CN116957887A

CN116957887A - Intelligent meter reading method and meter reading system

Info

Publication number: CN116957887A
Application number: CN202311211002.0A
Authority: CN
Inventors: 沈建明; 韩弢; 沈翀民
Original assignee: Nanjing Kuaifu Technology Co ltd
Current assignee: Nanjing Kuaifu Technology Co ltd
Priority date: 2023-09-20
Filing date: 2023-09-20
Publication date: 2023-10-27
Anticipated expiration: 2043-09-20
Also published as: CN116957887B

Abstract

The invention provides an intelligent meter reading method and a meter reading system, wherein static information of a foundation of a corresponding water meter is configured for each target user, and the static information and dynamic information are combined based on a display template to obtain combined information; dividing the target users into a plurality of sub-blocks, and determining target users belonging to each sub-block according to the static information to obtain a corresponding user information list; adding corresponding meter reading authority information to target users in each sub-block in batches according to the block authority data, the user information list and the static information of the target users of the management end; receiving access information, and determining sub-blocks which can be selected in preset map data and/or corresponding target users in the sub-blocks according to meter reading authority information of a meter reading terminal to display according to a first preset form; and if the server selects dynamic information calculation of at least one target user according to meter reading interaction with the meter reading terminal, obtaining corresponding independent meter reading information and/or batch meter reading information.

Description

Intelligent meter reading method and meter reading system

Technical Field

The invention relates to a data processing technology, in particular to an intelligent meter reading method and a meter reading system.

Background

The water meters are basically corresponding to each other in civil, commercial and industrial, generally, the installation positions of the water meters are different, the water consumption properties of different buildings are different, for example, the water consumption of residents, the water consumption of businesses and the like, the corresponding water meters are different in charging mode, and the automatic distribution of meter reading work cannot be realized, so that the meter reading work of meter reading staff is difficult.

In the prior art, a manager can allocate corresponding meter reading areas for each meter reading person, but because the division among the areas is not clear, the household distribution of different buildings in the areas is different, and the charging modes of different water use attributes are different, phenomena such as missing meter reading, meter reading error and the like often occur, and the automatic allocation of meter reading work cannot be realized.

Therefore, how to automatically distribute the meter reading work of the meter reader to assist the meter reader to position the area to be meter-read, the building to be meter-read and the user to be meter-read, thereby improving the meter reading accuracy becomes a problem to be solved urgently.

Disclosure of Invention

The embodiment of the invention provides an intelligent meter reading method and a meter reading system, which can automatically distribute meter reading work of a meter reader so as to assist the meter reader to position a meter reading area, a meter reading building and a meter reading user, thereby improving the meter reading accuracy.

In a first aspect of the embodiment of the present invention, there is provided an intelligent meter reading method, including:

the server configures basic static information of the corresponding water meter for each target user in preset map data according to the water meter configuration data of the management end, acquires dynamic information corresponding to the target user in real time, and combines the static information and the dynamic information based on the display template to obtain combined information;

the server divides preset map data into a plurality of sub-blocks according to regional division data of the management end, and determines target users belonging to each sub-block to obtain a corresponding user information list according to the static information;

the server adds corresponding meter reading authority information to the target users in each sub-block in batches according to the block authority data, the user information list and the static information of the target users of the management end, wherein the meter reading authority information is meter reading person information with meter reading authority for the target users;

the method comprises the steps that a server receives access information of any meter reading terminal to preset map data, and determines sub-blocks which can be selected in the preset map data and/or corresponding target users in the sub-blocks to display according to a first preset form according to meter reading authority information of the meter reading terminal;

And if the server selects dynamic information calculation of at least one target user according to meter reading interaction with the meter reading terminal, obtaining corresponding independent meter reading information and/or batch meter reading information.

Optionally, in one possible implementation manner of the first aspect, the server configures, for each target user in preset map data, static information of a base of the corresponding water meter according to water meter configuration data of the management end, acquires, in real time, dynamic information corresponding to the target user, and combines the static information and the dynamic information based on a display template to obtain combined information, including:

if the server judges that the management end selects any one building with preset map data, the server interacts with the management end to determine that the corresponding building corresponds to one target user or corresponds to a plurality of target users;

if the corresponding building corresponds to a target user, generating an independent information interaction table corresponding to the corresponding building, and receiving static information in the water meter configuration data of the management end based on the independent information interaction table;

if the corresponding building corresponds to a plurality of target users, generating a batch information interaction table corresponding to the corresponding building, and generating user slots corresponding to the number of the plurality of target users;

Configuring corresponding target users for each user slot based on the batch information interaction table, generating an independent information interaction table corresponding to the target users of each user slot again, and receiving static information of a foundation of the water meter configured by the management end based on the independent information interaction table;

and combining the static information and the dynamic information based on the display template to obtain combined information, wherein the dynamic information at least comprises the number of the table codes.

Optionally, in one possible implementation manner of the first aspect, if the corresponding building corresponds to a plurality of target users, generating a batch information interaction table corresponding to the corresponding building, and generating a user slot corresponding to a plurality of target users includes:

if the building attribute of the corresponding building is determined to be a user slot batch generation attribute by interaction with the management end, receiving slot generation information based on a slot batch setting table, wherein the slot generation information at least comprises the number of slots of a row and the number of slots of a column;

generating an initial slot array at a slot template based on the number of the slots of the rows and the number of the slots of the columns, adding and/or deleting user slots in the slot array based on slot adjustment data, and generating a slot code of a two-dimensional coordinate according to the positions of the user slots in the slot array;

If the building attribute of the corresponding building is determined to be the independent generation attribute of the user slot position through interaction with the management end, generating a user slot position in the center of the slot position template, wherein the periphery of the user slot position is the slot position to be selected;

if the management end selects at least one slot to be selected, converting the corresponding slot to be selected into a user slot, and generating ordered slot codes according to the generation sequence of the user slots;

and generating a batch information interaction table by correspondingly setting the user codes and the slot codes based on the corresponding user codes preset by the target user.

Optionally, in one possible implementation manner of the first aspect, the configuring, for each user slot, a corresponding target user based on the batch information interaction table, and generating, again, an independent information interaction table corresponding to the target user of each user slot, receiving, based on the independent information interaction table, static information of a base of the water meter configured by the management end, includes:

determining a slot code corresponding to each user slot, and configuring a corresponding target user for each user slot based on the corresponding relation between the slot code and the user code of the target user in the batch information interaction table;

After judging that the user slot has a corresponding target user, generating a corresponding independent information interaction table, and receiving static information of a foundation of the water meter configured by the management end based on the independent information interaction table, wherein the static information at least comprises coordinate information.

