 displayed in the field check-in interface shown in fig. 3 is used for outputting and displaying shooting screens shot by a front-end shooting unit, and a rear-end shooting screen browsing control 303 is shown for outputting and displaying shooting screens shot by a rear-end shooting unit, so that a user browses the screens shot by the front-end shooting unit and the rear-end shooting unit of the current terminal through the front-end shooting screen browsing control 301 and the rear-end shooting screen browsing control 303.

Referring to fig. 3 and fig. 4, a user may click on the zoom-out displayed shot screen browsing control to replace the zoom-in displayed shot screen browsing control, for example, in the live check-in interface shown in fig. 3, the front shot screen browsing control 301 is the zoom-out displayed shot screen browsing control, the rear shot screen browsing control 303 is the zoom-in displayed shot screen browsing control, when the user clicks on the reference front shot screen browsing control 301, the live check-in interface shown in fig. 3 is changed to the live check-in interface shown in fig. 4, the shot screen displayed in the zoom-out displayed shot screen browsing control 401 is the shot screen displayed in the rear shot screen browsing control 303 shown in fig. 3, and the shot screen displayed in the zoom-in shot browsing control 402 is the shot screen displayed in the front shot screen browsing control 301 shown in fig. 3, that is the shot screen displayed in the zoom-out mode in the live check-in interface through the touch, and the shot unit to which the shot screen displayed in the live check-in main in the live check-in interface is mainly performed is switched, if the shot unit to be displayed in the original shot screen displayed in the front of the front shot screen displayed by the front of the displayed shot screen browsing control 303 is displayed in the zoom-out mode.

Referring to fig. 5, in order to reduce the resources required for the device to start up a plurality of shooting units at the same time, after shooting the photo image of one of the plurality of shooting units is completed, the other shooting units may be started up to perform shooting image shooting and photo image shooting, as shown in fig. 5, in the shooting image browsing control 501 shown in fig. 5 for performing enlarged display, the shooting image shot by the currently started shooting unit will be output, when the shooting unit corresponding to the shown shooting image browsing control 501 completes shooting the photo image, the shot photo image will be output to the shown shooting image browsing control 501, at this time, the current terminal drives the other shooting unit to shoot the video image, and outputs the shot video image to the shooting image browsing control 502 for performing photo image shooting by the user browsing the shooting image shot by the other shooting unit through the shown shooting image browsing control 502.

Of course, besides the embodiment shown in fig. 5, only one shooting picture browsing control for outputting the shooting picture shot by the shooting unit exists in the field sign-in interface, after the shooting unit currently performing shooting picture display in the shooting picture browsing control completes shooting of the photo image, the shooting unit is closed, the started other shooting unit performs shooting, and the shooting picture of the started other shooting unit is output to the shooting picture browsing control for display, so that the operation pressure of the terminal equipment is relieved.

The method comprises the steps that a current terminal drives each shooting unit to finish shooting photos, after photo images corresponding to the current terminal are generated, the current latest generated watermark images are synthesized into the photo images, specifically, after the current terminal obtains each photo image, the watermark images with latest updated sign-in field elements are synthesized into each photo image, in order to improve the synthesis speed, the current terminal can call a plurality of threads in a thread pool to execute watermark synthesis events of each photo image in parallel, the synthesis position of the watermark images in the photo images is generally preset or set by a user who signs in, after the current terminal synthesizes the watermark images into the synthesis positions corresponding to the photo images, each photo image after the watermark images are synthesized is output to a field sign-in interface to be displayed, and therefore the user can browse each photo image after the watermark image synthesis is finished.

In an embodiment, please refer to fig. 3 and fig. 6, after the current terminal acquires the photo images captured by the front camera unit and the rear camera unit, the current latest generated watermark image is synthesized into the photo image captured by one of the front camera unit and the rear camera unit, and the photo image captured by the other of the front camera unit and the rear camera unit is reduced and synthesized into the photo image for watermark image synthesis, as shown in fig. 3, the current latest generated watermark image is synthesized into the live photo image captured by the rear camera unit displayed in the rear camera picture browsing control 303, and meanwhile, the photo image captured by the front camera unit displayed in the front camera picture browsing control 301 is reduced in size in a preset proportion, so that the reduced-size photo image of the person is synthesized into the live photo image, and the photo image for checking in the live sign is only one photo image for checking in the live sign-in, as shown in fig. 6, so that the whole checking in the live sign-in efficiency of the whole checking in the storage space of the terminal and the server is improved, and the checking in the live sign-in the whole checking data is further improved.

