CN117037319A - Public facility inspection method and system, cloud server and storage medium - Google Patents

Abstract

The application provides a public facility inspection method and system, a cloud server and a storage medium, wherein the public facility inspection method comprises the following steps: acquiring a patrol request (patrol period, number of public facilities to be patrol and identification of each public facility to be patrol); extracting the position information of each public facility to be patrolled and examined from a preset position information base according to the identification of each public facility to be patrolled and examined; generating an optimal inspection route containing all public facilities to be inspected according to the position information of each public facility to be inspected; and generating a corresponding inspection scheme according to the optimal inspection route and the inspection period, and sending the inspection scheme to an inspection terminal held by an inspector so that the inspector can finish inspection of the corresponding public facilities to be inspected in the inspection period according to the optimal inspection route. Based on the method, the inspection scheme is not required to be manually and temporarily formulated, so that the inspection efficiency of public facilities can be improved, and the loss of manpower, material resources and financial resources can be reduced.

Description

Public facility inspection method and system, cloud server and storage medium

Technical Field

The application relates to the technical field of public facility inspection, in particular to a public facility inspection method and system, a cloud server and a storage medium.

Background

A public facility refers to a public building or facility that is used or enjoyed by the public and is typically provided by government or other social organizations and involves many areas of education, medical care, cultural entertainment, transportation, sports, etc., with the medical care being taken as an example, an AED (Automated External Defibrillator ) is one of the public facilities that can provide shock therapy to a patient suffering from sudden cardiac arrest in a timely manner, thereby saving the patient's life.

In the related art, public facilities are usually deployed in places with large people flow, such as railway stations, subway stations, airports, schools, stadiums, supermarkets, parks, etc., and in order to ensure the use safety of the public facilities, the public facilities need to be checked periodically by manpower, which is simply called patrol. However, the existing public facility inspection method is to make an inspection scheme temporarily by manpower, so that a large amount of manpower, material resources and financial resources are consumed, the efficiency is low, and the long-period inspection requirement of a large amount of public facilities cannot be met.

Therefore, there is a need for improvements in the above-described method of patrolling of public facilities.

Disclosure of Invention

The application provides a public facility inspection method and system, a cloud server and a storage medium, and aims to solve the problem of low inspection efficiency of public facilities in related technologies.

In order to solve the above technical problems in the related art, a first aspect of the present application provides a method for inspecting public facilities, where the method includes: acquiring a patrol request, wherein the patrol request comprises a patrol period, the number of public facilities to be patrol and the identification of each public facility to be patrol; extracting the position information of each public facility to be patrolled and examined from a preset position information base according to the identification of each public facility to be patrolled and examined; generating an optimal inspection route containing all public facilities to be inspected according to the position information of each public facility to be inspected; and generating a corresponding inspection scheme according to the optimal inspection route and the inspection period, and sending the inspection scheme to an inspection terminal held by an inspector so that the inspector can finish inspection of the corresponding public facilities to be inspected in the inspection period according to the optimal inspection route.

The second aspect of the embodiment of the application provides a public facility inspection system, which comprises a management terminal, a cloud server and an inspection terminal. The management terminal is used for sending a patrol request, and the patrol request comprises a patrol period, the number of public facilities to be patrol and the identification of each public facility to be patrol. The cloud server is used for: extracting the position information of each public facility to be patrolled and examined from a preset position information base according to the identification of each public facility to be patrolled and examined; generating an optimal inspection route containing all public facilities to be inspected according to the position information of each public facility to be inspected; and generating a corresponding inspection scheme according to the optimal inspection route and the inspection period, and sending the inspection scheme to an inspection terminal held by an inspector. The inspection terminal is used for receiving an inspection scheme so that an inspector can finish inspection of corresponding public facilities to be inspected in an inspection period according to the optimal inspection route.

A third aspect of the embodiment of the present application provides a cloud server, where the cloud server includes a storage module and a processing module, the storage module is configured to store at least one section of computer instructions, and the processing module is configured to call the at least one section of computer instructions to implement the method for inspecting public facilities according to the first aspect of the embodiment of the present application.

A fourth aspect of the embodiments of the present application provides a computer readable storage medium having stored thereon at least one piece of computer instructions for being invoked by a processing module to implement the method of utility inspection as mentioned in the first aspect of the embodiments of the present application.

Through the implementation of the embodiment of the application, an administrator can send a patrol request to the cloud server through the management terminal held by the administrator, so as to inform the cloud server of the patrol period, the number of public facilities to be patrol and the identification of each public facility to be patrol; the cloud server can extract the position information of each public facility to be inspected from a preset position information base according to the identification of each public facility to be inspected, can generate an optimal inspection route containing all public facilities to be inspected according to the position information of each public facility to be inspected, and generates a corresponding inspection scheme according to the optimal inspection route and the inspection period, and sends the inspection scheme to an inspection terminal held by an inspector; and finally, the inspector can complete inspection of the corresponding public facilities to be inspected in the inspection period according to the optimal inspection route. Therefore, the method and the system are implemented by software from sending the inspection request to generating the inspection scheme, namely, compared with the related technology, the method and the system do not need to manually and temporarily make the inspection scheme any more, so that the inspection efficiency of public facilities can be improved, the loss of manpower, material resources and financial resources can be reduced, and the long-period inspection requirements of a large number of public facilities can be well met.