Optionally, in one possible implementation manner of the first aspect, the server divides the preset map data into a plurality of sub-blocks according to the regional division data of the management end, determines, according to the static information, that the target user belonging to each sub-block obtains a corresponding user information list, and includes:

the method comprises the steps that a server receives regional division data of a management end, wherein a longitude range interval and a latitude range interval corresponding to each sub-block of the regional division data, and preset map data are divided into a plurality of sub-blocks based on the longitude range interval and the latitude range interval;

acquiring a building corresponding to each sub-block and the number of users of a target user corresponding to the building according to the coordinate information in the static information;

generating a first-level display table corresponding to each building according to the buildings corresponding to the sub-blocks, generating a second-level display table corresponding to each building in the first-level display table according to the number of users of the target users corresponding to each building, and generating a user information list according to the first-level display table and the second-level display table.

Optionally, in one possible implementation manner of the first aspect, the server adds corresponding meter reading authority information to the target user in each sub-block in batches according to the block authority data, the user information list and the static information of the target user of the management end, where the meter reading authority information is meter reader information with meter reading authority to the target user, and includes:

determining a user information list corresponding to the corresponding sub-blocks according to the block authority data, wherein each block authority data corresponds to one sub-block, and the block authority data at least comprises meter reading information and distribution sub-information of a target user corresponding to each meter reading information;

if the fact that the meter reader information in the block authority data corresponds to the region allocation sub-information is judged, dividing the corresponding user information list based on the region allocation sub-information to obtain a user information list after region division once;

if the sub information of the meter reader information corresponding to the category distribution in the block authority data is judged, performing secondary division on the user information list after primary region division based on the category distribution sub information to obtain a user information list after secondary category division;

And setting the target users in the user information list after the secondary category division and the corresponding meter reading information correspondingly so as to add the corresponding meter reading authority information to the target users in batches.

Optionally, in one possible implementation manner of the first aspect, the server receives access information of any meter reading terminal to preset map data, determines, according to meter reading authority information of the meter reading terminal, that a sub-block and/or a corresponding target user in the sub-block that can be selected in the preset map data are displayed according to a first preset form, and includes:

determining corresponding sub-blocks in preset map data according to meter reading authority information of a meter reading terminal, determining buildings of corresponding target users in the sub-blocks according to a user information list, and displaying outlines of the sub-blocks and building outlines according to a first preset form;

preliminary locking is carried out on images corresponding to the sub-blocks in preset map data to obtain first image data, and coordinate information of all buildings of the target users which can be selected in the first image data is obtained to obtain a relative position relation;

and if the relative position relation meets the segmentation condition of the first image data, segmenting the first image data based on the relative position relation to obtain second image data, and displaying the second image data on the meter reading terminal.

Optionally, in one possible implementation manner of the first aspect, if the relative position relationship satisfies a segmentation condition for the first image data, segmenting the first image data based on the relative position relationship to obtain second image data, and displaying the second image data on the meter reading terminal, where the method includes:

acquiring block extremum longitude and block extremum latitude in the first image data, and user extremum longitude and user extremum latitude of all buildings of the target users, and carrying out distribution comparison on the block extremum longitude, the block extremum latitude, the user extremum longitude and the user extremum latitude to obtain four distribution comparison sets;

determining a longitude difference value and/or a latitude difference value in each distribution comparison set, and judging that the relative position relationship meets the segmentation condition of the first image data if any one of the longitude difference value and/or the latitude difference value is larger than a preset numerical value;

and dividing the first image data based on the longitude difference value and/or the latitude difference value to obtain second image data, and displaying the second image data to the meter reading terminal.

Optionally, in one possible implementation manner of the first aspect, the dividing the first image data based on the longitude difference value and/or the latitude difference value to obtain second image data, and displaying the second image data to the meter reading terminal includes:

Selecting an allocation comparison set with longitude difference values and/or latitude difference values larger than preset values, and selecting and determining corresponding moving directions for original longitude dividing lines and/or latitude dividing lines in the first image data according to the allocation comparison set;

determining a moving longitude distance and/or a moving latitude distance of a longitude boundary and/or a latitude boundary according to the longitude difference value and/or the latitude difference value;

and moving the longitude dividing line and/or the latitude dividing line according to the corresponding moving direction based on the moving longitude distance and/or the moving latitude distance so as to divide the first image data to obtain second image data.

In a second aspect of the embodiment of the present invention, there is provided an intelligent meter reading system, including:

the combination module is used for enabling the server to configure basic static information of the corresponding water meter for each target user in preset map data according to the water meter configuration data of the management end, acquiring dynamic information corresponding to the target user in real time, and combining the static information and the dynamic information based on the display template to obtain combined information;

the segmentation module is used for enabling the server to segment the preset map data into a plurality of sub-blocks according to the regional division data of the management end, and determining target users belonging to each sub-block according to the static information to obtain a corresponding user information list;

The adding module is used for enabling the server to add corresponding meter reading authority information to the target users in each sub-block in batches according to the block authority data, the user information list and the static information of the target users of the management end, wherein the meter reading authority information is meter reading person information with meter reading authority for the target users;

the determining module is used for enabling the server to receive access information of any meter reading terminal to preset map data, and determining sub-blocks which can be selected in the preset map data and/or corresponding target users in the sub-blocks to be displayed according to a first preset form according to meter reading authority information of the meter reading terminal;

and the calculation module is used for enabling the server to obtain corresponding independent meter reading information and/or batch meter reading information if the server selects dynamic information calculation of at least one target user according to meter reading interaction with the meter reading terminal.

In a third aspect of embodiments of the present invention, there is provided a storage medium having stored therein a computer program for implementing the method of the first aspect and the various possible designs of the first aspect when the computer program is executed by a processor.

The beneficial effects of the invention are as follows:

1. the method and the system can automatically divide the subareas, allocate corresponding meter reading personnel for corresponding target users, and display the subareas capable of reading the meter and the target users in the subareas in a first preset mode aiming at meter reading rights corresponding to different meter reading ends, thereby ensuring the accuracy of meter reading. The invention configures corresponding static information and dynamic information for all target users on the map, and meter reading is generally carried out in a regional form, the corresponding target users in the distribution subarea of meter reading personnel can be automatically subjected to meter reading, and the meter reading authority information of each meter reading terminal is displayed in a first preset form in preset map data, so that the accuracy of meter reading is ensured, and the phenomena of missing meter reading, wrong meter reading and the like of the meter reading personnel are avoided.