In order to prevent a photo image of a synthesized watermark picture from being tampered by a user through a technical means, when a current terminal synthesizes the watermark image into the photo image, corresponding check-in photo anti-counterfeiting data is generated according to latest updated check-in field element information, and the generated check-in photo anti-counterfeiting data is packaged into photo additional information of the photo image, so that a server performs data consistency check of the check-in photo anti-counterfeiting data on the photo image after receiving the photo image pushed by the current terminal, and whether the photo image is tampered is judged so as to ensure fairness and effectiveness of field check-in.

Step S14, generating field check-in information including each photo image and the check-in field element information, pushing the field check-in information to a server, and executing, by the drive server, field check-in verification of a current check-in user based on the field check-in information, and performing service storage on the field check-in information:

after the current terminal completes watermark image synthesis of each photo image and sign-in photo anti-counterfeiting data encapsulation, encapsulating each photo image and the latest updated sign-in field element information into field sign-in information, pushing the field sign-in information into a server, and driving the server to carry out field sign-in verification on a sign-in user at the current terminal based on the field sign-in information.

If the on-site check-in online service has a corresponding on-site check-in designated time period and an on-site check-in designated address, after the server acquires on-site check-in information pushed by any terminal, a check-in user in the terminal is determined, a target on-site check-in designated time period and a target on-site check-in designated address corresponding to the check-in user are inquired out, and the check-in time and the check-in address contained in the on-site element information are acquired, so that whether the check-in time is in the target on-site check-in instruction time period or not is detected, and whether the check-in address is the target on-site check-in designated address is detected, so that preliminary on-site check-in verification of the check-in user is completed.

In addition to checking the check-in time and the check-in address included in the check-in field element information, the server checks the photo image in the field element information, and because the terminal used by the check-in user is typically a mobile communication terminal (such as a mobile phone), the photographing unit of the terminal is typically a front photographing unit and a rear photographing unit, wherein the front photo image photographed by the front photographing unit typically has a face image representing the face information of the check-in user, and the rear photo image photographed by the rear photographing unit typically has a place image of the check-in field place, the server can detect whether the face image in the front photo image is the face of the check-in user through a pre-trained face recognition model, and detect whether the place image provided in the rear photo image is the place designated by the check-in field, so as to determine whether the user who performs the on-site check-in online service is the user and whether the check-in place is the designated check-in place.

In addition, the server detects whether the photo image in the site element information has check-in photo anti-counterfeiting data generated by the terminal according to the pushed check-in site element information, and performs data consistency verification on the check-in photo anti-counterfeiting data, specifically, when the server detects that the photo image in the pushed site element information has the check-in photo anti-counterfeiting data, check-in photo anti-counterfeiting data for verification is generated according to the site element information contained in the site element information, so as to detect whether the check-in photo anti-counterfeiting data is identical to the check-in photo anti-counterfeiting data, wherein the terminal pushing the site element information and an anti-counterfeiting data generation algorithm used by the server for generating the photo anti-counterfeiting data are identical.

After the field check-in information pushed by the terminal passes the field check-in verification of the server, the server pushes a notification representing the field check-in success to the terminal, and if the field check-in verification is not passed, the server pushes a notification representing the field check-in failure to the terminal so that a check-in user at the terminal can know the field check-in verification condition.

The server stores the field check-in information passing the field check-in verification according to the check-in user characteristic information corresponding to the field check-in information passing the field check-in verification, and stores the check-in user characteristic information in a check-in service database in a classified manner so as to know the field check-in condition for a manager of the platform, for example, the server can respond to a field check-in inquiry instruction pushed by a management terminal where the manager is located, inquire one or more corresponding target field check-in information from the check-in service database according to inquiry target characteristic information contained in the field check-in inquiry instruction, and push the corresponding target field check-in information into the management terminal, wherein the inquiry target characteristic information contains a user name, a check-in field address or a check-in field time period, that is, the manager can inquire the field check-in information corresponding to a user, a corresponding field check-in place and the corresponding time period so as to know the corresponding field check-in condition.