Drawings

In order to more clearly illustrate the technical solutions of the related art or embodiments of the present application, the drawings that are required to be used in the description of the related art or embodiments of the present application will be briefly described below, and it is apparent that the drawings in the following description are only some embodiments of the present application, but not all embodiments, and that other drawings may be obtained according to these drawings without inventive effort to a person of ordinary skill in the art.

FIG. 1 is a block diagram of a utility inspection system according to an embodiment of the present application;

fig. 2 is a block diagram of a cloud server according to an embodiment of the present application;

fig. 3 is a schematic flow chart of a method for inspecting public facilities according to an embodiment of the present application;

fig. 4 is a schematic diagram of a first flow of S304 in fig. 3 according to an embodiment of the present application;

FIG. 5 is an exemplary diagram of an optimal routing path provided by an embodiment of the present application;

FIG. 6 is a second flowchart of S304 in FIG. 3 according to an embodiment of the present application;

fig. 7 is a third flowchart of S304 in fig. 3 according to an embodiment of the present application;

fig. 8 is a schematic diagram of dividing an optimal inspection route according to an embodiment of the present application;

Fig. 9 is a block diagram of a computer readable storage medium according to an embodiment of the present application.

Detailed Description

In order to make the objects, technical solutions and advantages of the present application more obvious and understandable, the present application will be clearly and completely described below with reference to the embodiments of the present application and the corresponding drawings, wherein the same or similar reference numerals denote the same or similar elements or elements having the same or similar functions throughout. It should be understood that the following embodiments of the present application are only for explaining the present application and are not intended to limit the present application, that is, all other embodiments obtained by persons skilled in the art without making any inventive effort based on the embodiments of the present application are within the scope of protection of the present application. Furthermore, the technical features referred to in the embodiments of the present application described below may be combined with each other as long as they do not make a conflict with each other.

In the related art, the public facility inspection method is to make an inspection scheme temporarily by manpower, so that a large amount of manpower, material resources and financial resources are consumed, the efficiency is low, and the long-period inspection requirement of a large amount of public facilities cannot be met. Therefore, the embodiment of the application provides a public facility inspection system and a public facility inspection method under the public facility inspection system, and the public facility inspection method is one or more sections of computer instructions in practice. The public facility refers to public buildings or equipment used or enjoyed by the public, and relates to various fields of education, medical treatment and health, cultural entertainment, traffic, sports and the like, such as street lamps, signs, billboards on roads, fire-fighting equipment in personnel-intensive places, body-building equipment in parks and the like, which belong to one of the public facilities.

Fig. 1 shows an architecture diagram of a utility patrol system, in some embodiments, the utility patrol system 100 includes a management terminal 110, a cloud server 120, and a patrol terminal 130, where the management terminal 110 is a terminal used by administrators, each administrator is responsible for managing several utilities in a designated area, the patrol terminal 130 is a terminal held by the inspector, each inspector is responsible for patrol of the utilities, the number of the utilities and the area where the utilities are located for each patrol are uncertain, and this is determined by a patrol scheme issued by the cloud server 120 to the patrol terminal 130, that is, after the patrol terminal 130 receives a patrol scheme issued by the cloud server 120, the inspector will patrol the corresponding number of the utilities in the corresponding area according to the patrol scheme. It should be noted that, the patrol terminal 130 emphasizes portability, that is, is convenient for a patrol operator to carry about in the patrol process of public facilities, such as a mobile phone, a tablet computer, an intelligent wearable device, etc., while the management terminal 110 may not emphasize portability, and may be the above-mentioned portable terminal or a desktop computer equipped in a management center, where an administrator may implement management of a plurality of public facilities in a designated area through the desktop computer.

In an embodiment of the present application, an administrator may send, through the management terminal 110, a routing inspection request to the cloud server 120, where the routing inspection request includes at least a routing inspection period, a number of public facilities to be inspected, and an identifier of each public facility to be inspected, where the routing inspection period indicates how many days/hour the administrator requires routing inspection to complete the public facilities to be inspected. The cloud server 120 may extract the location information of each public facility to be inspected from a preset location information base according to the identifier of each public facility to be inspected in the inspection request, and may generate an optimal inspection route including all public facilities to be inspected according to the location information of each public facility to be inspected, generate a corresponding inspection scheme according to the optimal inspection route and the inspection period, and send the inspection scheme to the inspection terminal 130 held by the inspector. After the inspection terminal 130 receives the inspection scheme, the inspector can complete inspection of the corresponding public facilities to be inspected within the inspection period according to the optimal inspection route in the inspection scheme.