2. The invention can allocate static information corresponding to different types of buildings, generate a user information list corresponding to the subarea, and automatically allocate corresponding meter reading personnel information to target users in the user information list according to the block authority data, thereby realizing automatic allocation of corresponding meter reading areas and target users in the areas. The invention can respectively generate the corresponding independent interactive table and the batch information interactive table according to different numbers of the target users corresponding to the building, so that the corresponding static information can be conveniently configured for each target user in the building, corresponding slot codes can be generated according to different building attributes of the building, the corresponding target users can be configured for each user slot based on the batch information interactive table, the corresponding static information can be configured for a plurality of target users in the corresponding building, the first-level display table and the second-level display table can be automatically generated according to the target users of each sub-block, the corresponding user information list can be obtained, and then the user information list can be divided according to region allocation sub-information and category allocation sub-information in the block authority data, so that the allocation of the work tasks of meter reading personnel can be automatically realized.

3. In the invention, the subarea and the building which need to be checked are displayed in a first preset form in the process of checking the meter by the meter reading end, and the corresponding first image data are subjected to segmentation processing according to the building which needs to be checked, so that second image data convenient to display are generated, and the meter reading end is used for assisting meter reading personnel in checking the meter, thereby avoiding the conditions of missing meter reading and the like. The method and the system can display the subareas and the buildings which need to be subjected to meter reading in the first preset mode at the meter reading terminal, so that the meter reading terminal can reach a designated place to perform meter reading, and the areas which need not to be subjected to meter reading are subjected to split deletion processing according to the first image data of the buildings where the users to be subjected to meter reading corresponding to different meter reading terminals are located, and the areas which need to be subjected to meter reading are amplified and displayed, so that the method and the system are convenient for meter reading personnel to check.

Drawings

FIG. 1 is a schematic flow chart of an intelligent meter reading method according to an embodiment of the application;

FIG. 2 is a schematic diagram of a combination message according to an embodiment of the present application;

FIG. 3 is a schematic diagram of a slot array according to an embodiment of the present application;

fig. 4 is a schematic diagram of deleting a user slot according to an embodiment of the present application;

FIG. 5 is a schematic diagram of a two-bit slot code according to an embodiment of the present application;

FIG. 6 is a schematic diagram of a slot template with independently generated attributes according to an embodiment of the present application;

FIG. 7 is a schematic diagram of adding a user slot according to an embodiment of the present application;

fig. 8 is a schematic structural diagram of an intelligent meter reading system according to an embodiment of the application.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present application more apparent, the technical solutions of the embodiments of the present application will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present application, and it is apparent that the described embodiments are only some embodiments of the present application, not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the application without making any inventive effort, are intended to be within the scope of the application.

The terms "first," "second," "third," "fourth" and the like in the description and in the claims and in the above drawings, if any, are used for distinguishing between similar objects and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used may be interchanged where appropriate such that the embodiments of the invention described herein may be implemented in sequences other than those illustrated or otherwise described herein.

It should be understood that, in various embodiments of the present invention, the sequence number of each process does not mean that the execution sequence of each process should be determined by its functions and internal logic, and should not constitute any limitation on the implementation process of the embodiments of the present invention.

It should be understood that in the present invention, "comprising" and "having" and any variations thereof are intended to cover non-exclusive inclusion, such that a process, method, system, article, or apparatus that comprises a list of steps or elements is not necessarily limited to those steps or elements that are expressly listed or inherent to such process, method, article, or apparatus.

It should be understood that in the present invention, "plurality" means two or more. "and/or" is merely an association relationship describing an association object, meaning that there may be three relationships, e.g., a and/or B, may represent: a exists alone, A and B exist together, and B exists alone. The character "/" generally indicates that the context-dependent object is an "or" relationship. "comprising A, B and C", "comprising A, B, C" means that all three of A, B, C comprise, "comprising A, B or C" means that one of the three comprises A, B, C, and "comprising A, B and/or C" means that any 1 or any 2 or 3 of the three comprises A, B, C.

It should be understood that in the present invention, "B corresponding to a", "a corresponding to B", or "B corresponding to a" means that B is associated with a, from which B can be determined. Determining B from a does not mean determining B from a alone, but may also determine B from a and/or other information. The matching of A and B is that the similarity of A and B is larger than or equal to a preset threshold value.

As used herein, "if" may be interpreted as "at … …" or "at … …" or "in response to a determination" or "in response to detection" depending on the context.

The technical scheme of the invention is described in detail below by specific examples. The following embodiments may be combined with each other, and some embodiments may not be repeated for the same or similar concepts or processes.

The invention provides an intelligent meter reading method, as shown in fig. 1, comprising the following steps of S1-S5:

s1, the server acquires dynamic information corresponding to the target users in real time according to static information of a foundation of each target user configuration corresponding to the water meter in preset map data according to water meter configuration data of the management end, and combines the static information and the dynamic information based on the display template to obtain combined information.

The static information is static information in the water meter of each target user, such as a user number, a user name, a GPS coordinate, a water meter address, and the like. The dynamic information is information of dynamic change in the water meter of each target user, for example, the number of dynamically changed codes in the water meter. It is to be understood that the static information is information which does not change in the water meter, and the dynamic information is information which changes in real time in the water meter.

In general, when a manager performs meter reading task allocation, corresponding meter reading personnel are often allocated in a dictation mode to go to corresponding areas for gate-on meter reading, and the water meter data of each user are recorded, wherein the areas can be streets, villages and towns, and the like, but due to inaccurate division among the areas, different areas correspond to different numbers of buildings and different numbers of users in the buildings, the meter reading personnel are unfamiliar with the areas and frequently miss-reading, wrong-reading and other phenomena occur, so that the invention can configure corresponding static information and implement acquisition dynamic information for each target user in preset map data in advance, and is convenient for the subsequent automatic configuration of corresponding meter reading personnel for the user.