The above exemplary embodiments and variations thereof fully disclose embodiments of the field check-in method of the present application, but various variations of the method may be deduced by transformation and amplification of some technical means, and the following outline describes other embodiments:

in one embodiment, please refer to fig. 7, which shows a check-in interface, and the step of obtaining check-in field element information includes the following steps:

step S111, in response to an interface initialization event acting on the field check-in interface, pushing a check-in field element acquisition instruction to the server:

the interface initialization event is an event triggered by the current terminal starting the field check-in interface, for example, after a user at the current terminal inputs a network connection address of the field check-in interface or controls that are acted on the field check-in on-line service by touch, the interface initialization event is triggered to drive the current terminal to initialize and display the field check-in interface.

When the current terminal initially displays a field check-in interface, a check-in field element acquisition instruction is pushed to a server, the current terminal generally needs to acquire field elements including field time and field address from the server, the field time is generally time data of automatic verification and calibration time through a national time service center, the field address is address data determined by locating an IP address of the current terminal through a GPS, of course, user characteristic data of a check-in user who is in the current terminal for field check-in on-line service can be obtained by pushing the check-in field element acquisition instruction to the server.

Step S112, obtaining check-in field element information pushed by the server in response to the check-in field element obtaining instruction, where the check-in field element information includes a check-in field address or a check-in field time:

after the server responds to the check-in field element acquisition instruction pushed by the current terminal, check-in field element information containing check-in field element data such as the field address or the check-in field time is pushed to the current terminal.

Step S113, a data acquisition link for checking in the field element information is established with the server, and the latest checking in field element information is continuously acquired from the server so as to update the checking in field element information in real time:

the current terminal and the server establish a data acquisition link acting on the check-in field element information so as to continuously acquire the latest check-in field time such as automatic verification and calibration time of the national time service center or the check-in field address relocated due to the change of the position of the place where the current terminal is located from the server, so that the current terminal updates the self-owned check-in field element information.

In this embodiment, the terminal performing the on-site check-in online service establishes a data acquisition link with the server having the check-in on-site element, so as to acquire the latest check-in on-site element from the server in real time through the data acquisition link, and ensure that the on-site check-in element information used when the check-in user performs the on-site check-in is the latest information.

In one embodiment, please refer to fig. 3 and 8, a watermark image representing the check-in site element information is generated, and the watermark image is output to a step displayed in a site check-in interface, which includes the following steps:

step S121, in response to the watermark initializing instruction, obtaining a preset sign-in field watermark template:

after the current terminal displays the sign-in site interface, the watermark initialization instruction is responded to obtain a preset sign-in site watermark template to generate a corresponding watermark image, wherein the sign-in site watermark template is generally obtained by the terminal in advance from a server and stored in a local storage space, and in order to ensure that the generated watermark image meets the service requirement of the site sign-in online service, after the sign-in site watermark template in the server is updated, the server issues the sign-in site watermark template to each terminal using the site sign-in online service.

Step S122, obtaining the latest check-in site element information, and generating a watermark image representing the check-in site element information based on the check-in site watermark template:

the current terminal uses the latest sign-in site element information to determine the display position and display size of each sign-in site element data in the sign-in site watermark template so as to generate a watermark image conforming to the sign-in site watermark template.

Step S123, outputting the watermark image to a watermark display position of a scene shooting browsing window in a scene check-in interface:

referring to fig. 3, in the field check-in interface shown in fig. 3, the post-shot screen browsing control 303 is a pattern of the check-in field shooting browsing window in the field check-in interface, and the terminal outputs the generated watermark image to a corresponding watermark display position in the post-shot screen browsing control 303, such as the watermark image 302 shown.

Step S124, in response to the check-in site element update event, updating the watermark image displayed in the check-in site shooting browsing window according to the updated check-in site element information:

the check-in field element update event refers to an event triggered by the terminal acquiring the latest check-in field element information from the server, the terminal can acquire the latest check-in field element information from the server at regular time, or detect that the time difference between the current time and the check-in field time contained in the existing check-in field element information exceeds a preset duration, or detect that the current place has changed, and the terminal can acquire the latest check-in field element information from the server.

In addition, referring to fig. 3, as shown in fig. 3, the terminal may generate and display a watermark image representing the latest check-in field element information by updating the currently generated watermark image in response to acting on the check-in watermark control 304.

In this embodiment, the terminal generates the watermark image based on the watermark template preset by the on-site check-in online service to ensure that the generated watermark image meets the service requirement of the on-site check-in online service, and when the check-in on-site element information is updated, the terminal regenerates the watermark image capable of representing the latest check-in on-site element information to ensure timeliness of the check-in on-site element represented by the watermark image.

