CN116884106A - Inspection path signing-in method and device, equipment, medium and product thereof - Google Patents

Abstract

The application discloses a patrol path sign-in method and a device, equipment, media and products thereof, wherein the method comprises the following steps: responding to a patrol point interaction check-in event of a patrol point in a patrol path, and acquiring patrol point interaction check-in information corresponding to the patrol point, wherein the patrol point interaction check-in event comprises near field communication interaction check-in or patrol point feature code shooting interaction check-in; generating patrol check-in information comprising patrol point interaction check-in information and patrol check-in field element information, and pushing the patrol check-in information to a patrol management center for patrol check-in verification; responding to a patrol completion instruction of the patrol path, and generating a patrol node path diagram; and responding to the editing completion event of the patrol node path diagram, pushing the patrol node path diagram to a patrol management center for patrol path verification. The application provides a novel network online patrol system, which reports patrol check-in data in real time and has a patrol path capable of being edited in a self-defined way to report patrol conditions, thereby improving the patrol efficiency and the patrol authenticity of users.

Description

Inspection path signing-in method and device, equipment, medium and product thereof

Technical Field

The application relates to the field of inspection signing systems, in particular to an inspection path signing method, and further relates to a corresponding device, equipment, a nonvolatile storage medium and a computer program product of the method.

Background

In places such as logistics warehouse, company or market, general needs property platform to arrange personnel to patrol to guarantee place safety, and along with the development of science and technology, property platform generally can provide the system of registering for the personnel of patrolling, so that the personnel of patrolling uses the system of registering to patrol, current system of registering generally needs the personnel of patrolling to use special equipment such as the pole of patrolling to patrol, through using the pole of patrolling to interact with the node of patrolling, store the information of registering to the pole of patrolling, with the pole of patrolling after being connected with corresponding terminal equipment after the end of the patrol, store the information of registering in the pole of patrolling in terminal equipment, rethread terminal equipment management patrolling information, this kind of system of patrolling operation is comparatively loaded down with trivial details except that the personnel of patrolling uses specific equipment to carry out the system of patrolling influence personnel efficiency, the information that is used for reporting the condition also can't be uploaded in real time and managed, make the condition of patrolling have a post-existence, if the on-site problem can't be solved in a way that other real-time response can't be carried out.

In view of the problems with existing check-in systems, the present inventors have made a corresponding search for a solution to the problems.

Disclosure of Invention

The application aims to meet the requirements of users and provides a patrol path check-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:

responding to a patrol point interaction check-in event of a patrol point in a patrol path, and acquiring patrol point interaction check-in information corresponding to the patrol point, wherein the patrol point interaction check-in event comprises near field communication interaction check-in or patrol point feature code shooting interaction check-in;

generating patrol sign-in information comprising the patrol point interaction sign-in information and the patrol sign-in field element information, pushing the patrol sign-in information to a patrol management center for patrol sign-in verification;

responding to the patrol completion instruction of the patrol path, and generating a patrol node path diagram acting on the current patrol path;

and responding to the editing completion event acted on the patrol node path diagram, pushing the patrol node path diagram to a patrol management center for patrol path verification.

In a further embodiment, in response to a patrol point interaction check-in event of a patrol point in a patrol path, acquiring patrol point interaction check-in information corresponding to the patrol point, where the patrol point interaction check-in event includes a near field communication interaction check-in or a patrol point feature code shooting interaction check-in step, the method includes:

responding to a near field communication interaction event between the current terminal and the current patrol point equipment, and acquiring patrol point identity codes and patrol point addresses of the current patrol point equipment to be packaged into patrol point interaction sign-in information;

and acquiring the patrol point identity code and the patrol point address of the current patrol point equipment to package the patrol point interaction sign-in information through the patrol point feature code link acquired by the patrol point feature code of the current patrol point shot by the shooting unit in the current terminal.

In a further embodiment, in response to a patrol point interaction check-in event of a patrol point in a patrol path, acquiring patrol point interaction check-in information corresponding to the patrol point, where the patrol point interaction check-in event includes a near field communication interaction check-in or a patrol point feature code shooting interaction check-in step, the method includes:

acquiring a patrol point feature code photo shot by a shooting unit in a current terminal, wherein the patrol point feature code photo is provided with an image of a patrol point feature code representing a current patrol point;

Generating watermark images representing inspection sign-in site element information acting on a current inspection point and inspection point interaction sign-in information, and synthesizing the watermark images into the inspection point feature code photos, wherein the inspection sign-in site element information comprises inspection path sign-in time, interaction sign-in addresses or inspection path sign-in user names;

generating a photo anti-counterfeiting feature code based on the inspection signing-in site element information, storing the photo anti-counterfeiting feature code into photo additional information of the inspection point feature code photo, and taking the inspection point feature code photo as inspection point interaction signing-in information.

In a further embodiment, the step of generating the check-in information including the check-in information and the check-in field element information, and pushing the check-in information to the check-in management center to perform check-in verification includes:

receiving patrol information pushed by a terminal, acquiring a patrol point address contained in patrol point interaction information in the patrol information, acquiring an interaction sign-in address contained in patrol field element information in the patrol information, judging whether the interaction sign-in address is the patrol point address, and if yes, checking by the terminal through the patrol sign-in;

Acquiring a patrol path table corresponding to a patrol user of the terminal, detecting whether a patrol point identity code contained in the patrol point interaction sign-in information is in the patrol path table, and if not, pushing a notification representing that a patrol point corresponding to the patrol point interaction sign-in information is not in a patrol path to the terminal;

determining the check-in times of the terminal acting on the current inspection path of the inspection check-in information, acquiring the inspection point sequence of the inspection point identity codes mapped and stored in the inspection path table, judging whether the check-in times are the inspection point sequence, if not, pushing a notification representing sequential inspection of the inspection points to the terminal;

when the inspection point interaction sign-in information has the inspection point feature code photo, acquiring a photo anti-counterfeiting feature code contained in the photo additional information of the inspection point feature code photo, generating a check photo anti-counterfeiting feature code according to the inspection sign-in field element information, judging whether the check photo anti-counterfeiting feature code is identical to the photo anti-counterfeiting feature code, and if yes, checking by the terminal through inspection sign-in.

In a further embodiment, the step of generating the patrol node path map acting on the current patrol path in response to the patrol completion instruction of the patrol path includes:

Responding to a patrol completion instruction of the current terminal acting on the current patrol path, and acquiring patrol point interaction sign-in information contained in a plurality of patrol sign-in information acting on the current patrol path;

based on the patrol point identity codes and the patrol point addresses contained in the patrol point interaction sign-in information, generating a patrol node path diagram which is provided with map images and characterizes patrol points corresponding to the patrol point interaction sign-in information by using the patrol nodes;

and drawing a patrol node path connecting each patrol node in the patrol node path diagram according to the terminal positioning mobile data of the current terminal acting on the current patrol path.

In a further embodiment, the step of pushing the patrol node path map to the patrol management center for patrol path verification in response to the edit completion event acting on the patrol node path map includes:

responding to a patrol point on-site photo editing event acted on the patrol node path diagram, determining a target patrol node of the on-site photo editing event, outputting a patrol point description photo corresponding to the patrol point on-site photo editing event to a target patrol node in the patrol node path diagram for display, and packaging the patrol point description photo into patrol sign on-site element information corresponding to the target patrol node;

Responding to a patrol point text description editing event acted on the patrol node path diagram, determining a target patrol node of the patrol point text description editing event, outputting a patrol point description text corresponding to the patrol point text description editing event to a target patrol node in the patrol node path diagram for display, and packaging the patrol point description text into patrol sign-in field element information corresponding to the target patrol node;

responding to a patrol point voice description editing event acted on the patrol node path diagram, determining a target patrol node of the patrol point text description editing event, acquiring patrol point description voice corresponding to the patrol point voice description editing event, displaying a voice playing control acted on the patrol point description voice at the target patrol node in the patrol node path diagram, and packaging the patrol point description voice into patrol sign-in field element information corresponding to the target patrol node.