It can be understood that the server configures basic static information of the corresponding water meter for each target user in the preset map data according to the water meter configuration data in the management end, acquires dynamic information corresponding to each target user in real time, combines the static information and the dynamic information of each target user to obtain combined information, and displays the combined information on the display template. The preset map data is pre-configured map data, and the preset map data can display each building needing meter reading.

It is easy to understand that the server configures corresponding user numbers, user names, GPS coordinates and water meter addresses for each target user in the map according to the water meter configuration data in the management end, obtains the number of the corresponding target user's water meter codes, namely the current water consumption, and displays all information combinations in the display template.

In some embodiments, step S1 (the server configures static information of a base of the corresponding water meter for each target user in the preset map data according to the water meter configuration data of the management end, acquires dynamic information corresponding to the target user in real time, and combines the static information and the dynamic information based on the display template to obtain combined information) includes S11-S15:

S11, if the server judges that the management end selects any one building with preset map data, the server interacts with the management end to determine that the corresponding building corresponds to one target user or corresponds to a plurality of target users.

It can be understood that if the server determines that the management end selects any one building of the preset map data, the server interacts with the management end and determines that the corresponding building corresponds to one target user or corresponds to a plurality of target users.

It will be appreciated that there may be one or more corresponding target users for different buildings.

For example, referring to fig. 2, after the management end selects a corresponding building, it is determined that the building is a bicycle stadium, the building corresponds to an operator, 1 corresponding target user, and if the selected building is a residential building, a plurality of corresponding target users are provided.

And S12, if the corresponding building corresponds to a target user, generating an independent information interaction table corresponding to the corresponding building, and receiving static information in the management-end water meter configuration data based on the independent information interaction table.

It can be understood that if the corresponding building corresponds to a target user, an independent information interaction table corresponding to the corresponding building is generated, static information in the management-end water meter configuration data is received based on the independent information interaction table, wherein the independent information interaction table is a record table of static information corresponding to the target user.

For example, if the building selected by the management end is a bicycle stadium, the corresponding user number, user name, GPS coordinates and water meter address are imported into the independent information interaction table.

And S13, if the corresponding building corresponds to a plurality of target users, generating a batch information interaction table corresponding to the corresponding building, and generating user slots corresponding to the number of the plurality of target users.

It can be understood that if the corresponding building corresponds to a plurality of target users, a batch information interaction table corresponding to the corresponding building is generated, and user slots corresponding to the number of the plurality of target users are generated, so that the corresponding target users can be conveniently configured for the plurality of user slots corresponding to the building by using the batch information interaction table.

In some embodiments, in step S13 (if the corresponding building corresponds to a plurality of target users, generating a batch information interaction table corresponding to the corresponding building, and generating user slots corresponding to a plurality of target users), S131-S135 are included:

s131, if the building attribute of the corresponding building is determined to be the user slot batch generation attribute through interaction with the management end, slot generation information is received based on a slot batch setting table, and the slot generation information at least comprises the number of slots of the row and the number of slots of the column.

It should be noted that, in general, the distribution of users in a building is more regular, for example, the residential building of a cell is more regular, for example, layer 1, layer 2, and a total of 3 layers. However, there are also cases where the distribution is random, for example, in commercial buildings, 1 building is only 1 family, and 10 families are in shops of 2 buildings, and the distribution is irregular.

Therefore, the server can interact with the management end to judge whether the building attribute of the corresponding building is a batch generation attribute or not.

It can be understood that if the building attribute of the corresponding building is determined to be the user slot batch generation attribute by interaction with the management end, that is, the distribution of users in the building is more regular, the slot batch setting table is based on the slot batch setting table to receive slot generation information, where the slot generation information at least includes the number of slots of the row and the number of slots of the column. The slot lot setting table is a table for receiving slot generation information. For example, the slot lot size table receives a 3-row slot number and a 2-column slot number.

S132, generating an initial slot array at the slot template based on the number of the slots of the rows and the number of the slots of the columns, adding and/or deleting user slots in the slot array based on slot adjustment data, and generating a slot code of a two-dimensional coordinate according to the positions of the user slots in the slot array.

It will be appreciated that the initial slot array is generated at the slot master based on the number of slots of the rows and the number of slots of the columns.

For example, referring to FIG. 3, an initial slot array of horizontal 3 vertical 2 is generated at the slot pattern based on a row slot number of 3 and a column slot number of 2, representing the corresponding user in the building.

It should be noted that, because a part of the buildings, for example, a part of the cells have 1 building to 2 households, but the 2 building is large-sized and corresponds to 1 household, or the 2 building is small-sized and corresponds to 3 households, the situation that part of floors are irregular occurs.

Therefore, the invention adds and/or deletes the user slot in the slot array based on the slot adjustment data, and generates the slot code of the two-dimensional coordinates according to the position of the user slot in the slot array.

For example, referring to fig. 4, the management end may select a slot in the corresponding slot array to delete the slot, or select a corresponding blank area to add a corresponding user slot, referring to fig. 5, the server may establish a coordinate system in the slot array to generate two-dimensional coordinates corresponding to each user slot as a corresponding slot code, or determine a corresponding slot code according to a row and a column where each user slot is located, which is not limited herein.

S133, if the building attribute of the corresponding building is determined to be the independent generation attribute of the user slot position through interaction with the management end, generating the user slot position in the center of the slot position template, wherein the slot positions to be selected are arranged around the user slot position.

It can be understood that if the building attribute of the corresponding building is determined to be the independent generation attribute of the user slot position by interaction with the management end, that is, the distribution of the users in the corresponding building is random, batch generation is not performed at this time, and the management end performs self-addition of the corresponding user slot position.

Further, a user slot is generated at the center of the slot template, and corresponding slots to be selected are arranged around the user slot, so that the corresponding user slots can be conveniently and freely arranged later.

Referring to fig. 6, 1 user slot is generated at the center of the slot template, and corresponding slots to be selected are generated around the slots.

S134, if the management end selects at least one slot to be selected, converting the corresponding slot to be selected into a user slot, and generating ordered slot codes according to the generation sequence of the user slots.

It can be understood that if the management end selects at least one slot to be selected, the corresponding slot to be selected is converted into a user slot, and the ordered slot codes are generated according to the generation sequence of the user slots.

For example, referring to fig. 7, an administrator triggers a corresponding slot to be selected through the management end, converts the corresponding slot to a user slot, and generates a corresponding slot code according to the generated sequence, for example, the previously generated slot code is 1, the code generated by the subsequent trigger is 2, and the slot code corresponding to the third user slot generated by the subsequent trigger is 3.