In one embodiment, please refer to fig. 9, the step of obtaining photo images shot by a plurality of shooting units in the current terminal and synthesizing the watermark images into each photo image includes the following steps:

step S131, responding to a photo shooting event of a post shooting unit in the current terminal or a shot unit in the pre shooting unit, and acquiring a photo image corresponding to the photo shooting event:

the current terminal performing the check-in on-line service generally enables one of a rear photographing unit or a front photographing unit thereof, performs photo image photographing applied to the check-in on-line service, so that a user can adjust photographing angles or photographing environments of different photographing units, and the like.

Step S132, acquiring the shooting time of the photo image, and monitoring whether the time difference between the shooting time and the current time exceeds the preset shooting interval duration:

when the rear shooting unit or the front shooting unit finishes shooting the photo image, the current terminal acquires the shooting time of the photo image and monitors whether the time difference between the shooting time and the current time exceeds the preset shooting interval duration.

The preset shooting interval duration is used for limiting the interval duration between shooting of photo images by the user who checks in using different shooting units, for example, when the preset shooting interval duration is set to 10 seconds, after the user who checks in finishes shooting of the photo images by using any one of the rear shooting unit or the front shooting unit of the terminal, the user who checks in needs to finish shooting of the photo images by using the other one of the rear shooting unit or the front shooting unit within 10 seconds.

Step S133, when the time difference exceeds the preset capturing interval duration, deleting the photo image, and outputting a notification indicating that the captured unit is reused for capturing photos to be displayed in a check-in interface:

When the current terminal detects that the time difference between the shooting time of a photo image shot by a certain shooting unit and the current time exceeds the preset shooting interval duration, deleting the photo image, displaying a notice representing that the shooting unit is reused for shooting photos in a field check-in interface, and informing a check-in user to reuse a front shooting unit and a rear shooting unit to shoot the photo image used for field check-in on-line service.

In this embodiment, by setting the interval duration between the user checking in and taking the photos by using different camera units, the user checking in and taking the photos for checking in on site are ensured to be photos under the same time and space, and the reality of checking in on site of the on-line service is ensured.

In one embodiment, referring to fig. 10, the step of obtaining photo images captured by a plurality of capturing units and synthesizing the watermark image into each of the photo images includes the following steps:

step S131', responding to a photo shooting event of a post shooting unit in the current terminal or a shot unit in the pre shooting unit, and obtaining a photo image corresponding to the photo shooting event:

When any one of the rear shooting unit or the front shooting unit in the terminal shoots a picture to generate a corresponding picture image, the terminal acquires the picture image to perform watermark image synthesis.

Step S132', obtaining check-in field element information corresponding to a watermark image currently and newly displayed in a field check-in interface, and synthesizing the watermark image into the photo image:

after the current terminal acquires any shooting unit to shoot the generated photo image, whether sign-in field element information represented in the currently generated watermark image is the latest sign-in field element information or not is detected, if not, the watermark image representing the latest sign-in field element information is regenerated, and the watermark image is synthesized into the photo image.

Step S133', calling a preset check-in photo anti-counterfeiting data generation algorithm, generating check-in photo anti-counterfeiting data corresponding to the check-in field element information, and packaging the check-in photo anti-counterfeiting data into the photo additional information of the photo image:

when the current terminal synthesizes the watermark image representing the latest sign-in site element information into a photo image, corresponding sign-in photo anti-counterfeiting data are generated for the photo image, the sign-in site element information used for the generated sign-in photo anti-counterfeiting data is the sign-in site element information represented in the watermark image, and the photo anti-counterfeiting data generation algorithm can be an encryption data generation algorithm set on the basis of an encryption algorithm such as an MD5 encryption algorithm, a sha1 encryption algorithm or an RSA encryption algorithm.

The photo additional information of the photo image is generally referred to as Exif information.

In this embodiment, after the terminal obtains the photo image captured by the capturing unit, the watermark image representing the latest field element information is synthesized to the photo image, and the corresponding check-in photo anti-counterfeiting data generated based on the latest field element information is encapsulated into the photo additional information of the photo image, and the server for performing the field check-in verification performs the data consistency verification on the check-in photo anti-counterfeiting data of the photo image, so as to detect whether the photo image is intercepted and tampered during transmission, so as to ensure that the user performs the real and effective check-in of the photo captured during the field check-in.