In a further embodiment, after the step of pushing the patrol node path map to the patrol management center for patrol path verification in response to the edit completion event acting on the patrol node path map, the method includes:

Receiving a patrol node path diagram pushed by a terminal, and acquiring a patrol path table acting on the patrol node path diagram;

detecting whether all the patrol node patrol point identity codes stored in the patrol node path diagram correspond to patrol nodes or not, if not, determining the patrol point identity codes which do not exist in the patrol path diagram in the patrol node path diagram, and pushing notification indicating that patrol points of all the patrol point identity codes do not carry out patrol to the terminal;

determining a patrol node with patrol point editing information in the patrol node path diagram, acquiring patrol point editing information in patrol sign-in field element information corresponding to the patrol node, mapping and storing the patrol point editing information to a corresponding patrol point identity code in a patrol path table, wherein the patrol point editing information comprises a patrol point description photo, a patrol point description text or a patrol point description voice;

responding to a patrol path query instruction pushed by a management end, and acquiring a corresponding patrol node path diagram, a patrol path table or patrol sign-in information to push to the management end according to a target patrol user, a target patrol path or target patrol time corresponding to the query path query instruction.

A patrol route check-in device according to the present application includes:

the inspection interaction module is used for responding to an inspection point interaction sign-in event of an inspection point in an inspection path, acquiring inspection point interaction sign-in information corresponding to the inspection point, wherein the inspection point interaction sign-in event comprises near field communication interaction sign-in or inspection point feature code shooting interaction sign-in;

the patrol checking-in module is used for generating patrol checking-in information comprising the patrol point interaction checking-in information and the patrol checking-in field element information, and pushing the patrol checking-in information to a patrol management center for patrol checking-in verification;

the path generation module is used for responding to the patrol completion instruction of the patrol path and generating a patrol node path diagram acting on the current patrol path;

and the path editing module is used for responding to an editing completion event acted on the inspection node path diagram, and pushing the inspection node path diagram to an inspection management center for inspection path verification.

In a further embodiment, the patrol interaction module includes:

the near field communication interaction sub-module is used for responding to a near field communication interaction event between the current terminal and the current inspection point equipment, acquiring inspection point identity codes and inspection point addresses of the current inspection point equipment, and packaging the inspection point identity codes and the inspection point addresses into inspection point interaction sign-in information;

The feature code is linked with the patrol point feature code obtained by shooting the patrol point feature code of the current patrol point through the shooting unit in the current terminal, and the patrol point identity code and the patrol point address of the current patrol point equipment are obtained and packaged into patrol point interaction sign-in information.

In a preferred embodiment, the patrol interaction module further includes:

the shooting photo acquisition sub-module is used for acquiring a patrol point feature code photo shot by the shooting unit in the current terminal, wherein the patrol point feature code photo is provided with an image of a patrol point feature code representing the current patrol point;

the watermark synthesis submodule is used for generating watermark images representing inspection check-in site element information acting on a current inspection point and inspection point interaction check-in information, synthesizing the watermark images into the inspection point feature code photos, wherein the inspection check-in site element information comprises inspection path check-in time, interaction check-in addresses or inspection path check-in user names;

and the anti-fake code packaging sub-module is used for generating a photo anti-fake feature code based on the inspection check-in site element information, storing the photo anti-fake feature code into photo additional information of the inspection point feature code photo, and taking the inspection point feature code photo as inspection point interaction check-in information.

In a further embodiment, the patrol module includes:

the inspection address checking sub-module is used for receiving inspection signing information pushed by a terminal, acquiring inspection point addresses contained in inspection point interaction signing information in the inspection signing information, acquiring interaction signing addresses contained in inspection signing field element information in the inspection signing information, judging whether the interaction signing addresses are the inspection point addresses, and if yes, checking by the terminal through the inspection signing;

the inquiry point identity code checking module is used for acquiring a patrol path table corresponding to a patrol user of the terminal, detecting whether a patrol point identity code contained in the patrol point interaction sign-in information is in the patrol path table, and if not, pushing a notice indicating that a patrol point corresponding to the patrol point interaction sign-in information is not in a patrol path to the terminal;

the inspection point sequence checking sub-module is used for determining the check-in times of the current inspection path acted on the inspection check-in information by the terminal, acquiring the inspection point sequence stored by the inspection point identity code in a mapping manner in the inspection path table, judging whether the inspection check-in times are the inspection point sequence, and if not, pushing a notification representing sequential inspection of the inspection points to the terminal;

And the photo anti-counterfeiting code verification sub-module is used for acquiring the photo anti-counterfeiting feature code contained in the photo additional information of the inspection point feature code photo when the inspection point interaction check-in information contains the inspection point feature code photo, generating a verification photo anti-counterfeiting feature code according to the inspection check-in field element information, judging whether the verification photo anti-counterfeiting feature code is identical to the photo anti-counterfeiting feature code, and if yes, enabling the terminal to pass inspection check-in.

In a further embodiment, the path generation module includes:

the patrol completion response sub-module is used for responding to a patrol completion instruction of the current terminal on the current patrol path and acquiring patrol point interaction sign-in information contained in a plurality of patrol sign-in information on the current patrol path;

the patrol node generation sub-module is used for generating a patrol node path diagram which is provided with a map image and characterizes patrol points corresponding to the patrol point interaction sign-in information by using the patrol nodes based on the patrol point identity codes and the patrol point addresses contained in the patrol point interaction sign-in information;

and the patrol path generation sub-module is used for drawing patrol node paths connected with all the patrol nodes in the patrol node path diagram according to the terminal positioning mobile data of the current terminal acting on the current patrol path.

In a further embodiment, the path editing module includes:

the photo editing sub-module is used for responding to a patrol point scene photo editing event acted on the patrol node path diagram, determining a target patrol node of the scene point photo editing event, outputting a patrol point description photo corresponding to the patrol point scene photo editing event to a target patrol node in the patrol node path diagram for display, and packaging the patrol point description photo into patrol sign-in scene element information corresponding to the target patrol node;

the text editing sub-module is used for responding to a patrol point text description editing event acted on the patrol node path diagram, determining a target patrol node of the patrol point text description editing event, outputting a patrol point description text corresponding to the patrol point text description editing event to a target patrol node in the patrol node path diagram for display, and packaging the patrol point description text into patrol sign-in field element information corresponding to the target patrol node;

the voice editing sub-module is used for responding to a patrol point voice description editing event in the patrol node path diagram, determining a target patrol node of the patrol point text description editing event, acquiring patrol point description voice corresponding to the patrol point voice description editing event, displaying a voice playing control for the patrol point description voice at the target patrol node in the patrol node path diagram, and packaging the patrol point description voice into patrol check-in field element information corresponding to the target patrol node.

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 inspection path sign-in method.

To solve the above technical problem, an embodiment of the present application further provides 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 execute the steps of the inspection path check-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 inspection path sign-in method.

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

the application builds a novel check-in system, a check-in path built by different check-in points is preset in the check-in system, check-in point equipment which can be used for near field communication interaction or feature code shooting scanning is arranged at the check-in points, a check-in user responsible for checking-in can perform check-in with the deployed check-in point equipment arranged at the check-in points in the check-in path through terminal equipment thereof, and check-in information generated by the terminal is instantly pushed to a check-in management center for check-in, so that the real-time performance of check-in is ensured, and whether the check-in user really checks for check-in after the check-in of the check-in points in the check-in path is completed is instantly checked, so that the authenticity of check-in is ensured.

And then, the application generates a corresponding patrol node path diagram for the patrol path of the patrol user, the patrol points in the patrol node path diagram are visually displayed in a patrol node mode, and the mobile path of each patrol point in the patrol path of the patrol user is also visually drawn into the patrol node path diagram to connect each patrol node in the patrol node path diagram, and the function of editing the patrol path node diagram is opened to the patrol user, so that the patrol user reports the check-in field condition of the patrol points, so that the patrol management user can know the real field condition of each patrol point in the patrol path of the patrol user, and further better manage the corresponding patrol places of the patrol path, find the safety hidden trouble of the patrol places and solve the problem of the patrol places.