S135, generating a batch information interaction table based on the corresponding user codes preset by the target user and the corresponding settings of the user codes and the slot codes.

It can be understood that the server generates a batch information interaction table based on the preset corresponding relation between the user codes and the slot codes based on the corresponding user codes preset by the target user, wherein the user codes are preset by the user.

Through the embodiment, the user slot positions can be flexibly generated according to different building attributes of the building, so that the situation of the user slot positions in the slot position template is consistent with the actual situation, and each building can have a corresponding building number, so that each slot position code in the slot position template is different.

S14, configuring corresponding target users for each user slot based on the batch information interaction table, generating an independent information interaction table corresponding to the target users of each user slot again, and receiving static information of the basis of the water meter configured by the management end based on the independent information interaction table.

It can be understood that the server configures a corresponding target user for each user slot according to the batch information interaction table, and generates an independent information interaction table corresponding to the target user of each user slot again, and receives the static information of the basis of the water meter configured by the management end based on the independent information interaction table.

It is to be understood that, the batch information interaction table is used for configuring corresponding target users for each user slot in a building with a plurality of target users, then the independent information interaction table corresponding to each target user is generated, and the independent information interaction table is used for receiving the static information of the foundation of the water meter configured by the management end.

In some embodiments, the step S14 (configuring the corresponding target user for each user slot based on the batch information interaction table, and generating again an independent information interaction table corresponding to the target user of each user slot, receiving the static information of the base of the water meter configured by the management end based on the independent information interaction table) includes S141-S142:

s141, determining a slot code corresponding to each user slot, and configuring a corresponding target user for each user slot based on the corresponding relation between the slot code and the user code of the target user in the batch information interaction table.

It should be noted that, the user number and the slot code may be corresponding to each other according to the floor condition where the user is located. The batch information interaction table is a table for recording a one-to-one correspondence relationship between slot codes and user numbers.

It can be understood that each user slot has a corresponding slot code, and the corresponding target user of the corresponding user number is configured for the user slot through the corresponding relationship between the slot code and the user code of the target user in the batch information interaction table.

S142, after judging that the user slot has a corresponding target user, generating a corresponding independent information interaction table, and receiving static information of a foundation of the water meter configured by the management end based on the independent information interaction table, wherein the static information at least comprises coordinate information.

It can be understood that after all the user slots are judged to have corresponding target users, a corresponding independent information interaction table is generated, and then the static information of the basis of the water meter configured by the management end is received according to the independent information interaction table, wherein the static information at least comprises coordinate information.

It is easy to understand that after all the user slots are configured with the corresponding target users, static information of the water meter corresponding to the corresponding target users is received based on the independent information interaction table.

S15, combining static information and dynamic information based on the display template to obtain combined information, wherein the dynamic information at least comprises the number of table codes.

It can be understood that the static information and the dynamic information of the target user are combined based on a preset display template to obtain combined information, wherein the dynamic information at least comprises the number of table codes.

For example, referring to fig. 2, the information of the user number, the user name, the number of the table codes, the GPS coordinates and the water meter address, which are displayed correspondingly by the bicycle stadium, is the combined information.

S2, the server divides the preset map data into a plurality of sub-blocks according to the regional division data of the management end, and determines the target users belonging to each sub-block according to the static information to obtain a corresponding user information list.

It should be noted that, meter reading personnel generally perform meter reading in the form of areas, and corresponding households in each area perform meter reading, where the areas may be streets, villages and towns, etc.

Therefore, the server divides the preset map data into a plurality of sub-blocks according to the regional division data of the management end, and determines the target user belonging to each sub-block according to the GPS coordinates in the static information, so as to obtain a corresponding user information list.

It will be appreciated that the GPS coordinates of the target user are compared with the GPS coordinates within each sub-block to determine the target user belonging to each sub-block.

The regional division data is longitude range interval data and latitude range interval data corresponding to each sub-block.

In some embodiments, step S2 (the server divides the preset map data into a plurality of sub-blocks according to the regional division data of the management end, determines that the target user belonging to each sub-block obtains a corresponding user information list according to the static information) includes S21-S23:

s21, the server receives regional division data of the management end, wherein the regional division data comprises a longitude range section and a latitude range section corresponding to each sub-block, and preset map data is divided into a plurality of sub-blocks based on the longitude range section and the latitude range section.

In the process of meter reading, meter reading personnel generally performs meter reading in a regional form.

The regional division data is a longitude range interval and a latitude range interval corresponding to each sub-block.

Therefore, the server receives the regional division data of the management end, and divides the preset map data into a plurality of sub-blocks according to the longitude range section and the latitude range section pairs in the regional division data.

Through the mode, the preset map data can be divided into a plurality of sub-blocks, so that corresponding meter reading terminals can be conveniently distributed subsequently.

S22, acquiring the building corresponding to each sub-block and the number of users of the target users corresponding to the building according to the coordinate information in the static information.

It will be appreciated that if the coordinate information in the static information of the target user is in the corresponding sub-block, the building corresponding to the target user and the number of users of the target user corresponding to the building may be determined.

S23, generating a first-level display list corresponding to each building according to the building corresponding to the sub-block, generating a second-level display list corresponding to each building in the first-level display list according to the number of users of the target users corresponding to each building, and generating a user information list according to the first-level display list and the second-level display list.

The first-level display table is a display table corresponding to each building in the subarea, such as building a, building b and the like, and the second-level display table is a display table corresponding to each building, such as a first user, a second user and the like using a water meter in the building a.

It can be understood that the server sequentially generates a first-level display table of all buildings corresponding to the sub-blocks and a second-level display table corresponding to all target users, and generates a user information list according to the combination of the first-level display table and the second-level display table, so that information of target users needing meter reading in each sub-block is displayed in a multi-level mode. Wherein the user information list records all target users of the subarea blocks.

And S3, the server adds corresponding meter reading authority information to the target users in each sub-block in batches according to the block authority data, the user information list and the static information of the target users of the management end, wherein the meter reading authority information is meter reading person information with meter reading authority to the target users.

It can be understood that the server can determine the target users in each sub-block according to the block authority data, the user information list and the static information of the target users of the management end, and add corresponding meter reading authority information for each target user in batches, wherein the meter reading authority information is meter reading personnel information with meter reading authority for the target users.