In the embodiment of the present application, a location information base is preset in the cloud server 120, where the location information base is specially used to store the correspondence between the location information of each public facility and the identifier thereof, and taking the AED as an example, whether the AED is an original AED or a newly added AED, each AED can perform self-checking every day at regular time, so that the current location information (such as longitude and latitude) and/or other self-checking data are packaged into data packets and then uploaded to the cloud server 120, the data packets uploaded to the cloud server 120 carry the identifier of the corresponding AED, and after receiving the data packets uploaded by the AED, the cloud server 120 analyzes the received data packets to convert the format of the data in the data packets into a data format capable of being stored, and then can store the corresponding location information in the location information base, so as to update the location information base, thereby ensuring the accuracy of the location information in the location information base.

As an embodiment, fig. 2 shows a block diagram of a cloud server 120, where the cloud server 120 includes a storage module 121 and a processing module 122, and at least one section of computer instructions is stored in the storage module 121, where the at least one section of computer instructions is actually a public facility inspection method provided by an embodiment of the present application, that is, the processing module 122 may call at least one section of computer instructions stored in the storage module 121 to implement the public facility inspection method. In addition, it should be noted that, the cloud server 120 may further include other structures, such as a bus 123 for implementing a communication connection between the storage module 121 and the processing module 122, besides the storage module 121 and the processing module 122, which are not further illustrated herein.

In some implementations of the present embodiment, the processing module 122 is composed of an integrated circuit, which may be composed of a single packaged integrated circuit, or may be composed of a plurality of integrated circuits packaged with the same function or different functions, including a Central Processing Unit (CPU), a microprocessor, a neural network chip, a digital processing chip, a graphics processor, and a combination of any one or more of various control chips. It may be appreciated that the processing module 122 is a control core of the cloud server 120, and connects various components of the whole cloud server 120 by using various interfaces and lines, and implements various functions and data processing of the cloud server 120 by running or executing computer instructions or modules and calling data, such as implementing a patrol function of a public facility, and particularly implementing a generation and distribution function of a patrol scheme of the public facility.

In some implementations of the present embodiment, the storage module 121 includes at least one type of computer-readable storage medium that may include, but is not limited to, flash memory, a removable hard disk, a multimedia card, card memory (e.g., SD memory, DX memory, etc.), magnetic memory, magnetic disk, and optical disk. In these implementations, the storage module 121 may be an internal storage unit of the cloud server 120 (such as a mobile hard disk of the cloud server 120), or may be an external storage device of the cloud server 120, such as a plug-in mobile hard disk, a Smart Memory Card (SMC), a Secure Digital (SD) card, a flash memory card, etc. that are provided on the cloud server 120, or the storage module 121 is both an internal storage unit and an external storage device of the cloud server 120; further, the storage module 121 may be used not only to store application software installed on the cloud server 120, various data, and computer instructions (such as codes for implementing the generation and distribution functions of the public facility inspection scheme), but also to temporarily store data that has been output or is to be output; in practical applications, the processing module 122 may retrieve and execute the computer instructions stored in the storage module 121, thereby implementing the functions of generating and distributing the public facility inspection scheme.

The above embodiments are only preferred implementations of the application and they are not the only limitations of what may be described; in this regard, those skilled in the art can flexibly set according to the actual application scenario on the basis of the above embodiments. Computer instructions (i.e., utility inspection methods) executed by the processing module 122 in the cloud server 120 will be described in detail below.

Fig. 3 shows a schematic flow chart of a method for inspecting public facilities, and in some embodiments, the method for inspecting public facilities includes the following four steps S301 to S304, and in combination with fig. 1, it is convenient for those skilled in the art to more clearly recognize the method for inspecting public facilities.

S301, acquiring a patrol request.

In these embodiments, when an administrator needs to patrol all/part of the public facilities in the area that the administrator is responsible for, the administrator may send a patrol request to the cloud server 120 through the management terminal 110, where the patrol request includes at least a patrol period, the number of public facilities to be patrol, and the identity of each public facility to be patrol, that is, after the cloud server 120 receives the patrol request from the management terminal 110, the number of public facilities that the administrator wants to patrol, the identity of each public facility, and the patrol period can be known.

S302, extracting the position information of each public facility to be patrolled from a preset position information base according to the identification of each public facility to be patrolled.

In these embodiments, after the cloud server 120 receives the inspection request from the management terminal 110, the location information of each public facility to be inspected may be extracted from the preset location information base according to the identifier of each public facility to be inspected in the inspection request; wherein, the corresponding relation between the position information of each public facility and the identification thereof is stored in the position information base.