In one embodiment, referring to fig. 11, in the step of executing a check-in on a current check-in user by the driving server according to the check-in information, and storing the check-in information, the method includes the following steps:

step S141, receiving field sign-in information pushed by a terminal, and acquiring photo images and sign-in field element information contained in the field sign-in information:

after receiving the field sign-in information pushed by the terminal for performing the field sign-in on-line service, the server analyzes the field sign-in information to acquire the field sign-in information including the photo image and the sign-in field element information.

Step S142, calling a preset check-in photo anti-counterfeiting data generation algorithm to generate check-in photo anti-counterfeiting data corresponding to the check-in field element information:

the check-in photo anti-counterfeiting data generation algorithm in the server is generally the same as the check-in photo anti-counterfeiting data generation algorithm in the terminal, so that the two parties can generate the same check-in photo anti-counterfeiting data.

Step S143, comparing whether the check-in photo anti-counterfeiting data of the photo information is consistent with the currently generated check-in photo anti-counterfeiting data, if so, checking in the check-in user of the terminal through on-site check-in verification:

when the server generates corresponding check-in photo anti-counterfeiting data for verification according to check-in field element information contained in the field check-in information, whether the check-in photo anti-counterfeiting data exist in the photo image is detected, if the check-in photo anti-counterfeiting data do not exist, a check-in user of the terminal does not pass the field check-in verification, if the check-in photo anti-counterfeiting data exist, whether the check-in photo anti-counterfeiting data of the photo image are the check-in photo anti-counterfeiting data generated by the server is compared, and if the check-in photo anti-counterfeiting data are the same, the check-in user passes the field check-in verification.

In this embodiment, after receiving the field check-in information, the server generates check-in photo anti-counterfeiting data according to check-in field element information included in the field check-in information, so as to check whether the check-in photo anti-counterfeiting data of the photo image included in the field check-in information is consistent with the check-in photo anti-counterfeiting data generated by the server, so as to detect whether the photo image is intercepted and tampered during transmission, and ensure that the photo taken by a user performs field check-in is true and effective.

In one embodiment, referring to fig. 12, after the step of executing a check-in check on a current check-in user by the driving server according to the check-in information, and storing the check-in information, the method includes the following steps:

step S141', according to the sign-in user characteristic information corresponding to the field sign-in information through the field sign-in verification, storing the sign-in user characteristic information in a sign-in service database in a classified manner, wherein the sign-in user information comprises a user name, a user position or a user work unit:

the server performs business storage on the site check-in information checked by site check-in, and obtains the corresponding check-in user characteristic information of a check-in user to which the site check-in information checked by site check-in belongs, so as to store the site check-in information into a business database in a classified manner according to the site element information and the check-in user characteristic information in the site check-in information, for example, the site check-in information can be stored in a classified manner based on the site check-in time or site check-in address contained in the check-in site element information, or the user information can be stored in a classified manner based on a user name, a user position or a user work unit contained in the check-in user characteristic information, or the site check-in information is stored in a classified manner in combination with each data.

Step S142', in response to a field sign-in query instruction pushed by a management terminal, according to query target feature information contained in the field sign-in query instruction, one or more corresponding target field sign-in information is queried from the sign-in service database and pushed to the management terminal, wherein the query target feature information comprises a user name, a user position, a user work unit, a sign-in field address or a sign-in field time period:

the management user who manages the on-site check-in online service can set corresponding inquiry target feature information through the management terminal where the management user is located to generate an on-site check-in inquiry instruction containing the inquiry template feature information, push the on-site check-in inquiry instruction to a server to acquire one or more target on-site check-in information which is inquired out by the server from a service database and accords with the inquiry template feature information, for example, the management user can check in the corresponding target on-site check-in information by setting the user name of the check-in user to be inquired in, the user work unit of the work unit to be inquired in, the check-in on-site address of the check-in place to be inquired in or the check-in on-site time period of the check-in time period to be inquired in as an inquiry condition.

In this embodiment, the service storage is performed on the field sign-in information used by the sign-in user when using the field sign-in online service, so that the attendance management personnel can perform the field sign-in information inquiry, know the attendance condition in the field sign-in online service, and improve the attendance management efficiency.