It is easy to understand that according to static information of the target users, the target users in each sub-block can be determined, corresponding user information lists are obtained, corresponding meter reading authority information is added for the target users in the user information lists in batches according to block authority data of the management end, for example, 3 meter reading personnel meter the target users in the A block, the meter reading personnel A meter industrial water specially, and meter reading personnel A is added for the target users of the industrial water in the A block; the meter reading personnel B is specially used for reading the resident water, and then the meter reading personnel B is added to the target user of the resident water in the A block; and the meter reading personnel C is specially used for reading the meter of the commercial water, and then the meter reading personnel C is added to the target user of the commercial water in the A block.

In some embodiments, in step S3 (the server adds corresponding meter reading authority information to the target users in each sub-block in batch according to the block authority data, the user information list and the static information of the target users of the management end, where the meter reading authority information is meter reading personnel information with meter reading authority to the target users), the method includes S31-S34:

s31, determining a user information list corresponding to the corresponding sub-blocks according to the block authority data, wherein each block authority data corresponds to one sub-block, and the block authority data at least comprises one meter reader information and distribution sub-information of a target user corresponding to each meter reader information.

It should be noted that one sub-block may correspond to one meter reader or a plurality of meter readers.

Each block authority data corresponds to one sub-block, and the block authority data at least comprises meter reading information and distribution sub-information of a target user corresponding to each meter reading information.

Therefore, the present invention can determine the user information list corresponding to the corresponding sub-block according to the block authority data, for example, if the block authority data is configured for the a block, the user information list corresponding to the a block is called first, and the user information list correspondingly records the information of all target users of the a block.

For example, the A block is configured with meter reading personnel A, B and C, and authority configuration is carried out on 3 meter reading personnel, so that each meter reading personnel corresponds to a corresponding target user respectively. The distribution sub-information comprises region distribution sub-information and category distribution sub-information, so that the distribution of meter readers can be conveniently carried out by regions and categories in the follow-up process.

And S32, if the fact that the meter reader information in the block authority data corresponds to the region allocation sub-information is judged, the corresponding user information list is divided based on the region allocation sub-information, and a user information list after region division is obtained once.

It can be understood that if the information of the meter reader in the block authority data is judged to correspond to the regional distribution sub information, the fact that the target users are divided by regions at the moment is indicated, and the corresponding meter reader is conveniently distributed to the target users subsequently.

For example, the block a has a corresponding user information list, and if it is determined that a corresponding street exists in the block a, the block a may be divided by the street, and corresponding meter reading authority information may be added to the target user, for example, the target users of all the cells in the upper half of the street correspond to the meter reader a, and the target users of all the cells in the lower half correspond to the meter reader b.

Therefore, the invention can divide the corresponding user information list by using the region allocation sub-information to obtain the user information list after region division.

And S33, if the sub information of the type distribution corresponding to the meter reader information in the block authority data is judged, the user information list subjected to primary region division is subjected to secondary division based on the sub information of the type distribution, and the user information list subjected to secondary type division is obtained.

It can be understood that if the sub-information is allocated to the category corresponding to the meter reader information in the block authority data, it is indicated that the building types corresponding to the sub-blocks are more, and at this time, the region is further divided into target users.

For example, there are a plurality of commercial office buildings, factories, etc. at the streets corresponding to the a blocks. The list of user information is subdivided based on business, factory, and resident categories, e.g., target users of all factories of block a are assigned to meter reader b.

Further, the server performs secondary division on the user information list after primary region division based on the category allocation sub-information, and obtains the user information list after secondary category division.

And S34, setting the target users in the user information list after the secondary category division and the corresponding meter reading personnel information correspondingly so as to add the corresponding meter reading authority information to the target users in batches.

It is to be understood that after the user information list is divided for 2 times by the region allocation sub-information and the category allocation sub-information, the 1 user information list is divided into a plurality of user information lists; and setting the target users in the user information list divided into a plurality of users in correspondence with the corresponding meter reader information so as to add corresponding meter reading authority information to the target users in batches.

Through the embodiment, the user information list is divided into a plurality of tables related to the target users according to regions and types, so that the tables of each target user correspond to corresponding meter reading personnel, and each target user in the tables has corresponding meter reading personnel.

S4, the server receives access information of any meter reading terminal to preset map data, and determines sub-blocks which can be selected in the preset map data and/or corresponding target users in the sub-blocks to display according to a first preset form according to meter reading authority information of the meter reading terminal.

It can be understood that after completing the configuration of the meter reading terminals, the server receives the access information of any meter reading terminal to the preset map data, and determines the sub-blocks which can be selected in the preset map data and/or the corresponding target users in the sub-blocks according to the meter reading authority information of each meter reading terminal to display according to the first preset form. The first preset form is displayed in a preset form for the corresponding subareas and buildings in the subareas according to meter reading authority information of each meter reading terminal, for example, the fences dividing the areas and the edges of the buildings can be displayed in green.

It is to be understood that after the addition of the target users to be subjected to meter reading to each meter reading terminal is completed, the server can respond to the access information of any meter reading terminal to the preset map data, and determine the corresponding sub-blocks in the preset map data according to the target users corresponding to the meter reading personnel information of different meter reading terminals, for example, the A block corresponding to the meter reading personnel A, and the edges of the industrial plants in the A block are all displayed in green.

In some embodiments, the step S4 (the server receives access information of any meter reading terminal to the preset map data, determines a sub-block that can be selected in the preset map data and/or a corresponding target user in the sub-block is displayed according to a first preset form according to meter reading authority information of the meter reading terminal), includes S41-S43:

s41, determining corresponding sub-blocks in preset map data according to meter reading authority information of a meter reading terminal, determining buildings of corresponding target users in the sub-blocks according to a user information list, and displaying outlines of the sub-blocks and building outlines according to a first preset form.

It should be noted that, after adding corresponding meter reading authority information to the target user in the user information list, each meter reading terminal has corresponding meter reading authority information.

Therefore, the server determines the corresponding sub-block in the preset map data according to the meter reading authority information of the meter reading terminal, and determines the building of the corresponding target user in the sub-block according to the user information list corresponding to the meter reading terminal. It is to be understood that each meter reading terminal corresponds to a corresponding user information list, and corresponding static information of the target user is recorded in the user information list, so that corresponding buildings and sub-blocks where the corresponding building are located can be determined.

Further, the outline of the sub-block and the building outline are displayed according to the first preset form, for example, the outline of the sub-block and the building outline may be displayed according to a green form, or may be other colors, which is not limited herein.