S303, generating an optimal inspection route containing all public facilities to be inspected according to the position information of each public facility to be inspected.

In these embodiments, after the cloud server 120 obtains the location information of each public facility to be patrolled, an optimal patrol route including all public facilities to be patrolled may be generated according to the location information of each public facility to be patrolled. As one embodiment, the cloud server 120 may generate an optimal inspection route including all public facilities to be inspected according to the location information of each public facility to be inspected and call a WEB API service of preset map software; the preset map software may include, but is not limited to, a hundred degree map, a high-german map, and a google map. In some implementations of this embodiment, the optimal routing route may be generated according to a route shortest principle, that is, a route that moves from the first to the last utility to be routed is shortest; in other implementations of this embodiment, the optimal routing may be generated on a time-consuming least-principle, i.e., the shortest time to move from the first to the last utility to be surveyed.

S304, generating a corresponding inspection scheme according to the optimal inspection route and the inspection period, and sending the inspection scheme to an inspection terminal held by an inspector so that the inspector can finish inspection of the corresponding public facilities to be inspected in the inspection period according to the optimal inspection route.

In these embodiments, after obtaining the optimal routing paths including all the public facilities to be inspected, the cloud server 120 may generate a corresponding inspection scheme according to the optimal routing paths and the inspection period, and send the inspection scheme to the inspection terminal 130 held by the inspector; the inspection scheme shows that inspection is performed according to an optimal inspection route, and inspection work needs to be completed in an inspection period. Then, after the inspection terminal 130 receives the inspection scheme from the cloud server 120, the inspector can complete the inspection of the corresponding public facility to be inspected within the inspection period according to the optimal inspection route in the inspection scheme. It should be noted that, in general, the inspection period is set by days, so the cloud server 120 may divide the inspection scheme into a plurality of sub-inspection schemes in the process of generating the inspection scheme, so that the plurality of sub-inspection schemes respectively correspond to the plurality of days included in the inspection period one by one, in this case, the cloud server 120 may send all sub-inspection schemes to the inspection terminal 130 held by the inspector at one time, or may also use a form of "one and one day", that is, send the corresponding sub-inspection scheme to the inspection terminal 130 held by the inspector every day in the inspection period, which is designed according to actual requirements.

As one example, the patrol request sent by the management terminal 110 to the cloud server 120 includes the required number of patrol workers in addition to the data listed above. Further, fig. 4 shows a first flow chart of S304 in fig. 3, where S304 specifically includes four steps S3041 to S3044, namely: s3041, randomly extracting a plurality of inspector information from a preset personnel information base according to the required quantity of inspectors; s3042, dividing the optimal patrol route into a plurality of sub-patrol routes randomly according to the number of requirements of the patrol inspectors; s3043, respectively generating a plurality of inspection schemes according to each sub-inspection route and inspection period; s3044, according to a one-to-one distribution principle, randomly sending a plurality of inspection schemes to inspection terminals corresponding to the information of a plurality of inspectors.

In this embodiment, a personnel information base is preset in the cloud server 120, and the personnel information base is used for storing inspector information of each inspector, where the inspector information may include, but is not limited to, name information, age information, contact phone information, usual location information, and serial number of the held inspecting terminal 130 of the inspector. In this embodiment, the routing request sent by the management terminal 110 to the cloud server 120 includes the number of required routing agents, which is equivalent to informing the cloud server 120 how many routing agents are required to complete the routing work, so that in the process of generating and distributing routing schemes, the cloud server 120 can directly randomly extract the routing agents with the same number as the number of required routing agents from the preset personnel information base, then randomly divide the optimal routing path into the sub routing paths with the same number as the number of required routing agents, so as to generate a plurality of routing schemes with the same number as the number of required routing agents according to each sub routing path and routing period respectively, and finally randomly send the routing schemes to the routing terminals 130 corresponding to the routing information according to a one-to-one distribution principle, that is, one routing terminal 130 can only receive one routing scheme, and each routing terminal 130 can perform routing on public facilities on the corresponding sub routing paths according to the corresponding routing scheme.

For example, fig. 5 shows an example diagram of an optimal routing path, where a1 to a12 represent 12 public facilities to be inspected, if the number of required inspectors carried by an inspection request is 3, 3 pieces of inspector information (corresponding inspectors are respectively represented by x, y and z) are randomly extracted from a preset personnel information base, the optimal routing path is divided into 3 sub-routing paths, a1 to a4 are assumed to be a first sub-routing path, a5 to a8 are assumed to be a second sub-routing path, a9 to a12 are assumed to be a third sub-routing path, meanwhile, the first sub-routing path is allocated to x, the second sub-routing path is allocated to y, the third sub-routing path is allocated to z, and then x, y and z respectively inspect the respective sub-routing paths, so that the whole optimal routing path (i.e. a1 to a 12) can be finally implemented.