Further, by performing the functionalization of each step in the method disclosed in the foregoing embodiments, a field sign-in device of the present application may be constructed, and according to this concept, please refer to fig. 13, in an exemplary embodiment, the device includes: the field element acquisition module 11 is used for displaying a field sign-in interface and acquiring sign-in field element information; a watermark image display module 12, configured to generate a watermark image representing the sign-in site element information, and output the watermark image to a site sign-in interface for display; a watermark image synthesis module 13, configured to obtain photo images shot by a plurality of shooting units in a current terminal, and synthesize the watermark images into each of the photo images; the check-in information pushing module 14 generates check-in information of the photo images and the check-in field element information, pushes the check-in information to a server, and drives the server to execute the check-in verification of the current check-in user based on the check-in information, so as to store the check-in information.

In one embodiment, the field element obtaining module 11 includes: the field element request submodule is used for pushing a sign-in field element acquisition instruction to the server in response to an interface initialization event acting on a field sign-in interface; the field element acquisition sub-module is used for acquiring check-in field element information pushed by the server in response to the check-in field element acquisition instruction, wherein the check-in field element information comprises a check-in field address or check-in field time; the field element updating sub-module is used for establishing a data acquisition link acting on the check-in field element information with the server, and continuously acquiring the latest check-in field element information from the server so as to update the check-in field element information in real time.

In one embodiment, the watermark image display module 12 includes: the watermark template acquisition sub-module is used for responding to the watermark initializing instruction and acquiring a preset sign-in field watermark template; the watermark image generation sub-module is used for acquiring the latest sign-in site element information and generating a watermark image representing the sign-in site element information based on the sign-in site watermark template; the watermark image output sub-module is used for outputting the watermark image to a watermark display position of a scene shooting browsing window in a scene sign-in interface; and the watermark image updating sub-module is used for responding to a check-in field element updating event and updating the watermark image displayed in the check-in field shooting browsing window according to the updated check-in field element information.

In one embodiment, the watermark image synthesis module 13 includes: the photo image acquisition sub-module is used for responding to a photo shooting event of a post shooting unit in the current terminal or a shot unit in the pre shooting unit and acquiring a photo image corresponding to the photo shooting event; the shooting interval detection sub-module is used for acquiring shooting time of the photo image and monitoring whether the time difference between the shooting time and the current time exceeds the preset shooting interval duration; and the inquiry shooting notification sub-module is used for deleting the photo image when the time difference exceeds the preset shooting interval duration, and outputting a notification representing that the shot unit is reused for shooting the photo to be displayed in a field sign-in interface.

In another embodiment, the watermark image synthesis module 13 further includes: the photo image shooting sub-module is used for responding to a photo shooting event of a post shooting unit in the current terminal or a shot unit in the pre shooting unit and acquiring a photo image corresponding to the photo shooting event; the watermark image synthesis sub-module is used for acquiring sign-in field element information corresponding to a watermark image which is currently and recently displayed in a field sign-in interface, and synthesizing the watermark image into the photo image; and the photo anti-counterfeiting generation sub-module is used for calling a preset check-in photo anti-counterfeiting data generation algorithm, generating check-in photo anti-counterfeiting data corresponding to the check-in field element information, and packaging the check-in photo anti-counterfeiting data into the photo additional information of the photo image.

In one embodiment, the sign-in information pushing module 14 includes: the sign-in information acquisition sub-module is used for receiving the field sign-in information pushed by the terminal and acquiring a photo image and sign-in field element information contained in the field sign-in information; the verification anti-counterfeiting generation sub-module is used for calling a preset check-in photo anti-counterfeiting data generation algorithm to generate check-in photo anti-counterfeiting data corresponding to the check-in field element information; and the anti-counterfeiting data comparison sub-module is used for comparing whether the check-in photo anti-counterfeiting data of the photo information is consistent with the check-in photo anti-counterfeiting data generated currently, and if so, the check-in user of the terminal passes the check-in verification on site.

In another embodiment, the sign-in information pushing module 14 further includes: the sign-in information storage sub-module is used for storing sign-in user characteristic information in a sign-in business database in a classified mode according to sign-in user characteristic information corresponding to the field sign-in information passing the field sign-in verification, wherein the sign-in user information comprises a user name, a user position or a user work unit; the sign-in information inquiry sub-module is used for responding to a field sign-in inquiry instruction pushed by the management terminal, inquiring one or more corresponding target field sign-in information from the sign-in business database according to inquiry target feature information contained in the field sign-in inquiry instruction, and pushing the inquiry target feature information into the management terminal, wherein the inquiry target feature information comprises a user name, a user position, a user work unit, a sign-in field address or a sign-in field time period.

In order to solve the technical problem, the embodiment of the application also provides a computer device for running a computer program realized according to the field sign-in method. Referring specifically to fig. 14, fig. 14 is a basic structural block diagram of a computer device according to the present embodiment.

As shown in fig. 14, the internal structure of the computer device is schematically shown. The computer device includes a processor, a non-volatile storage medium, a memory, and a network interface connected by a system bus. The nonvolatile storage medium of the computer device stores an operating system, a database and computer readable instructions, the database can store a control information sequence, and the computer readable instructions can enable a processor to realize a field sign-in method when the computer readable instructions are executed by the processor. The processor of the computer device is used to provide computing and control capabilities, supporting the operation of the entire computer device. The memory of the computer device may have stored therein computer readable instructions that, when executed by the processor, cause the processor to perform a check-in method. The network interface of the computer device is for communicating with a terminal connection. It will be appreciated by those skilled in the art that the structure shown in fig. 14 is merely a block diagram of a portion of the structure associated with the present inventive arrangements and is not limiting of the computer device to which the present inventive arrangements are applied, and that a particular computer device may include more or fewer components than shown, or may combine certain components, or have a different arrangement of components.

In this embodiment, the processor is configured to execute specific functions of each module/sub-module in the field sign-in device according to the present application, and the memory stores program codes and various types of data required for executing the modules. The network interface is used for data transmission between the user terminal or the server. The memory in this embodiment stores program codes and data required for executing all modules/sub-modules in the field check-in device, and the server can call the program codes and data of the server to execute the functions of all the sub-modules.

The present application also provides a non-volatile storage medium, the field check-in method being written as a computer program, stored in the storage medium in the form of computer readable instructions, which when executed by one or more processors, means that the program runs in a computer, thereby causing the one or more processors to perform the steps of the field check-in method of any of the embodiments described above.

Those skilled in the art will appreciate that implementing all or part of the above-described methods in accordance with the embodiments may be accomplished by way of a computer program stored in a computer-readable storage medium, which when executed, may comprise the steps of the embodiments of the methods described above. The storage medium may be a nonvolatile storage medium such as a magnetic disk, an optical disk, a Read-Only Memory (ROM), or a random access Memory (Random Access Memory, RAM).

In summary, the application provides a novel user sign-in online service for the platform, so as to improve the authenticity and effectiveness of the platform user sign-in the platform.

It should be understood that, although the steps in the flowcharts of the figures are shown in order as indicated by the arrows, these steps are not necessarily performed in order as indicated by the arrows. The steps are not strictly limited in order and may be performed in other orders, unless explicitly stated herein. Moreover, at least some of the steps in the flowcharts of the figures may include a plurality of sub-steps or stages that are not necessarily performed at the same time, but may be performed at different times, the order of their execution not necessarily being sequential, but may be performed in turn or alternately with other steps or at least a portion of the other steps or stages.

Those of skill in the art will appreciate that the various operations, methods, steps in the flow, acts, schemes, and alternatives discussed in the present application may be alternated, altered, combined, or eliminated. Further, other steps, means, or steps in a process having various operations, methods, or procedures discussed herein may be alternated, altered, rearranged, disassembled, combined, or eliminated. Further, steps, measures, schemes in the prior art with various operations, methods, flows disclosed in the present application may also be alternated, altered, rearranged, decomposed, combined, or deleted.

The foregoing is only a partial embodiment of the present application, and it should be noted that it will be apparent to those skilled in the art that modifications and adaptations can be made without departing from the principles of the present application, and such modifications and adaptations are intended to be comprehended within the scope of the present application.

Claims (10)

1. The on-site sign-in method is characterized by comprising the following steps of:

displaying a field sign-in interface and acquiring sign-in field element information;

generating a watermark image representing the sign-in site element information, and outputting the watermark image to a site sign-in interface for display;

acquiring photo images shot by a plurality of shooting units in a current terminal, and synthesizing the watermark images into the photo images;

and generating field check-in information containing each photo image and the check-in field element information, pushing the field check-in information to a server, and enabling a driving server to execute field check-in verification of a current check-in user based on the field check-in information to store the field check-in information.

2. The method of claim 1, wherein the step of displaying a check-in interface and obtaining check-in field element information comprises the steps of:

Responding to an interface initialization event acting on a field sign-in interface, and pushing a sign-in field element acquisition instruction to a server;

acquiring check-in field element information pushed by a server in response to the check-in field element acquisition instruction, wherein the check-in field element information comprises a check-in field address or check-in field time;

and establishing a data acquisition link acting on the check-in field element information with the server, and continuously acquiring the latest check-in field element information from the server so as to update the check-in field element information in real time.

3. The method of claim 1, wherein generating a watermark image representing the check-in field element information, outputting the watermark image to a display in a field check-in interface, comprises the steps of:

responding to a watermark initializing instruction, and acquiring a preset sign-in field watermark template;

acquiring latest sign-in site element information, and generating a watermark image representing the sign-in site element information based on the sign-in site watermark template;

outputting the watermark image to a watermark display position of a scene shooting browsing window in a scene sign-in interface;

and responding to a check-in field element update event, and updating a watermark image displayed in a check-in field shooting browsing window according to the updated check-in field element information.

4. The method according to claim 1, wherein the step of acquiring photo images taken by a plurality of photographing units in the current terminal, and synthesizing the watermark image into each of the photo images, comprises the steps of:

responding to a photo shooting event of a shot unit in a rear shooting unit or a front shooting unit in the current terminal, and acquiring a photo image corresponding to the photo shooting event;

acquiring the shooting time of the photo image, and monitoring whether the time difference between the shooting time and the current time exceeds the preset shooting interval duration;

and deleting the photo image when the time difference exceeds the preset shooting interval duration, and outputting a notice representing that the shot unit is reused for shooting photos to be displayed in a field check-in interface.

5. The method according to claim 1, wherein the step of acquiring photo images taken by a plurality of taking units and synthesizing the watermark image into each of the photo images comprises the steps of:

responding to a photo shooting event of a shot unit in a rear shooting unit or a front shooting unit in the current terminal, and acquiring a photo image corresponding to the photo shooting event;

Acquiring check-in field element information corresponding to a watermark image which is currently and recently displayed in a field check-in interface, and synthesizing the watermark image into the photo image;

invoking a preset check-in photo anti-counterfeiting data generation algorithm, generating check-in photo anti-counterfeiting data corresponding to the check-in field element information, and packaging the check-in photo anti-counterfeiting data into the photo additional information of the photo image.

6. The method according to claim 1, wherein the step of the drive server performing a check-in check on a current check-in user based on the check-in information, and storing the check-in information, comprises the steps of:

receiving field sign-in information pushed by a terminal, and acquiring a photo image and sign-in field element information contained in the field sign-in information;

invoking a preset check-in photo anti-counterfeiting data generation algorithm to generate check-in photo anti-counterfeiting data corresponding to the check-in field element information;

and comparing whether the check-in photo anti-counterfeiting data of the photo information is consistent with the check-in photo anti-counterfeiting data generated currently, and if so, checking in by a check-in user of the terminal through on-site check-in verification.

7. The method of claim 1, wherein the step of the drive server performing a check-in on a current check-in user based on the check-in information, and storing the check-in information, comprises the steps of:

according to sign-in user characteristic information corresponding to the field sign-in information passing the field sign-in verification, storing the sign-in user characteristic information in a sign-in business database in a classified manner, wherein the sign-in user information comprises a user name, a user position or a user work unit;

responding to a field sign-in inquiry command pushed by a management terminal, inquiring one or more corresponding target field sign-in information from the sign-in business database according to inquiry target feature information contained in the field sign-in inquiry command, and pushing the inquiry target feature information to the management terminal, wherein the inquiry target feature information comprises a user name, a user position, a user work unit, a sign-in field address or a sign-in field time period.

8. A field check-in device, comprising:

the field element acquisition module is used for displaying a field sign-in interface and acquiring sign-in field element information;

the watermark image display module is used for generating a watermark image representing the sign-in site element information and outputting the watermark image to a site sign-in interface for display;

The watermark image synthesis module is used for obtaining photo images shot by a plurality of shooting units in the current terminal and synthesizing the watermark images into the photo images;

the sign-in information pushing module is used for generating the field sign-in information containing each photo image and the sign-in field element information and pushing the field sign-in information to the server, and the driving server is used for executing the field sign-in verification of the current sign-in user based on the field sign-in information and storing the field sign-in information in a business mode.

9. A field check-in device comprising a central processor and a memory, characterized in that the central processor is adapted to invoke a computer program stored in the memory for performing the steps of the method according to any of claims 1 to 7.

10. A computer-readable storage medium, characterized in that it stores in the form of computer-readable instructions a computer program implemented according to the method of any one of claims 1 to 7, which, when invoked by a computer, performs the steps comprised by the corresponding method.