S42, performing preliminary locking on the images corresponding to the sub-blocks in the preset map data to obtain first image data, and obtaining the coordinate information of all the buildings of the selected target users in the first image data to obtain the relative position relationship.

It should be noted that, each meter reading terminal has a sub-block corresponding to the meter reading terminal for meter reading, so that when meter reading is performed, the whole preset map data is not required to be sent to the meter reading terminal, and only the map of the sub-block corresponding to the meter reading terminal is required to be sent to the meter reading terminal for meter reading.

It can be understood that the server determines the sub-blocks corresponding to each meter reading terminal, and performs preliminary locking on the images corresponding to the sub-blocks in the preset map data to obtain first image data, and the image data corresponding to the rest sub-blocks are not required to be transmitted.

Further, the server obtains the relative positional relationship by acquiring the coordinate information of all the buildings of the target users which can be selected in the first image data, and it is easy to understand that the server determines the coordinate information of the buildings of the first image data corresponding to the corresponding meter reading terminals, so as to obtain the relative positional relationship.

And S43, if the relative position relation meets the segmentation condition of the first image data, segmenting the first image data based on the relative position relation to obtain second image data, and displaying the second image data on the meter reading terminal.

It should be noted that, the meter reading terminal only needs to read meter of the target users of the partial buildings in the first image data, so that the meter reading terminal does not need to be displayed by displaying all the first image data in the same way, and therefore when the server judges that the position relationship of the building corresponding to the meter reading terminal meets the segmentation condition of the first image data, the server can continue to segment the first image data to obtain the second image data for displaying the meter reading terminal. For example, the meter reading terminal needs to read 3 buildings, and if the 3 buildings are all located in the lower half part of the first image data, the image of the upper half part is deleted, and the image of the lower half part is amplified to display the meter reading terminal.

It can be understood that if the relative positional relationship between the buildings satisfies the segmentation condition for the first image data, the first image data is segmented according to the relative positional relationship to obtain second image data, and the second image data is displayed on the meter reading terminal.

In some embodiments, in step S43 (if the relative positional relationship satisfies the segmentation condition for the first image data, the first image data is segmented based on the relative positional relationship to obtain second image data, and the second image data is displayed on the meter reading terminal), which includes S431-S433:

s431, obtaining the block extremum longitude and the block extremum latitude in the first image data, and the user extremum longitude and the user extremum latitude of the building of all target users, and carrying out distribution comparison on the block extremum longitude, the block extremum latitude, the user extremum longitude and the user extremum latitude to obtain four distribution comparison sets.

It can be understood that, the block extremum longitude and the block extremum latitude of the sub-block in the first image data, and the user extremum longitude and the user extremum latitude of the building of all the target users are obtained, and the block extremum longitude, the block extremum latitude, the user extremum longitude and the user extremum latitude are respectively subjected to distribution comparison to obtain four distribution comparison sets.

For example, when the meter reading terminal is required to read meter data of the 3 buildings in the lower half of the a block, the block longitude maximum value 50, the block longitude minimum value 40, the block latitude maximum value 50, the block latitude minimum value 35 corresponding to the a block, and the user longitude maximum value 49, the user longitude minimum value 45, the user latitude maximum value 40, and the user latitude minimum value 36 corresponding to the 3 buildings are obtained, and the maximum value and the minimum value of the longitude corresponding to the two are respectively allocated and compared to obtain four allocation comparison sets, so that the longitude and latitude are only illustrated for convenience in understanding.

S432, determining a longitude difference value and/or a latitude difference value in each distribution comparison set, and judging that the relative position relationship meets the segmentation condition of the first image data if any one of the longitude difference value and/or the latitude difference value is larger than a preset numerical value.

It is understood that the longitude difference value and/or the latitude difference value in each allocation comparison set are determined, and if any one of the longitude difference value and/or the latitude difference value is greater than a preset value, it is determined that the relative positional relationship satisfies the segmentation condition for the first image data. Wherein the preset value is a value preset in advance by people.

For example, the difference of the distribution ratio sets of the maximum values of the longitudes in the a blocks is 1, the difference of the distribution ratio sets of the minimum values of the longitudes is 5, the difference of the distribution ratio sets of the minimum values of the latitudes is 10, the difference of the distribution ratio sets of the minimum values of the latitudes is 1, and if the preset value is 6, the difference of the distribution ratio sets of the maximum values of the latitudes is 10, which satisfies the corresponding dividing condition, meaning that the dividing in the direction of the maximum values of the latitudes can be performed.

S433, dividing the first image data based on the longitude difference value and/or the latitude difference value to obtain second image data, and displaying the second image data on the meter reading terminal.

It can be appreciated that the invention can divide the first image data based on the longitude difference value and/or the latitude difference value to obtain the second image data, and display the second image data to the meter reading terminal.

It is easy to understand that when the building corresponding to the meter reading terminal is located in the area with the edge in the image corresponding to the subarea, that is, when the extreme value of longitude and latitude of the building is greatly different from the extreme value of the area, the first image data is segmented to obtain the second image data, so that the meter reading personnel can conveniently check the second image data.

In some embodiments, in step S433 (segmenting the first image data based on the longitude difference value and/or the latitude difference value to obtain second image data, and displaying the second image data to the meter reading terminal) includes S4331-S4333:

S4331, selecting an allocation comparison set with longitude differences and/or latitude differences larger than preset values, and selecting and determining corresponding moving directions for original longitude dividing lines and/or latitude dividing lines in the first image data according to the allocation comparison set.

It is understood that an allocation comparison set is selected, in which the longitude difference value and/or the latitude difference value is greater than a preset value, and a corresponding moving direction is selected and determined for an original longitude boundary line and/or latitude boundary line in the first image data according to the allocation comparison set.

For example, when the difference value of the distribution comparison set of the maximum latitude values is 10 and the corresponding segmentation condition is satisfied, a latitude dividing line of the block latitude maximum 50 is selected, and the moving direction is determined according to the block latitude maximum 50 to the user latitude maximum 40.

S4332, determining the moving longitude distance and/or the moving latitude distance of the longitude dividing line and/or the latitude dividing line according to the longitude difference value and/or the latitude difference value.