As another embodiment, referring to the second flowchart of S304 in fig. 3 shown in fig. 6, S304 specifically includes the following steps S3041 to S3045, namely: s3041, determining the required quantity of inspectors based on an experience judgment method according to the inspection period in the inspection request and the quantity of public facilities to be inspected; s3042, randomly extracting a plurality of inspector information from a preset personnel information base according to the required quantity of inspectors; s3043, dividing the optimal patrol route into a plurality of sub-patrol routes randomly according to the number of requirements of the patrol inspectors; s3044, respectively generating a plurality of inspection schemes according to each sub-inspection route and inspection period; s3045, according to a one-to-one distribution principle, randomly sending a plurality of inspection schemes to inspection terminals corresponding to the information of a plurality of inspectors.

It will be appreciated that the difference between this embodiment and the previous embodiment is that: while the patrol request sent by the management terminal 110 to the cloud server 120 in the previous embodiment includes the required number of the patrol workers, the patrol request in the present embodiment does not include the required number of the patrol workers, that is, the required number of the patrol workers is unknown in the present embodiment, which results in that the present embodiment needs to determine the required number of the patrol workers, that is, the present embodiment adds a step of determining the required number of the patrol workers compared with the previous embodiment. Specifically, after receiving the inspection request sent by the management terminal 110, the cloud server 120 of the embodiment needs to determine the required number of inspectors according to the inspection period in the inspection request and the number of public facilities to be inspected, and based on an experience judgment method; in the conventional inspection task, a large amount of history data is present, and the history data includes the number of public facilities and the number of inspectors at each inspection, and the empirical determination method used in the present embodiment is performed according to the history data. In addition, it should be noted that, for the inexhaustible points in the description of the present embodiment, reference should be made to the description related to the previous embodiment, and the description of the present embodiment is omitted here.

By way of example, three historical data are taken as the basis, assuming that the inspection period of the three historical data is 2 days, the number of public facilities in the first historical data is 12, the number of inspectors is 3, the number of public facilities in the second historical data is 16, the number of inspectors is 4, the number of public facilities in the third historical data is 20, and the number of inspectors is 5, an empirical conclusion can be obtained, namely that each inspector is responsible for inspecting about 4 public facilities, and the number of public facilities inspected every day is 2, and then when the inspection period in the inspection request is 2 days, and the number of public facilities to be inspected is 24, the required number of inspectors can be determined to be 6 empirically.

As yet another embodiment, referring to the third flow chart of S304 in fig. 3 shown in fig. 7, S304 specifically includes the following four steps S3041 to S3044, namely: s3041, extracting inspector information of all inspectors living in a preset distance range of an optimal inspection route from a preset personnel information base, wherein the inspector information comprises living ground information; s3042, dividing the optimal routing inspection route into a plurality of sub-routing inspection routes with the same quantity as the inspector information according to the distance between the usual location address indicated by the usual location information and the public facilities to be inspected on the optimal routing inspection route, so that the distance between the public facilities to be inspected and the corresponding usual location address included in each sub-routing inspection route is within a preset range; s3043, respectively generating a plurality of inspection schemes according to each sub-inspection route and inspection period; s3044, sending the plurality of inspection schemes to the inspection terminals corresponding to the plurality of usual ground information.

The present embodiment is the same as the previous embodiment, that is, the patrol request sent by the management terminal 110 to the cloud server 120 does not include the required number of patrol workers, but the present embodiment adopts an implementation scheme different from the previous embodiment, and may not need to determine the required number of patrol workers. As mentioned above, a personnel information base for storing the information of the inspectors of each inspector is preset in the cloud server 120, and the stored inspector information includes the usual location information, based on this, after obtaining the optimal inspection route including all the public facilities to be inspected, the cloud server 120 of this embodiment may extract the inspector information of all the inspectors that are usually in the preset distance range of the optimal inspection route from the preset personnel information base, then divide the optimal inspection route into a plurality of sub-inspection routes equal to the number of the inspector information according to the distance between the usual location information in each inspector information and each of the public facilities to be inspected on the optimal inspection route, and the division basis is that the distance between each of the public facilities to be inspected and the corresponding usual location included in each sub-inspection route is within the preset range, and then generate a plurality of inspection schemes corresponding to the number of the inspection terminals according to the number of the inspection schemes of each of the sub-inspection routes and the inspection cycle, and the number of the inspection schemes corresponding to the number of the inspection terminals 130.

By way of example, fig. 8 shows a schematic diagram of the division of the optimal inspection route, assuming that the inspector information extracted from the personnel information base includes 3, i.e., three inspectors always stay within the preset distance range of the optimal inspection route, denoted by u, v, w, respectively, while r is taken as the preset range, in fig. 8, since the distance between each of a1 to a4 and u is smaller than r, i.e., a1 to a4 are all within the circle range with u as the center of a circle and r as the radius, a1 to a4 constitute the first sub-inspection route, a6 to a9 constitute the second sub-inspection route, and a10 to a12 constitute the third sub-inspection route, in which case the first sub-inspection route corresponds to u, which is to be assigned to u, the second sub-inspection route corresponds to v, which is to be assigned to v, and the third sub-inspection route corresponds to w, which is to w.

Of course, as can be seen from fig. 8, the public facilities to be inspected on the optimal inspection route cannot all form a sub-inspection route with other public facilities to be inspected, for example, a5 in fig. 8, the distance between a5 and u is greater than r, and the distance between a5 and v is also greater than r, so a5 exists alone and cannot form a sub-inspection route with other public facilities to be inspected. In this embodiment, if the optimal inspection route includes public facilities to be inspected which do not belong to any sub-inspection route, the public facilities to be inspected which do not belong to any sub-inspection route are allocated to the sub-inspection route corresponding to the nearest public facility to be inspected; taking a5 in fig. 8 as an example, although a5 fails to form a sub-inspection route with other public facilities to be inspected, the distance between a5 and a4 is smaller than the distance between a6 and a5, so this embodiment assigns a5 to the sub-inspection route corresponding to a4 closest to a4, i.e. the first sub-inspection route is not formed by a1 to a4 but is formed by a1 to a 5.

Based on the above description of the three embodiments, they all divide the optimal inspection route into several sub-inspection routes, and for this, the number of public facilities to be inspected included in each sub-inspection route needs to be considered. In some implementations, the number of public facilities to be inspected included in each sub-inspection route may be adjusted based on an average allocation principle, so that the number of public facilities to be inspected included in any two sub-inspection routes is equal to or different from a preset value. In other implementations, the number range of the single-day patrol public facilities of the inspector indicated by each inspector information can be obtained, and then the number of the public facilities to be patrol included in each sub-patrol route is adjusted according to the number range of the single-day patrol public facilities of the inspector indicated by each inspector information; it can be understood that the capability of the inspection by different inspectors is different, that is, the number of the public facilities capable of being inspected in a single day is different, and the number of the public facilities capable of being inspected in a single day by some inspectors may be 2 to 3 times that of other inspectors, so that the number of public facilities to be inspected included in each sub-inspection route can be adjusted according to the range of the number of the public facilities capable of being inspected in a single day by each inspector, and then each sub-inspection route after adjustment is correspondingly allocated to each inspector.

In an embodiment of the present application, the inspection scheme includes an inspection plan and an inspection work order, where the inspection plan refers to an inspection scheduled completion time, an inspection path, and each public facility to be inspected in the inspection path, the inspection work order may include, but is not limited to, an inspection list number, an identification of the public facility to be inspected, an inspection type (temporary inspection/periodic inspection), a work order dispatch time, an inspector name, an inspector phone, an inspection time, an inspection result, inspection contents, a contact phone, an inspector phone, a current location confirmation (confirming whether or not the location of the public facility to be inspected is consistent with that recorded in the system), a unit name, and an inspection completion photo.

On the basis, after finishing the inspection of the corresponding public facility to be inspected, the inspector fills in the inspection work orders carried in the inspection scheme to obtain filled-in inspection work orders, and sends the filled-in inspection work orders to the cloud server 120; after receiving the filled inspection work order, the cloud server 120 sends the filled inspection work order to the management terminal 110 used by the administrator; the administrator checks and accepts the filled inspection work orders through the management terminal 110 to obtain checked and accepted inspection work orders, and returns the checked and accepted inspection work orders to the cloud server 120; cloud server 120 determines whether the inspection result indicated by the inspected inspection work order is acceptable; if the inspected inspection work order is qualified, storing the inspected inspection work order; if the inspected inspection work order indicates that the inspection work order is not qualified, a corresponding inspection scheme is regenerated and sent to the inspection terminal 130, so that the corresponding inspector performs secondary inspection according to the regenerated inspection scheme. It should be noted that, the inspection of the filled inspection work order may also be performed in the cloud server 120, that is, the filled inspection work order may not be sent to the management terminal 110 for inspection, and may be inspected by the cloud server 120, and then the inspection result may be sent to the management terminal 110 to inform the administrator. As for acceptance of the filled inspection work order, it may be checked whether the actual inspection completion time in the filled inspection work order is before the predicted time; and/or checking whether the actual inspection path in the filled inspection worksheet is matched with the predicted inspection path, if not, the reason is what; and/or checking whether the inspection result of the filled inspection work order is normal; and/or checking the inspection completion photo, the inspection content and the like in the filled inspection work order; in this regard, the design may be performed according to actual requirements, which are not listed here.

The above embodiments are only preferred implementations of the application and they are not the only limitations of what may be described; in this regard, those skilled in the art can flexibly set according to the actual application scenario on the basis of the above embodiments. By implementing the embodiment, the application is executed by software from sending the inspection request to generating the inspection scheme, namely, compared with the related technology, the application does not need to manually and temporarily make the inspection scheme any more, thereby not only improving the inspection efficiency of public facilities, but also reducing the loss of manpower, material resources and financial resources, and well meeting the long-period inspection requirements of a large number of public facilities.

In addition, since the storage module 121 includes at least one type of computer-readable storage medium, embodiments of the present application provide a computer-readable storage medium, please refer to the block diagram of the computer-readable storage medium shown in fig. 9, and in some embodiments, at least one section of computer instructions 910 is stored on the computer-readable storage medium 900, and the at least one section of computer instructions 910 may implement the method for checking public facilities provided by the embodiments of the present application when called by the processing module 122.

The steps of a method or algorithm described in connection with the embodiments disclosed herein may be embodied directly in hardware, in a software module executed by a processor, or in a combination of the two. The software modules may be disposed in Random Access Memory (RAM), memory, read Only Memory (ROM), electrically programmable ROM, electrically erasable programmable ROM, registers, hard disk, a removable disk, a CD-ROM, or any other form of storage medium known in the art.

In the above embodiments, it may be implemented in whole or in part by software, hardware, firmware, or any combination thereof. When implemented in software, may be implemented in whole or in part in the form of a computer program product. The computer program product includes one or more computer instructions. When the computer program instructions are loaded and executed on a computer, the processes or functions in accordance with the present application are produced in whole or in part. The computer may be a general purpose computer, a special purpose computer, a computer network, or other programmable apparatus. The computer instructions may be stored in a computer-readable storage medium or transmitted from one computer-readable storage medium to another computer-readable storage medium, for example, the computer instructions may be transmitted from one website, computer, server, or data center to another website, computer, server, or data center by a wired (e.g., such as a cable, optical fiber, digital subscriber line), or wireless (e.g., infrared, wireless, microwave, etc.) means. Computer readable storage media can be any available media that can be accessed by a computer or data storage devices, such as servers, data centers, etc., that contain an integration of one or more available media. The usable medium may be a magnetic medium (e.g., floppy Disk, hard Disk, magnetic tape), an optical medium (e.g., DVD), or a semiconductor medium (e.g., solid State Disk), etc.

It should be noted that, in the present disclosure, each embodiment is described in a progressive manner, and each embodiment is mainly described as different from other embodiments, and identical and similar parts between the embodiments are all enough to be referred to each other. For product class embodiments, the description is relatively simple as it is similar to method class embodiments, as relevant points are found in the partial description of method class embodiments.

It should also be noted that in the present disclosure, relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising one … …" does not exclude the presence of other like elements in a process, method, article, or apparatus that comprises the element.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present disclosure. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the application. Thus, the present disclosure is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (13)

1. A method of institutional inspection comprising:

acquiring a patrol request; the inspection request comprises an inspection period, the number of public facilities to be inspected and the identification of each public facility to be inspected;

extracting the position information of each public facility to be patrolled and examined from a preset position information base according to the identification of each public facility to be patrolled and examined;

generating an optimal inspection route containing all public facilities to be inspected according to the position information of each public facility to be inspected;

and generating a corresponding inspection scheme according to the optimal inspection route and the inspection period, and sending the inspection scheme to an inspection terminal held by an inspector so that the inspector can finish inspection of the corresponding public facilities to be inspected in the inspection period according to the optimal inspection route.

2. The utility inspection method of claim 1, wherein the inspection request further includes a required number of inspectors; the generating a corresponding inspection scheme according to the optimal inspection route and the inspection period, and sending the inspection scheme to an inspection terminal held by an inspector, includes:

randomly extracting a plurality of inspector information from a preset personnel information base according to the required quantity;

according to the required quantity, randomly dividing the optimal routing inspection route into a plurality of sub routing inspection routes;

generating a plurality of inspection schemes according to each sub inspection route and the inspection period;

and randomly transmitting the plurality of inspection schemes to the inspection terminals corresponding to the plurality of inspector information according to a one-to-one distribution principle.

3. The utility inspection method of claim 1, wherein generating a corresponding inspection plan according to the optimal inspection route and the inspection cycle, and transmitting the inspection plan to an inspection terminal held by an inspector, comprises:

determining the required quantity of inspectors based on an experience judgment method according to the inspection period and the quantity of public facilities to be inspected;

Randomly extracting a plurality of inspector information from a preset personnel information base according to the required quantity;

according to the required quantity, randomly dividing the optimal routing inspection route into a plurality of sub routing inspection routes;

generating a plurality of inspection schemes according to each sub inspection route and the inspection period;

and randomly transmitting the plurality of inspection schemes to the inspection terminals corresponding to the plurality of inspector information according to a one-to-one distribution principle.

4. The utility inspection method of claim 1, wherein generating a corresponding inspection plan according to the optimal inspection route and the inspection cycle, and transmitting the inspection plan to an inspection terminal held by an inspector, comprises:

extracting inspector information of all inspectors which are always in a preset distance range of the optimal inspection route from a preset personnel information base; wherein the inspector information comprises usual ground information;

dividing the optimal patrol route into a plurality of sub patrol routes with the same quantity as the patrol operator information according to the distance between the constant address indicated by the constant address information and the public facilities to be patrol on the optimal patrol route; the distance between each public facility to be patrolled and examined and the corresponding resident address is within a preset range;

Generating a plurality of inspection schemes according to each sub inspection route and the inspection period;

and correspondingly transmitting the plurality of inspection schemes to the plurality of inspection terminals corresponding to the constant ground information.

5. The utility inspection method of claim 4, wherein the generating a corresponding inspection plan according to the optimal inspection route and the inspection cycle, and sending the inspection plan to an inspection terminal held by an inspector, further comprises:

and if the public facilities to be patrolled and examined which do not belong to any one of the sub-patrolling routes exist on the optimal patrolling route, distributing the public facilities to be patrolled and examined which do not belong to any one of the sub-patrolling routes to the sub-patrolling route corresponding to the nearest public facilities to be patrolled and examined.

6. The utility patrol method according to any one of claims 2 to 5, wherein the generating a corresponding patrol scheme according to the optimal patrol route and the patrol cycle, and transmitting the patrol scheme to a patrol terminal held by a patrol operator, further comprises:

based on an average distribution principle, the quantity of public facilities to be inspected, which are included in each sub-inspection route, is adjusted so that the quantity of public facilities to be inspected, which are included in any two sub-inspection routes, is equal to or different from a preset value.

7. The utility patrol method according to any one of claims 2 to 5, wherein the generating a corresponding patrol scheme according to the optimal patrol route and the patrol cycle, and transmitting the patrol scheme to a patrol terminal held by a patrol operator, further comprises:

acquiring the quantity range of the public facilities of the inspector in a single day indicated by each inspector message;

and according to the quantity ranges, the quantity of the public facilities to be patrolled and examined, which are included in each sub-patrolling route, is adjusted.

8. The utility inspection method of claim 1, wherein the inspection scheme includes a plurality of sub-inspection schemes, the plurality of sub-inspection schemes respectively corresponding to a plurality of days included in the inspection cycle one by one; the routing inspection scheme is sent to an inspection terminal held by an inspector: comprising the following steps:

all the sub-inspection schemes are sent to an inspection terminal held by an inspector; or sending the corresponding sub-inspection scheme to an inspection terminal held by an inspector every day in the inspection period.

9. The utility inspection method of claim 1, wherein the inspection scheme includes an inspection worksheet, the utility inspection method further comprising:

Receiving a filled inspection work order sent by the inspection terminal; the filled inspection worksheets are filled in after the inspector completes inspection of the corresponding public facilities to be inspected;

the filled inspection worksheet is sent to a management terminal used by an administrator; wherein, all public facilities to be patrolled and examined are managed by the administrator;

receiving the checked inspection work order sent by the management terminal; the inspected inspection work order is the inspection work order after the administrator inspects the filled inspection work order;

judging whether the inspection result indicated by the inspected inspection work order is qualified or not; if the inspection job ticket is qualified, storing the inspected inspection job ticket; if the inspection result is not qualified, a corresponding inspection scheme is regenerated and sent to the inspection terminal.

10. The utility inspection method of claim 1, wherein generating an optimal inspection route including all of the utility to be inspected based on the location information of each of the utility to be inspected, comprises:

according to the position information of each public facility to be patrolled and examined, calling WEB API service of preset map software, and generating an optimal patrolling route containing all the public facilities to be patrolled and examined; the optimal routing inspection route is generated according to the principle that the route is shortest or the time consumption is least.

11. A utility inspection system, comprising:

the management terminal is used for sending a patrol request; the inspection request comprises an inspection period, the number of public facilities to be inspected and the identification of each public facility to be inspected;

cloud server for: extracting the position information of each public facility to be patrolled and examined from a preset position information base according to the identification of each public facility to be patrolled and examined; generating an optimal inspection route containing all public facilities to be inspected according to the position information of each public facility to be inspected; generating a corresponding inspection scheme according to the optimal inspection route and the inspection period, and sending the inspection scheme to an inspection terminal held by an inspector;

and the inspection terminal is used for receiving the inspection scheme so that the inspector can finish inspection of the corresponding public facilities to be inspected in the inspection period according to the optimal inspection route.

12. A cloud server comprising a storage module for storing at least one piece of computer instructions and a processing module for invoking at least one piece of said computer instructions to implement the utility patrol method of any one of claims 1 to 10.

13. A computer readable storage medium having stored thereon at least one piece of computer instructions for being invoked by a processing module to implement the utility inspection method of any one of claims 1 to 10.