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 patrol route check-in method of the present application;

FIG. 3 is a schematic diagram of a patrol path comprising a plurality of patrol points according to the present application;

FIG. 4 is an interface diagram of a photo browsing interface for displaying a photo of a feature code of a patrol point in which a watermark image is synthesized according to the present application;

FIG. 5 is a schematic diagram of a routing diagram of a patrol node according to the present application;

FIG. 6 is a schematic drawing of controls for editing controls at a patrol node, and a schematic drawing of controls for each of the patrol node using a photo editing function, a descriptive text editing function, and a descriptive voice editing function;

FIG. 7 is a flowchart of an embodiment of the present application relating to near field communication interaction and inspection point feature code shooting interaction;

FIG. 8 is a flowchart of an embodiment of generating watermark images to be combined into a photograph of a feature code of a patrol point according to the present application;

FIG. 9 is a flowchart of an embodiment of the present application for checking check-in information pushed by a terminal of a check-in management center;

FIG. 10 is a flowchart of an embodiment of generating a routing table of routing nodes according to routing check-in information of each routing point in a routing path according to the present application;

FIG. 11 is a flowchart of an embodiment of photo editing, text editing and voice editing for a patrol point in a patrol node path diagram according to the present application;

FIG. 12 is a flow chart of an embodiment of the present application for a patrol management center to check a patrol node path diagram, store edit information of each patrol node in the patrol node path diagram, and feed back in response to a patrol path patrol instruction from a management end;

FIG. 13 is a functional block diagram of an exemplary embodiment of a patrol route 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 a patrol route check-in method of the present application, the method includes the following steps:

step S11, a patrol point interaction signing event of a patrol point in a patrol path is responded, patrol point interaction signing information corresponding to the patrol point is obtained, and the patrol point interaction signing event comprises near field communication interaction signing or patrol point feature code shooting interaction signing:

The inspection signing operation is carried out on the inspection points by enabling inspection users responsible for inspection in the inspection signing system to interact with the inspection point devices in the inspection points through mobile terminals (such as mobile phones) of the inspection points, wherein the image 3 is an inspection path schematic diagram of a certain inspection site, the inspection points A, B, C, D and E in the inspection path schematic diagram form a corresponding inspection path, the inspection points in the general inspection path have a corresponding inspection sequence, and the inspection points A are generally taken as starting points, and the inspection points B, C, D and E are end points F in the general inspection path.

The terminal where the patrol user is located can interact with the patrol point equipment arranged at the patrol point to trigger a patrol point interaction signing event, for example, when the patrol point equipment of the patrol point is provided with a near field communication module and the terminal where the patrol user is located is also provided with the near field communication module, the terminal can interact with the patrol point equipment in a near field communication mode to trigger the patrol point interaction signing event of the near field communication interaction signing, and the terminal acquires the patrol point interaction signing information corresponding to the patrol point from the patrol point equipment in a mode of conducting the near field communication with the patrol point equipment.

The inspection point interaction sign-in information comprises an inspection point identity code representing the inspection point identity to which the inspection point interaction sign-in information belongs and an inspection point address representing the place where the inspection point belongs, and of course, if the inspection point equipment is provided with a shooting unit, the inspection point interaction sign-in information can also comprise an inspection point photo or an inspection point video shot by the shooting unit provided with the inspection point equipment.

In addition to performing near field communication interaction sign-in with the patrol point equipment arranged at the patrol point, if the patrol point equipment has the patrol point feature code, the patrol user can also use a shooting unit equipped with the terminal to shoot the patrol point feature code, so that the terminal obtains a corresponding patrol point feature code link through the shot patrol point feature code, and obtains the patrol point interaction sign-in information of the patrol point from a corresponding server through the patrol point feature code link.

Referring to fig. 4, a terminal where a patrol user is located may generate a corresponding watermark image to be synthesized into a patrol point feature code photo where the patrol point feature code is shot, in addition to patrol point feature codes of patrol point equipment set at a patrol point, and obtain patrol point interaction sign-in information of the patrol point through the patrol point feature codes, where the generated watermark image characterizes patrol point element information and patrol point interaction sign-in information of the patrol point, and the patrol sign-in patrol element information includes an interaction sign-in address, interaction sign-in time or interaction sign-in weather where the patrol user performs the patrol point feature code shooting interaction sign-in on the patrol point, and includes a patrol user name of the patrol user; after the watermark image is generated, the watermark image is synthesized into the inspection point feature code photo, so that the inspection point feature code photo which is completed with the watermark image synthesis is also packaged into the inspection point interaction sign-in information, and is conveniently uploaded to an inspection management center for inspection sign-in check and inspection report; the graphic user interface shown in fig. 4 displays the inspection point feature code photo 401 after the watermark image synthesis, and the inspection user can re-shoot the inspection point feature code photo by clicking the re-shooting control 402 or package the inspection point feature code photo 401 to the inspection point interaction sign-in information to upload to the inspection management center by clicking the confirmation submission 403.

In order to prevent the inspection point feature code photo of the synthesized watermark image from being modified and affecting the authenticity of inspection check-in, after the terminal synthesizes the watermark image into the inspection point feature code photo, a preset photo anti-counterfeiting code generation algorithm is called, a corresponding photo anti-counterfeiting feature code is generated based on inspection check-in element information represented in the watermark image, and the photo anti-counterfeiting feature code is stored in photo additional information of the inspection point feature code photo so that when the inspection point feature code photo is uploaded to an inspection management center for inspection check-in, the inspection management center can check data consistency of the photo anti-counterfeiting feature code contained in the photo additional information of the inspection point feature code photo to judge whether the inspection point feature code photo is modified or not.

Step S12, generating patrol check-in information comprising the patrol point interaction check-in information and the patrol check-in field element information, pushing the patrol check-in information to a patrol management center for patrol check-in verification:

the terminal performs the check-in of the check-in point at present, the check-in information of the check-in point corresponding to the check-in point is obtained, after the check-in field element information of the check-in point is obtained, the check-in information containing the check-in information of the check-in point and the check-in field element information is generated, the field check-in information is used as the check-in evidence of the check-in point corresponding to the check-in point of the check-in user at the terminal, and the check-in management center performs the check-in verification on the check-in user based on the check-in information.

The inspection management center is responsible for performing inspection check-in verification and business storage on inspection check-in information pushed by each inspection user in the inspection check-in system, wherein the inspection check-in verification is used for verifying whether the inspection user really obtains inspection points corresponding to the inspection check-in information according to the inspection check-in information pushed by the terminal where the inspection user is located, and the business storage is used for storing the inspection check-in information pushed by each inspection check-in information and the inspection node path diagram so as to facilitate the management user to inquire the inspection check-in information and the inspection node path diagram corresponding to the inspection check-in information and the inspection management.

After the patrol management center receives the patrol information pushed by the terminal, the patrol management center acquires a patrol point address contained in the patrol point interaction information in the patrol information, acquires an interaction sign-in address contained in the patrol field element information in the patrol information, judges whether the interaction sign-in address is the patrol point address, if yes, characterizes that a patrol user of the terminal really arrives at a patrol point corresponding to the interaction sign-in address to carry out patrol sign-in, and the terminal passes the patrol sign-in check.

Secondly, after receiving the patrol signing information pushed by the terminal, the patrol management center acquires a patrol path table corresponding to a patrol user of the terminal or acquires a patrol path table of a patrol path corresponding to the patrol signing information, wherein the patrol path table stores patrol point identity codes and patrol point sequences of all patrol points in the corresponding patrol path, and the patrol point sequences are used for representing patrol positions of the patrol points in the patrol path; after the corresponding patrol path table is obtained, whether the patrol point identity code contained in the patrol point interaction sign-in information is in the patrol path table is detected, if not, a notification indicating that the patrol point corresponding to the patrol point interaction sign-in information is not in the patrol path is pushed to the terminal, if so, the number of times of the terminal acting on the current patrol path sign-in information is determined, the patrol sign-in information which is pushed by the terminal for the number of times of the terminal in the current patrol path is determined, the patrol point sequence stored in the map of the patrol path table is obtained, further, whether the number of times of the patrol point is the patrol point sequence is judged, if not, the patrol point corresponding to the patrol point is not the patrol point in the current patrol path due to interaction, if so, the feature checking-in order is pushed to the terminal, and if the number of times of the patrol points is the patrol point in the current patrol path is checked, the checking-in order is judged.

In addition, after the inspection management center receives inspection check-in information pushed by the terminal, when the inspection point interaction check-in information has an inspection point feature code photo, a photo anti-counterfeiting feature code contained in photo additional information of the inspection point feature code photo is acquired, a preset photo anti-counterfeiting code generation algorithm which is the same as that in the terminal is called at the same time, a check photo anti-counterfeiting feature code is generated based on the inspection check-in field element information, whether the check photo anti-counterfeiting feature code is the same as the photo anti-counterfeiting feature code is judged, if so, the terminal passes inspection check-in, and if not, the inspection point feature code photo is characterized to be modified in an non-compliance mode.

After the terminal pushes the check-in information to the check-in management center, the check-in information generally obtains a notice that the check-in point corresponding to the characterization check-in information pushed by the check-in management center is successfully checked in, and at this time, a check-in user at the terminal can perform interactive check-in of the next check-in point in the check-in path, namely, a check-in person using the terminal can go to the next check-in point of the check-in information in the check-in path to perform check-in.

Step S13, responding to the patrol completion instruction of the patrol path, and generating a patrol node path diagram acting on the current patrol path:

after the patrol user at the terminal has interacted with all patrol points in the current patrol path, or after the patrol user actively finishes the patrol of the current patrol path, the terminal is triggered to respond to a patrol completion instruction acting on the current patrol path.

After the terminal responds to the patrol completion instruction, a patrol path corresponding to the patrol completion instruction is determined, and a patrol node path diagram acting on the patrol path is generated.

Referring to fig. 5, the terminal obtains the check-in information of each check-in point of the check-in completed in the current check-in node path diagram, and has a map image corresponding to the check-in path in the check-in node path diagram shown in fig. 5, and displays the corresponding check-in node of each check-in point in the map image shown in fig. 5 according to the check-in information of each check-in point including the check-in point identity code and the check-in address, and the "check-in node a", "check-in node B", "check-in node C", "check-in node E" and "check-in node F" shown in the check-in node path diagram shown in fig. 5 are the check-in nodes generated after the visual display in the map image according to the check-in point interaction check-in information of the corresponding check-in point including the check-in point identity code and the check-in address.

Referring to fig. 5, in addition to displaying each inspection point to a map image corresponding to an inspection path in a visual manner of an inspection node, an inspection node path for connecting each inspection node is generated according to terminal positioning mobile data generated according to the terminal positioning mobile data when a terminal performs inspection and check-in on the inspection path, and the connection path between each illustrated inspection node is an inspection node path generated according to the terminal positioning mobile data of the terminal acting on the inspection path, wherein the terminal positioning mobile data is generally generated by monitoring positioning data corresponding to inspection and check-in activities of a tracking terminal in the inspection path through a Global Positioning System (GPS), as illustrated in an inspection node path diagram of fig. 5.

In addition, the terminal can acquire interactive check-in time or interactive check-in weather contained in the check-in field element information of each check-in point, visually output the interactive check-in time or the interactive check-in weather to the position corresponding to the check-in node in the check-in node path diagram, and if the check-in point has a corresponding check-in point feature code photo, output the check-in point feature code photo to the position corresponding to the check-in node in the check-in node path diagram in a thumbnail mode for display.

Step S14, responding to the editing completion event acted on the patrol node path diagram, pushing the patrol node path diagram to a patrol management center for patrol path verification:

after the terminal generates the patrol node path diagram corresponding to the current patrol path, a patrol user at the terminal can carry out user-defined editing on the generated patrol node path diagram so as to describe the field condition of the patrol user when carrying out patrol check-in at each patrol point, enrich the information of each patrol point in the patrol node path diagram, and enable the management user of the patrol management center to know the field condition of each patrol point in the patrol path in detail when pushing the patrol node path diagram to the patrol management center, thereby carrying out corresponding management feedback.

The editing authority for opening the patrol node path diagram to the patrol user can be divided into photo editing functions of all the patrol nodes in the patrol node path diagram to the patrol user, text description editing functions of all the patrol nodes in the patrol node path diagram to the patrol user, voice description editing functions of all the patrol nodes in the patrol node path diagram to the patrol user, and the like.

Referring to fig. 5 and 6, after the terminal generates the inspection node path diagram shown in fig. 5, an inspection user at the terminal may click to touch any one of the query nodes shown in the inspection node path diagram shown in fig. 5 to call out a corresponding query node editing control at the clicked query node, for example, when the inspection user clicks on "inspection node a" shown in the inspection node path diagram shown in fig. 5, the "inspection node a"601 displays an editing control providing a photo editing function, a text description editing function and a voice description editing function, the inspection user may edit "inspection node a" through the corresponding editing control using the corresponding editing function, and when the photo editing function is used, a corresponding photo may be output and displayed at the "query node a" in the inspection node path diagram shown in fig. 5, and the "query node a" of the edited photo will be shown as "inspection node a"602 shown in fig. 6, and the photo selected by the user through the editing function is displayed at the "inspection node a" 602; when the patrol user uses the text to edit the corresponding text description editing function, the corresponding patrol point description text can be output and displayed at the 'query node A' in the patrol node path diagram shown in fig. 5, the 'query node A' of the edited text is shown as 'patrol node A' 603 in fig. 6, and the patrol point description text edited by the patrol user through the text description editing function is displayed at the 'patrol node A' 603; when the patrol user edits the corresponding voice description editing function using voice, a control for playing the patrol point description voice may be output and displayed at a "query node a" in the patrol node path diagram shown in fig. 5, and the "query node a" of the edited voice will be shown as a "patrol node a"604 in fig. 6, and the "patrol node a"604 is shown for playing the patrol point description voice recorded by the patrol user through the voice description editing function.

After receiving the inspection node path diagram pushed by the terminal where the inspection user is located, the inspection management center acquires an inspection path table acting on an inspection path corresponding to the inspection node path diagram, detects whether all inspection node inspection point identity codes stored in the inspection path table exist in the inspection node path diagram and corresponds to the inspection nodes, checks whether all inspection points in the inspection path of the inspection user through the inspection node path diagram, if all inspection node inspection point identity codes stored in the inspection path table do not exist in the inspection node path diagram and correspond to the inspection nodes, determines inspection point identity codes which do not exist in the inspection path diagram in the inspection node path diagram, pushes notification indicating that inspection points of the inspection point identity codes do not exist in the inspection path diagram to the terminal, and notifies the user to go to the corresponding inspection points for inspection.

In addition, the inspection management center determines the inspection node with the inspection point editing information in the received inspection node path diagram, acquires the inspection point editing information in the inspection check-in site element information corresponding to the inspection node, maps and stores the inspection point editing information to the corresponding inspection point identity code in the inspection path table, wherein the inspection point editing information comprises an inspection point description photo, an inspection point description text or an inspection point description voice, so that the inspection management center can provide the inspection node path diagram inquiring service for the inspection user through the inspection path table, the inspection management center can receive the inspection path inquiring instruction pushed by the management end, and acquire the corresponding inspection node path diagram, the inspection path table or the inspection check-in information to the management end according to the inspection point identity code corresponding to the inspection path inquiring instruction, so that the management end can receive the inspection node path diagram of the inspection user, the inspection path diagram of the inspection user or the inspection path of the inspection user, and further browse the inspection path information of the inspection node.

The above exemplary embodiments and variations thereof fully disclose embodiments of the inspection path 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 an embodiment, please refer to fig. 7, in response to a patrol point interaction check-in event of a patrol point in a patrol path, the patrol point interaction check-in information corresponding to the patrol point is obtained, and the patrol point interaction check-in event includes a step of near field communication interaction check-in or patrol point feature code shooting interaction check-in, including:

step S111, in response to a near field communication interaction event between the current terminal and the current patrol point device, acquiring patrol point identity codes and patrol point addresses of the current patrol point device, which are packaged as patrol point interaction sign-in information:

the terminal can be provided with a near field communication module for performing near field communication on other equipment, and can also be provided with a corresponding near field communication module, when the terminal and the inspection equipment are both provided with the near field communication module, the terminal can enable the near field communication module to be close to the near field communication module of the inspection equipment so as to trigger the near field communication module between the two parties, at the moment, the terminal performs near field communication with the inspection equipment, acquires the inspection point identity code which is stored in the inspection equipment and is characterized by being the inspection point and the inspection point address of the deployed geographic position of the inspection equipment through the near field communication, and takes charge of the inspection point identity code and the inspection point address to be used for the inspection point interaction information of the inspection point equipment.

Step S112, the patrol point feature code link obtained by shooting the patrol point feature code of the current patrol point by the shooting unit in the current terminal is used for obtaining patrol point identity code and patrol point address of the current patrol point equipment to be packaged into patrol point interaction sign-in information:

the inspection point can be provided with the inspection point equipment with the near field communication module for near field communication with a terminal used by an inspection user, and the inspection point can be provided with corresponding inspection point feature codes, so that the terminal used by the inspection user can shoot the inspection point feature codes through a shooting unit of the terminal, further obtain inspection point feature code links corresponding to the inspection point feature codes, and obtain inspection point identity codes and inspection point addresses of the inspection points from line through the inspection point feature code links to package the inspection point interaction sign information.

The inspection point feature CODE can be a two-dimensional CODE (QR CODE) or a bar CODE (barcode) and the like, and can be printed or pasted to the inspection point equipment provided with the near field communication module, so that an inspection user can select one of near field communication interactive check-in and inspection point feature CODE shooting interactive check-in by using a terminal and an inspection point of inspection check-in to carry out inspection check-in.

In this embodiment, the patrol user may use the terminal to perform near field communication interaction check-in or feature code shooting interaction check-in at the patrol point, so that the patrol user may flexibly select different patrol point interaction check-in modes, and the patrol point check-in efficiency of the patrol user is improved.

In an embodiment, please refer to fig. 4 and fig. 8, in response to a patrol point interaction check-in event of a patrol point in a patrol path, obtain patrol point interaction check-in information corresponding to the patrol point, where the patrol point interaction check-in event includes a near field communication interaction check-in or a patrol point feature code shooting interaction check-in step, including:

step S111', a patrol point feature code photo shot by a shooting unit in the current terminal is acquired, wherein the patrol point feature code photo is provided with an image of a patrol point feature code representing the current patrol point:

the inspection point can be provided with corresponding inspection point feature codes for acquiring inspection point identity codes and inspection point addresses of the inspection points, and after the terminal shoots the inspection point feature codes deployed at the inspection points through a shooting unit of the terminal to acquire inspection point identity codes and inspection point addresses of the inspection points, the inspection point feature code pictures with images of the inspection point feature codes are generally generated due to shooting after the inspection point identity codes and the inspection point addresses of the inspection points are packaged into inspection point interaction sign-in information.

Step S112', generating watermark images representing the inspection checking-in site element information acting on the current inspection point and the inspection point interaction checking-in information, and synthesizing the watermark images into the inspection point feature code photos, wherein the inspection checking-in site element information comprises inspection path checking-in time, interaction checking-in address or inspection path checking-in user name:

after the terminal shoots the patrol point feature codes of the patrol points through the shooting unit of the terminal, generates a watermark image with images of the patrol point feature codes, acquires corresponding patrol point interaction check-in information through the patrol point feature codes, acquires the interaction check-in address, interaction check-in time or patrol check-in element information of the patrol points, which comprises the interactive check-in of the patrol point feature codes shot by the patrol users at the patrol points, generates a watermark image representing the patrol points and the patrol check-in site element information comprising the patrol path check-in time, the interaction check-in address or the patrol path check-in user name, synthesizes the watermark image into the patrol point feature code photo, displays the patrol point feature code photo 401 which completes the watermark image synthesis in a graphical user interface shown in fig. 4, and can re-shoot the patrol point feature code photo through a touch click display control 402 or package the patrol point feature code photo 401 to the patrol point feature code photo through a touch click display confirmation and submission 403 to manage the interactive check-in information.

Step S113', based on the inspection check-in site element information, generating a photo anti-counterfeiting feature code, storing the photo anti-counterfeiting feature code into photo additional information of the inspection point feature code photo, and taking the inspection point feature code photo as inspection point interaction check-in information:

after the terminal checks the inspection point feature code photo of the watermark image, based on inspection check-in inspection element information represented in the watermark image, a corresponding photo anti-counterfeiting feature code is generated, and the photo anti-counterfeiting feature code is stored in photo additional information of the inspection point feature code photo, so that when the inspection point feature code photo is uploaded to an inspection management center for inspection check-in, the inspection management center can check data consistency of the photo anti-counterfeiting feature code contained in the photo additional information of the inspection point feature code photo, and whether the inspection point feature code photo is modified or not can be judged.

The photo anti-counterfeiting feature code generation algorithm can be an encryption data generation algorithm set on the basis of encryption algorithms such as an MD5 encryption algorithm, a sha1 encryption algorithm or an RSA encryption algorithm.

The image additional information storing the photo security feature code is generally referred to as Exif information.

In this embodiment, watermark images representing inspection point inspection check-in field element information and inspection point interaction check-in information of an inspection point are generated and synthesized into a photo with an inspection point feature code image, so that check-in information of a check-in place of an inspection user at the inspection point is visually output to a photo shot at the inspection point to be displayed, a check-in proof of the inspection point is integrated into one photo, inspection check-in management is facilitated for inspection check-in management personnel, and a corresponding photo anti-counterfeiting feature code generated based on the latest inspection point check-in field element information is packaged into additional information of the photo to ensure inspection check-in authenticity of the inspection user.

In an embodiment, please refer to fig. 3 and fig. 9, the step of generating the check-in information including the check-in information and the check-in field element information, and pushing the check-in information to a check-in management center for check-in verification includes:

step S121, receiving patrol information pushed by a terminal, obtaining a patrol point address included in patrol point interaction check-in information in the patrol check-in information, obtaining an interaction check-in address included in patrol check-in field element information in the patrol check-in information, and judging whether the interaction check-in address is the patrol point address, if yes, the terminal passes the patrol check-in:

After the patrol management center receives the patrol information pushed by the terminal, the patrol management center acquires a patrol point address contained in the patrol point interaction sign-in information in the patrol sign-in information and acquires an interaction sign-in address contained in the patrol sign-in field element information in the patrol sign-in information, so that whether the interaction sign-in address is the patrol point address or not is judged, namely whether a patrol user signs in an address where the patrol point is deployed is judged, if the interaction sign-in address is the patrol point address, the sign of the patrol user is represented in the address where the patrol point is deployed, and at the moment, the patrol user at the terminal passes the check of the patrol point corresponding to the patrol sign-in information.

Step S122, acquiring a patrol path table corresponding to a patrol user of the terminal, detecting whether a patrol point identity code included in the patrol point interaction sign-in information is in the patrol path table, if not, pushing a notification indicating that a patrol point corresponding to the patrol point interaction sign-in information is not in a patrol path to the terminal:

referring to fig. 3, a patrol path table of a patrol path set by a patrol check-in system for each patrol user is provided in a patrol management center, a patrol point identity code and a patrol point sequence of each patrol point in the patrol path to which the patrol path table belongs are stored in the patrol path table, as shown in fig. 3, fig. 3 is a patrol path schematic diagram of a certain patrol site, and "patrol point a", "patrol point B", "patrol point C", "patrol point D" and "patrol point E" shown in the patrol path schematic diagram form a corresponding patrol path, therefore, a patrol point identity code of each patrol point is stored in a patrol path table of the patrol path shown in fig. 3, and each patrol point in a general patrol path has a corresponding patrol path sequence as shown in fig. 3, and generally uses "patrol point a" as a start point, and "way" patrol point B "," patrol point C "," patrol point D "and" as an end point F "as shown in the patrol path schematic diagram, so that each patrol point a corresponding patrol point identity code and a corresponding patrol point E" in the patrol path map as shown in the patrol path table 1.

The inspection management center acquires an inspection path table corresponding to the inspection user of the terminal, namely acquires the inspection path table of the inspection path of the inspection user currently performing inspection, further detects whether the inspection point identity code contained in the inspection point interaction sign-in information is in the inspection path table, and if not, characterizes that the inspection point of the inspection user currently performing inspection is not in the inspection path of the inspection user currently performing inspection, and therefore pushes notification characterizing that the inspection point corresponding to the inspection point interaction sign-in information is not in the inspection path to the terminal.

Step S123, determining the number of check-in times of the current inspection path acted on the inspection check-in information by the terminal, obtaining the inspection point sequence stored by the inspection point identity code in the mapping manner in the inspection path table, judging whether the number of check-in times is the inspection point sequence, if not, pushing a notification representing sequential inspection point inspection to the terminal:

the number of check-in times of the current inspection path is the number of check-in information pushing times of the terminal where the inspection user is located, the terminal pushes the inspection information pushing times of the inspection path which is acted on the current inspection user to conduct inspection, for example, when the inspection user pushes 5 times of the inspection information to an inspection management center through the terminal in the current inspection path, the number of check-in times of the terminal in the current inspection path is 5, the condition that the inspection user has checked in 5 inspection points in the current inspection path is also characterized, therefore, when judging whether the number of check-in times of the current inspection path of the terminal in the current inspection path is the inspection point sequence which is stored in a mapping mode in the inspection path table of the current inspection path, the inspection user at the terminal performs check-in of each inspection point according to the inspection sequence preset for each inspection point, if the number of check-in times is not the inspection point sequence is not the number of the current inspection point sequence, the terminal is notified to the terminal to conduct inspection according to the inspection sequence.

Step S124, when the inspection point interaction sign-in information has an inspection point feature code photo, acquiring a photo anti-counterfeiting feature code contained in photo additional information of the inspection point feature code photo, generating a check photo anti-counterfeiting feature code according to the inspection sign-in field element information, judging whether the check photo anti-counterfeiting feature code is identical to the photo anti-counterfeiting feature code, and if yes, checking by the terminal through inspection sign-in:

when the inspection point interaction sign-in information of the inspection sign-in information acquired by the inspection management center has an inspection point feature code photo, a photo anti-counterfeiting feature code contained in the inspection point feature code photo is acquired, a photo anti-counterfeiting feature code generation algorithm is called, a check photo anti-counterfeiting feature code for checking corresponding to inspection sign-in field element information contained in the inspection sign-in information is generated, whether the check photo anti-counterfeiting feature code is identical to the photo anti-counterfeiting feature code or not is judged, if yes, the inspection point feature code photo is characterized to be unmodified, and inspection sign-in of an inspection point corresponding to the inspection sign-in information of an inspection user at the terminal passes the check.

The photo anti-counterfeiting feature code generation algorithm of the inspection management center is generally the same as the photo anti-counterfeiting feature code generation algorithm of the terminal, so that the image anti-counterfeiting feature codes generated by the two parties based on the same inspection sign-in site element information are identical.

In this embodiment, the inspection management center checks whether the address where the inspection user performs inspection point check-in is the address where the inspection point is disposed according to the inspection check-in information pushed by the terminal, checks whether the inspection point where the inspection user checks-in is in the inspection path where the inspection is currently performed, checks whether the inspection user performs check-in according to the inspection sequence preset for each inspection point in the inspection path, and checks whether the photo shot by the inspection user is modified, thereby ensuring the authenticity and order of the inspection service in the inspection check-in system.

In one embodiment, referring to fig. 5 and fig. 10, in response to the patrol completion command of the patrol path, the step of generating a patrol node path map acting on the current patrol path includes:

step S131, responding to a patrol completion instruction of the current terminal on the current patrol path, and acquiring patrol point interaction registration information contained in a plurality of patrol registration information on the current patrol path:

when the patrol user at the terminal completes the patrol check-in of all the patrol points in the patrol path or actively finishes the patrol of the patrol path, triggering a patrol completion instruction acting on the patrol path.

And the terminal responds to the patrol completion instruction acting on the current patrol path of the patrol user to acquire patrol point interaction sign-in information contained in patrol point sign-in information of all patrol points in the patrol path.

Step S132, based on the patrol point identity code and the patrol point address contained in the patrol point interaction sign-in information, generating a patrol node path diagram which is provided with a map image and characterizes the patrol points corresponding to the patrol point interaction sign-in information by the patrol nodes:

referring to fig. 5, a schematic diagram shown in fig. 5 is a routing diagram of a routing node generated by a terminal according to a routing point identity code and a routing point address included in routing point interaction sign-in information of each routing point in a routing path, a "routing node a" shown in fig. 5 is a routing node generated for the "routing point a" according to the routing identity code, and a location of the "routing node a" in a map image is a location determined by positioning according to the routing point address corresponding to the "routing point a", and other "routing node B", "routing node C", "routing node D", "routing node E" and "routing node F" are also generated and positioned according to the routing point interaction sign-in information corresponding to each other.

Step S133, drawing a patrol node path connecting each patrol node in the patrol node path diagram according to the terminal positioning mobile data of the current terminal acting on the current patrol path:

the terminal positioning data are used for representing the movement data of each patrol point of a patrol user of the terminal in a patrol path, and the terminal positioning movement data are generally generated by monitoring positioning data corresponding to a patrol sign-in activity of the terminal in the patrol path through a Global Positioning System (GPS).

Referring to fig. 5, a terminal generates a patrol node path for connecting patrol nodes in each patrol node path diagram according to the terminal positioning mobile data, and the connection path between each of the patrol nodes is a patrol node path generated according to the terminal positioning mobile data of the terminal acting on the patrol path, as shown in "patrol node a", "patrol node B", "patrol node C", "patrol node D", "patrol node E" and "patrol node F" in the patrol node path diagram shown in fig. 5.

In this embodiment, by generating a patrol node path diagram representing a patrol point where a patrol user has checked in a patrol path, and the patrol node path diagram represents a movement track of the patrol user in the patrol path, a patrol operation condition of the patrol user is visually displayed.

In one embodiment, referring to fig. 5, fig. 6 and fig. 11, in response to an editing completion event acting on the patrol node path diagram, the step of pushing the patrol node path diagram to a patrol management center for patrol path verification includes:

step S141, in response to an on-site photograph editing event acting on a patrol point in the patrol node path diagram, determining a target patrol node of the on-site photograph editing event, outputting a patrol point description photograph corresponding to the on-site photograph editing event to a target patrol node in the patrol node path diagram for display, and packaging the patrol point description photograph into patrol sign-in on-site element information corresponding to the target patrol node:

referring to fig. 5, after the terminal generates the inspection node path diagram, the inspection user at the terminal may call out an editing control at the inspection node by clicking the inspection node in the inspection node path diagram, for example, when the inspection user clicks "inspection node a" shown in the inspection node path diagram shown in fig. 5, the position of the "inspection node a" will be changed to "inspection node a"601 as shown in fig. 6, and the editing control providing the photo editing function, the text description editing function and the voice description editing function is displayed at the "inspection node a" 601.

Referring to fig. 6, a patrol user may edit a patrol node selected by clicking it in a patrol node path diagram through a photograph editing function, by packaging a patrol point description photograph which is selected from a local storage as the patrol node into preset information of a patrol check-in site thereof, and outputting the patrol point description photograph to the patrol node for display, as shown in fig. 6, at a 'patrol node a' 602.

Step S142, in response to a patrol point text description editing event acting on the patrol node path diagram, determining a target patrol node of the patrol point text description editing event, outputting a patrol point description text corresponding to the patrol point text description editing event to a target patrol node in the patrol node path diagram for display, and packaging the patrol point description text to patrol sign-in field element information corresponding to the target patrol node:

referring to fig. 5 and 6, when the patrol user uses the text description editing function corresponding to text editing, a corresponding patrol point description text may be output and displayed at a "query node a" in the patrol node path diagram shown in fig. 5, and the "query node a" of the edited text will be shown as a "patrol node a"603 shown in fig. 6, and a patrol point description text edited by the patrol user through the text description editing function is displayed at the "patrol node a"603 shown.

Step S143, in response to a patrol point voice description editing event acting on the patrol node path diagram, determining a target patrol node of the patrol point text description editing event, obtaining patrol point description voice corresponding to the patrol point voice description editing event, displaying a voice playing control acting on the patrol point description voice at the target patrol node in the patrol node path diagram, and packaging the patrol point description voice into patrol check-in field element information corresponding to the target patrol node:

referring to fig. 5 and 6, when the patrol user edits the corresponding voice description editing function using voice, a control for playing the patrol point description voice may be output and displayed at a "query node a" in the patrol node path diagram shown in fig. 5, and the "query node a" of the edited voice will be shown as a "patrol node a"604 shown in fig. 6, and the "patrol node a"604 shown shows the patrol point description voice recorded by the patrol user through the voice description editing function.

In this embodiment, an edit function for editing each inspection node in the inspection node path diagram is provided for the inspection user, so that the inspection user can add photos, texts and voices for describing the field situation of the inspection point to the inspection node, and further record the field situation of the inspection point in the inspection path.

In one embodiment, referring to fig. 12, after the step of pushing the patrol node path diagram to the patrol management center for patrol path verification in response to the edit completion event acting on the patrol node path diagram, the method includes:

step S15, receiving a patrol node path diagram pushed by a terminal, and acquiring a patrol path table acting on the patrol node path diagram:

and the patrol management center receives the patrol node path diagram pushed by the terminal, and determines a patrol path corresponding to the patrol node path diagram so as to acquire a patrol path table corresponding to the patrol path.

Step S16, detecting whether all the patrol node patrol point identity codes stored in the patrol node path diagram correspond to patrol nodes, if not, determining patrol point identity codes which do not exist in the patrol path diagram in the patrol node path diagram, and pushing notification indicating that patrol points of all the patrol point identity codes do not patrol to the terminal:

after the patrol management center acquires the patrol path table corresponding to the patrol node path diagram, whether the patrol node identity codes in the patrol path table exist in the patrol node path diagram or not is traversed, namely, whether all the patrol points in the traversed patrol path have corresponding patrol nodes in the patrol node path diagram, if the patrol point identity codes which do not exist in the traversed patrol node path diagram are traversed, a notification representing the patrol points which do not patrol the patrol point identity codes is pushed to the terminal.

Step S17, determining a patrol node with patrol point editing information in the patrol node path diagram, acquiring patrol point editing information in patrol sign-in field element information corresponding to the patrol node, mapping and storing the patrol point editing information to a corresponding patrol point identity code in a patrol path table, wherein the patrol point editing information comprises a patrol point description photo, a patrol point description text or a patrol point description voice:

after the patrol management center receives the patrol node path diagram of the terminal, the patrol management center can map and store the editing information of each patrol node in the patrol node path diagram to the corresponding patrol point identity code in the patrol path table, and takes the patrol path table storing the editing information as a corresponding custom-edited patrol path table of a patrol user of the terminal.

Step S18, responding to a patrol path query instruction pushed by a management end, and acquiring a corresponding patrol node path diagram, a patrol path table or patrol sign information to push to the management end according to a target patrol user, a target patrol path or target patrol time corresponding to the query path query instruction:

the management user of the inspection signing system can inquire corresponding inspection node path diagrams, inspection path tables or a plurality of inspection signing information from the inspection management center by taking the inspection user, the inspection path or the inspection time as a unit, after the management user edits corresponding inspection path inquiry instructions at the management end and pushes the inspection node path diagrams, the inspection path tables or the inspection signing information to the inspection management center, the inspection management center pushes the inspection node path diagrams, the inspection path tables or the inspection signing information which are designated by the inquiry inspection path inquiry instructions to the management end.

In this embodiment, after receiving the inspection node path diagram pushed by the terminal, the inspection management center detects whether all inspection nodes of all preset inspection points in the inspection path exist in the inspection node path diagram, so as to detect whether all inspection points in the inspection path have been inspected by the inspection user, and stores the inspection node path diagram pushed by the terminal of the inspection user, the inspection path table storing editing information and the inspection signing information, so that the management user of the inspection signing system can inquire and acquire, and manage the inspection signing condition in the inspection signing system.

Further, by performing the functionalization of each step in the method disclosed in the foregoing embodiments, a patrol route check-in device of the present application may be constructed, and according to this concept, please refer to fig. 13, in one exemplary embodiment, the device includes: the inspection interaction module 11 is configured to respond to an inspection point interaction check-in event of an inspection point in an inspection path, and obtain inspection point interaction check-in information corresponding to the inspection point, where the inspection point interaction check-in event includes near field communication interaction check-in or inspection point feature code shooting interaction check-in; the patrol checking-in module 12 is configured to generate patrol checking-in information including the patrol point interaction checking-in information and patrol checking-in field element information, and push the patrol checking-in information to a patrol management center for patrol checking-in verification; the path generation module 13 is used for responding to the patrol completion instruction of the patrol path and generating a patrol node path diagram acting on the current patrol path; and the path editing module 14 is used for responding to the editing completion event acted on the inspection node path diagram and pushing the inspection node path diagram to an inspection management center for inspection path verification.

In one embodiment, the patrol interaction module 11 includes: the near field communication interaction sub-module is used for responding to a near field communication interaction event between the current terminal and the current inspection point equipment, acquiring inspection point identity codes and inspection point addresses of the current inspection point equipment, and packaging the inspection point identity codes and the inspection point addresses into inspection point interaction sign-in information; the feature code is linked with the patrol point feature code obtained by shooting the patrol point feature code of the current patrol point through the shooting unit in the current terminal, and the patrol point identity code and the patrol point address of the current patrol point equipment are obtained and packaged into patrol point interaction sign-in information.

In another embodiment, the patrol interaction module 11 further includes: the shooting photo acquisition sub-module is used for acquiring a patrol point feature code photo shot by the shooting unit in the current terminal, wherein the patrol point feature code photo is provided with an image of a patrol point feature code representing the current patrol point; the watermark synthesis submodule is used for generating watermark images representing inspection check-in site element information acting on a current inspection point and inspection point interaction check-in information, synthesizing the watermark images into the inspection point feature code photos, wherein the inspection check-in site element information comprises inspection path check-in time, interaction check-in addresses or inspection path check-in user names; and the anti-fake code packaging sub-module is used for generating a photo anti-fake feature code based on the inspection check-in site element information, storing the photo anti-fake feature code into photo additional information of the inspection point feature code photo, and taking the inspection point feature code photo as inspection point interaction check-in information.

In one embodiment, the patrol module 12 includes: the inspection address checking sub-module is used for receiving inspection signing information pushed by a terminal, acquiring inspection point addresses contained in inspection point interaction signing information in the inspection signing information, acquiring interaction signing addresses contained in inspection signing field element information in the inspection signing information, judging whether the interaction signing addresses are the inspection point addresses, and if yes, checking by the terminal through the inspection signing; the inquiry point identity code checking module is used for acquiring a patrol path table corresponding to a patrol user of the terminal, detecting whether a patrol point identity code contained in the patrol point interaction sign-in information is in the patrol path table, and if not, pushing a notice indicating that a patrol point corresponding to the patrol point interaction sign-in information is not in a patrol path to the terminal; the inspection point sequence checking sub-module is used for determining the check-in times of the current inspection path acted on the inspection check-in information by the terminal, acquiring the inspection point sequence stored by the inspection point identity code in a mapping manner in the inspection path table, judging whether the inspection check-in times are the inspection point sequence, and if not, pushing a notification representing sequential inspection of the inspection points to the terminal; and the photo anti-counterfeiting code verification sub-module is used for acquiring the photo anti-counterfeiting feature code contained in the photo additional information of the inspection point feature code photo when the inspection point interaction check-in information contains the inspection point feature code photo, generating a verification photo anti-counterfeiting feature code according to the inspection check-in field element information, judging whether the verification photo anti-counterfeiting feature code is identical to the photo anti-counterfeiting feature code, and if yes, enabling the terminal to pass inspection check-in.

In one embodiment, the path generation module 13 includes: the patrol completion response sub-module is used for responding to a patrol completion instruction of the current terminal on the current patrol path and acquiring patrol point interaction sign-in information contained in a plurality of patrol sign-in information on the current patrol path; the patrol node generation sub-module is used for generating a patrol node path diagram which is provided with a map image and characterizes patrol points corresponding to the patrol point interaction sign-in information by using the patrol nodes based on the patrol point identity codes and the patrol point addresses contained in the patrol point interaction sign-in information; and the patrol path generation sub-module is used for drawing patrol node paths connected with all the patrol nodes in the patrol node path diagram according to the terminal positioning mobile data of the current terminal acting on the current patrol path.

In one embodiment, the path editing module 14 includes: the photo editing sub-module is used for responding to a patrol point scene photo editing event acted on the patrol node path diagram, determining a target patrol node of the scene point photo editing event, outputting a patrol point description photo corresponding to the patrol point scene photo editing event to a target patrol node in the patrol node path diagram for display, and packaging the patrol point description photo into patrol sign-in scene element information corresponding to the target patrol node; the text editing sub-module is used for responding to a patrol point text description editing event acted on the patrol node path diagram, determining a target patrol node of the patrol point text description editing event, outputting a patrol point description text corresponding to the patrol point text description editing event to a target patrol node in the patrol node path diagram for display, and packaging the patrol point description text into patrol sign-in field element information corresponding to the target patrol node; the voice editing sub-module is used for responding to a patrol point voice description editing event in the patrol node path diagram, determining a target patrol node of the patrol point text description editing event, acquiring patrol point description voice corresponding to the patrol point voice description editing event, displaying a voice playing control for the patrol point description voice at the target patrol node in the patrol node path diagram, and packaging the patrol point description voice into patrol check-in field element information corresponding to the target patrol node.

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 inspection path check-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 when the computer readable instructions are executed by a processor, the processor can realize a check-in method of a patrol path. 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 patrol path 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 inspection path check-in device of 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 patrol route 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 patrol path 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 any of the patrol path check-in methods 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 present application provides a novel online network inspection system, which reports inspection check-in data in real time and has an inspection path capable of being edited in a self-defined manner to report inspection conditions, thereby improving user inspection efficiency and inspection authenticity.

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 inspection path sign-in method is characterized by comprising the following steps of:

responding to a patrol point interaction check-in event of a patrol point in a patrol path, and acquiring patrol point interaction check-in information corresponding to the patrol point, wherein the patrol point interaction check-in event comprises near field communication interaction check-in or patrol point feature code shooting interaction check-in;

generating patrol sign-in information comprising the patrol point interaction sign-in information and the patrol sign-in field element information, pushing the patrol sign-in information to a patrol management center for patrol sign-in verification;

responding to the patrol completion instruction of the patrol path, and generating a patrol node path diagram acting on the current patrol path;

and responding to the editing completion event acted on the patrol node path diagram, pushing the patrol node path diagram to a patrol management center for patrol path verification.

2. The method according to claim 1, wherein, in response to a patrol point interaction check-in event of a patrol point in a patrol path, acquiring patrol point interaction check-in information corresponding to the patrol point, the patrol point interaction check-in event includes a near field communication interaction check-in or a patrol point feature code shooting interaction check-in, including:

Responding to a near field communication interaction event between the current terminal and the current patrol point equipment, and acquiring patrol point identity codes and patrol point addresses of the current patrol point equipment to be packaged into patrol point interaction sign-in information;

and acquiring the patrol point identity code and the patrol point address of the current patrol point equipment to package the patrol point interaction sign-in information through the patrol point feature code link acquired by the patrol point feature code of the current patrol point shot by the shooting unit in the current terminal.

3. The method according to claim 1, wherein, in response to a patrol point interaction check-in event of a patrol point in a patrol path, acquiring patrol point interaction check-in information corresponding to the patrol point, the patrol point interaction check-in event includes a near field communication interaction check-in or a patrol point feature code shooting interaction check-in, including:

acquiring a patrol point feature code photo shot by a shooting unit in a current terminal, wherein the patrol point feature code photo is provided with an image of a patrol point feature code representing a current patrol point;

generating watermark images representing inspection sign-in site element information acting on a current inspection point and inspection point interaction sign-in information, and synthesizing the watermark images into the inspection point feature code photos, wherein the inspection sign-in site element information comprises inspection path sign-in time, interaction sign-in addresses or inspection path sign-in user names;

Generating a photo anti-counterfeiting feature code based on the inspection signing-in site element information, storing the photo anti-counterfeiting feature code into photo additional information of the inspection point feature code photo, and taking the inspection point feature code photo as inspection point interaction signing-in information.

4. The method of claim 1, wherein generating the patrol check-in information including the patrol point interaction check-in information and the patrol check-in field element information, pushing the patrol check-in information to a patrol management center for patrol check-in verification, comprises:

receiving patrol information pushed by a terminal, acquiring a patrol point address contained in patrol point interaction information in the patrol information, acquiring an interaction sign-in address contained in patrol field element information in the patrol information, judging whether the interaction sign-in address is the patrol point address, and if yes, checking by the terminal through the patrol sign-in;

acquiring a patrol path table corresponding to a patrol user of the terminal, detecting whether a patrol point identity code contained in the patrol point interaction sign-in information is in the patrol path table, and if not, pushing a notification representing that a patrol point corresponding to the patrol point interaction sign-in information is not in a patrol path to the terminal;

Determining the check-in times of the terminal acting on the current inspection path of the inspection check-in information, acquiring the inspection point sequence of the inspection point identity codes mapped and stored in the inspection path table, judging whether the check-in times are the inspection point sequence, if not, pushing a notification representing sequential inspection of the inspection points to the terminal;

when the inspection point interaction sign-in information has the inspection point feature code photo, acquiring a photo anti-counterfeiting feature code contained in the photo additional information of the inspection point feature code photo, generating a check photo anti-counterfeiting feature code according to the inspection sign-in field element information, judging whether the check photo anti-counterfeiting feature code is identical to the photo anti-counterfeiting feature code, and if yes, checking by the terminal through inspection sign-in.

5. The method of claim 1, wherein the step of generating a patrol node path map for the current patrol path in response to the patrol completion command for the patrol path comprises:

responding to a patrol completion instruction of the current terminal acting on the current patrol path, and acquiring patrol point interaction sign-in information contained in a plurality of patrol sign-in information acting on the current patrol path;

Based on the patrol point identity codes and the patrol point addresses contained in the patrol point interaction sign-in information, generating a patrol node path diagram which is provided with map images and characterizes patrol points corresponding to the patrol point interaction sign-in information by using the patrol nodes;

and drawing a patrol node path connecting each patrol node in the patrol node path diagram according to the terminal positioning mobile data of the current terminal acting on the current patrol path.

6. The method of claim 1, wherein pushing the patrol node path graph to a patrol management center for patrol path verification in response to an edit completion event acting on the patrol node path graph, comprises:

responding to a patrol point on-site photo editing event acted on the patrol node path diagram, determining a target patrol node of the on-site photo editing event, outputting a patrol point description photo corresponding to the patrol point on-site photo editing event to a target patrol node in the patrol node path diagram for display, and packaging the patrol point description photo into patrol sign on-site element information corresponding to the target patrol node;

responding to a patrol point text description editing event acted on the patrol node path diagram, determining a target patrol node of the patrol point text description editing event, outputting a patrol point description text corresponding to the patrol point text description editing event to a target patrol node in the patrol node path diagram for display, and packaging the patrol point description text into patrol sign-in field element information corresponding to the target patrol node;

Responding to a patrol point voice description editing event acted on the patrol node path diagram, determining a target patrol node of the patrol point text description editing event, acquiring patrol point description voice corresponding to the patrol point voice description editing event, displaying a voice playing control acted on the patrol point description voice at the target patrol node in the patrol node path diagram, and packaging the patrol point description voice into patrol sign-in field element information corresponding to the target patrol node.

7. The method of claim 1, wherein the step of pushing the patrol node path graph to a patrol management center for patrol path verification in response to an edit completion event acting on the patrol node path graph comprises:

receiving a patrol node path diagram pushed by a terminal, and acquiring a patrol path table acting on the patrol node path diagram;

detecting whether all the patrol node patrol point identity codes stored in the patrol node path diagram correspond to patrol nodes or not, if not, determining the patrol point identity codes which do not exist in the patrol path diagram in the patrol node path diagram, and pushing notification indicating that patrol points of all the patrol point identity codes do not carry out patrol to the terminal;

Determining a patrol node with patrol point editing information in the patrol node path diagram, acquiring patrol point editing information in patrol sign-in field element information corresponding to the patrol node, mapping and storing the patrol point editing information to a corresponding patrol point identity code in a patrol path table, wherein the patrol point editing information comprises a patrol point description photo, a patrol point description text or a patrol point description voice;

responding to a patrol path query instruction pushed by a management end, and acquiring a corresponding patrol node path diagram, a patrol path table or patrol sign-in information to push to the management end according to a target patrol user, a target patrol path or target patrol time corresponding to the query path query instruction.

8. A patrol route check-in device, comprising:

the inspection interaction module is used for responding to an inspection point interaction sign-in event of an inspection point in an inspection path, acquiring inspection point interaction sign-in information corresponding to the inspection point, wherein the inspection point interaction sign-in event comprises near field communication interaction sign-in or inspection point feature code shooting interaction sign-in;

the patrol checking-in module is used for generating patrol checking-in information comprising the patrol point interaction checking-in information and the patrol checking-in field element information, and pushing the patrol checking-in information to a patrol management center for patrol checking-in verification;

The path generation module is used for responding to the patrol completion instruction of the patrol path and generating a patrol node path diagram acting on the current patrol path;

and the path editing module is used for responding to an editing completion event acted on the inspection node path diagram, and pushing the inspection node path diagram to an inspection management center for inspection path verification.

9. A patrol route check-in device comprising a central processor and a memory, characterized in that the central processor is adapted to invoke execution of a computer program stored in the memory to perform 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.