It should be noted that, the longitude difference value and/or the latitude difference value corresponding to the allocation comparison set is the maximum value of the phase difference, but mobile interception cannot be completed, and a part of the map needs to be reserved to facilitate observation of meter reading personnel, for example, the block latitude maximum value 50 to the user latitude maximum value 40, the phase difference is 10 degrees, at this time, the 10-degree distance in the block a is completely intercepted, and the part needs to be reserved, for example, 1 degree is reserved, and then 9 degrees is moved.

It will be appreciated that the longitude and latitude distance of movement of the longitude and/or latitude demarcation lines is determined from the longitude and/or latitude differences.

On the basis of the above embodiment, the reserved distance may be fixed, or the larger the corresponding difference between longitude and latitude distance, the larger the corresponding reserved distance.

The moving longitude distance or the moving latitude distance is obtained by the following formula,

wherein,,for a latitude or longitude of movement, +.>Is longitude difference or latitude difference, < >>To keep the distance basically->Is a preset constant value.

It will be appreciated that a longitude or latitude differenceThe greater the corresponding latitude or longitude of movement distanceSmaller, the greater the reserved distance.

S4333, moving the longitude dividing line and/or the latitude dividing line according to the corresponding moving direction based on the moving longitude distance and/or the moving latitude distance so as to divide the first image data to obtain second image data.

It will be appreciated that the present invention may move the longitude and/or latitude dividing lines in corresponding directions of movement based on the latitude and/or longitude distance of movement to segment the first image data to obtain the second image data.

For example, the map in the a block is moved from 50 to 41 with the direction of latitude 50 to 40 as the moving direction and with 9 as the moving distance, thereby completing the image division processing.

And S5, if the server selects dynamic information calculation of at least one target user according to meter reading interaction with the meter reading terminal, corresponding independent meter reading information and/or batch meter reading information are obtained.

It can be understood that if the server selects at least one target user after the meter reading interaction with the meter reading terminal, it indicates that the selected target user needs to be subjected to meter reading, and then the independent meter reading information and/or batch meter reading information is obtained by calculating according to the previous meter number of the target user and the current meter number.

It is to be understood that, at this time, the number of the table codes at the current time is different from the number of the table codes at the previous time, so as to obtain independent meter reading information and/or batch meter reading information of the user.

Referring to fig. 8, a schematic structural diagram of an intelligent meter reading system according to an embodiment of the invention is provided, where the intelligent meter reading system includes:

The present invention also provides a storage medium having stored therein a computer program for implementing the methods provided by the various embodiments described above when executed by a processor.

The storage medium may be a computer storage medium or a communication medium. Communication media includes any medium that facilitates transfer of a computer program from one place to another. Computer storage media can be any available media that can be accessed by a general purpose or special purpose computer. For example, a storage medium is coupled to the processor such the processor can read information from, and write information to, the storage medium. In the alternative, the storage medium may be integral to the processor. The processor and the storage medium may reside in an application specific integrated circuit (Application Specific Integrated Circuits, ASIC for short). In addition, the ASIC may reside in a user device. The processor and the storage medium may reside as discrete components in a communication device. The storage medium may be read-only memory (ROM), random-access memory (RAM), CD-ROMs, magnetic tape, floppy disk, optical data storage device, etc.

The present invention also provides a program product comprising execution instructions stored in a storage medium. The at least one processor of the device may read the execution instructions from the storage medium, the execution instructions being executed by the at least one processor to cause the device to implement the methods provided by the various embodiments described above.

In the above embodiments of the terminal or the server, it should be understood that the processor may be a central processing unit (english: central Processing Unit, abbreviated as CPU), or may be other general purpose processors, digital signal processors (english: digital Signal Processor, abbreviated as DSP), application specific integrated circuits (english: application Specific Integrated Circuit, abbreviated as ASIC), or the like. A general purpose processor may be a microprocessor or the processor may be any conventional processor or the like. The steps of a method disclosed in connection with the present invention may be embodied directly in a hardware processor for execution, or in a combination of hardware and software modules in a processor for execution.

Finally, it should be noted that: the above embodiments are only for illustrating the technical solution of the present invention, and not for limiting the same; although the invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some or all of the technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit of the invention.

Claims

1. The intelligent meter reading method is characterized by comprising the following steps of:

2. The intelligent meter reading method according to claim 1, wherein,

the server obtains dynamic information corresponding to the target users in real time according to static information of a foundation of each target user configuration corresponding to the water meter in preset map data according to water meter configuration data of the management end, combines the static information and the dynamic information based on a display template to obtain combined information, and the method comprises the following steps:

3. The intelligent meter reading method according to claim 2, wherein,

if the corresponding building corresponds to a plurality of target users, generating a batch information interaction table corresponding to the corresponding building, and generating user slots corresponding to the number of the plurality of target users, including:

4. The intelligent meter reading method according to claim 3, wherein,

the configuring a corresponding target user for each user slot based on the batch information interaction table, and regenerating an independent information interaction table corresponding to the target user of each user slot, receiving static information of a water meter base configured by a management end based on the independent information interaction table, including:

5. The intelligent meter reading method according to claim 4, wherein,

the server divides preset map data into a plurality of sub-blocks according to regional division data of a management end, determines a target user belonging to each sub-block according to the static information to obtain a corresponding user information list, and comprises the following steps:

6. The intelligent meter reading method according to claim 5, wherein,

the server adds corresponding meter reading authority information to the target users in each sub-block in batches according to the block authority data, the user information list and the static information of the target users of the management end, wherein the meter reading authority information is meter reading person information with meter reading authority to the target users, and the meter reading authority information comprises the following components:

7. The intelligent meter reading method according to claim 6, wherein,

the server receives access information of any meter reading terminal to preset map data, determines sub-blocks which can be selected in the preset map data and/or corresponding target users in the sub-blocks according to meter reading authority information of the meter reading terminal, and displays the sub-blocks and/or corresponding target users in the sub-blocks according to a first preset form, and comprises the following steps:

8. The intelligent meter reading method according to claim 7, wherein,

if the relative position relation satisfies the segmentation condition for the first image data, segmenting the first image data based on the relative position relation to obtain second image data, and displaying the meter reading terminal based on the second image data, wherein the method comprises the following steps:

9. The intelligent meter reading method according to claim 8, wherein,

The dividing the first image data based on the longitude difference value and/or the latitude difference value to obtain second image data, and displaying the second image data to the meter reading terminal, including:

10. Wisdom system of checking meter, its characterized in that includes: