CN116703255A - Intelligent data processing method, device, equipment and medium of water-saving carrier - Google Patents
Intelligent data processing method, device, equipment and medium of water-saving carrier Download PDFInfo
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Abstract
The invention discloses an intelligent data processing method, device, equipment and medium of a water-saving carrier, wherein the method comprises the steps of obtaining water consumption plan information and actual water consumption information of a target water-saving carrier in a target time interval, and obtaining corresponding automatic auditing information based on an automatic verification strategy; the water consumption planning information and the actual water consumption information are sent to a target expert receiving terminal for screening, and the sent expert auditing information is received; and if the result is determined to pass the verification, acquiring a water saving contribution index value corresponding to the actual water information. According to the embodiment of the invention, after the target water-saving carrier is determined, the water consumption plan information and the actual water consumption information in the target time interval can be quickly acquired, automatic auditing is carried out, and the water consumption plan information and the actual water consumption information are intelligently distributed to the target expert receiving terminal for auditing, and the water-saving contribution index value is converted based on the water-saving index in local, so that the acquisition efficiency of the water consumption data of the target water-saving carrier is improved, and the accuracy of the auditing result is improved based on an intelligent auditing mode.
Description
Technical Field
The invention relates to the technical field of energy conservation and environmental protection, in particular to an intelligent data processing method, device, equipment and medium of a water-saving carrier.
Background
The water-saving carrier is used in water-saving enterprises, units and residential communities which are identified by the water-saving carrier, and has reasonable water management, obvious water-saving benefit and the relevant standard. For example, when determining whether an enterprise is a water-saving enterprise, the enterprise to be evaluated generally transmits the collected water data to an auditing person (such as an auditing expert) for manual auditing.
When auditing personnel audit the water consumption data of the enterprise to be evaluated in a manual auditing mode, obtaining relevant auditing results and informing the enterprise. Therefore, the manual auditing mode of the water-saving carrier is not only low in acquiring efficiency of the water data to be audited, but also is easy to make mistakes when the water data is audited manually, so that auditing results with low accuracy are obtained.
Disclosure of Invention
The embodiment of the invention provides an intelligent data processing method, device, equipment and medium for a water-saving carrier, and aims to solve the problems that in the prior art, a manual auditing mode for the water-saving carrier to be evaluated is low in acquiring efficiency of water data to be audited, and auditing results with low accuracy are easily obtained due to mistakes when the water data is audited manually.
In a first aspect, an embodiment of the present invention provides an intelligent data processing method for a water-saving carrier, including:
responding to a water-saving carrier evaluation instruction, acquiring a target water-saving carrier corresponding to the water-saving carrier evaluation instruction, and acquiring a target time interval corresponding to the water-saving carrier evaluation instruction;
acquiring water consumption plan information and actual water consumption information of the target water-saving carrier in the target time interval;
acquiring automatic auditing information corresponding to the water consumption plan information and the actual water consumption information based on a preset automatic verification strategy;
the water consumption plan information and the actual water consumption information are sent to a target expert receiving terminal obtained by screening based on a preset expert screening strategy;
receiving expert audit information corresponding to the water consumption plan information and the actual water consumption information sent by the target expert receiving terminal;
and if the automatic auditing information is determined to be an auditing passing result and the expert auditing information is determined to be an auditing passing result, acquiring a corresponding water saving contribution index value based on the actual water information and a preset water saving index conversion strategy.
In a second aspect, an embodiment of the present invention further provides an intelligent data processing device of a water-saving carrier, including:
The target water-saving carrier determining unit is used for responding to the water-saving carrier evaluating instruction, acquiring a target water-saving carrier corresponding to the water-saving carrier evaluating instruction and acquiring a target time interval corresponding to the water-saving carrier evaluating instruction;
a water plan information acquisition unit for acquiring water plan information and actual water information of the target water-saving carrier in the target time interval;
the automatic auditing unit is used for acquiring automatic auditing information corresponding to the water consumption plan information and the actual water consumption information based on a preset automatic verification strategy;
the water consumption plan information sending unit is used for sending the water consumption plan information and the actual water consumption information to a target expert receiving terminal obtained by screening based on a preset expert screening strategy;
an audit information receiving unit, configured to receive expert audit information corresponding to the water usage plan information and the actual water usage information sent by the target expert receiving terminal;
and the water-saving contribution degree determining unit is used for acquiring a corresponding water-saving contribution index value based on the actual water information and a preset water-saving index conversion strategy if the automatic auditing information is determined to be an auditing passing result and the expert auditing information is determined to be an auditing passing result.
In a third aspect, an embodiment of the present invention further provides a computer device, which includes a memory and a processor, where the memory stores a computer program, and the processor implements the method described in the first aspect when executing the computer program.
In a fourth aspect, embodiments of the present invention also provide a computer readable storage medium storing a computer program comprising program instructions which, when executed by a processor, implement the method of the first aspect.
The embodiment of the invention provides an intelligent data processing method, device, equipment and medium of a water-saving carrier, wherein the method comprises the following steps: acquiring a target water-saving carrier corresponding to the water-saving carrier evaluation instruction, and acquiring a corresponding target time interval; acquiring water consumption plan information and actual water consumption information of a target water-saving carrier in a target time interval; acquiring automatic auditing information corresponding to water use plan information and actual water use information based on an automatic verification strategy; the water consumption plan information and the actual water consumption information are sent to a target expert receiving terminal which is obtained by screening based on a preset expert screening strategy; receiving expert audit information corresponding to water use plan information and actual water use information sent by a target expert receiving terminal; if the result is determined to pass the verification, acquiring a corresponding water saving contribution index value based on the actual water information and a preset water saving index conversion strategy. According to the embodiment of the invention, after the target water-saving carrier is determined, the water consumption plan information and the actual water consumption information in the target time interval can be quickly acquired, automatic auditing is carried out, and the water consumption plan information and the actual water consumption information are intelligently distributed to the target expert receiving terminal for auditing, and the water-saving contribution index value is converted based on the water-saving index in local, so that the acquisition efficiency of the water consumption data of the target water-saving carrier is improved, and the accuracy of the auditing result is improved based on an intelligent auditing mode.
Drawings
In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings required for the description of the embodiments will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.
Fig. 1 is a schematic diagram of an application scenario of an intelligent data processing method of a water-saving carrier according to an embodiment of the present invention;
fig. 2 is a schematic flow chart of an intelligent data processing method of a water-saving carrier according to an embodiment of the present invention;
FIG. 3 is a schematic sub-flowchart of an intelligent data processing method of a water-saving carrier according to an embodiment of the present invention;
FIG. 4 is a schematic diagram of another sub-flow of the intelligent data processing method of the water-saving carrier according to the embodiment of the present invention;
FIG. 5 is a schematic diagram of another sub-flow of the intelligent data processing method of the water-saving carrier according to the embodiment of the present invention;
FIG. 6 is a schematic block diagram of an intelligent data processing device of a water-saving carrier provided by an embodiment of the present invention;
fig. 7 is a schematic block diagram of a computer device according to an embodiment of the present invention.
Detailed Description
The following description of the embodiments of the present invention will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are some, but not all embodiments of the invention. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.
It should be understood that the terms "comprises" and "comprising," when used in this specification and the appended claims, specify the presence of stated features, integers, steps, operations, elements, and/or components, but do not preclude the presence or addition of one or more other features, integers, steps, operations, elements, components, and/or groups thereof.
It is also to be understood that the terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used in this specification and the appended claims, the singular forms "a," "an," and "the" are intended to include the plural forms as well, unless the context clearly indicates otherwise.
It should be further understood that the term "and/or" as used in the present specification and the appended claims refers to any and all possible combinations of one or more of the associated listed items, and includes such combinations.
The embodiment of the invention provides an intelligent data processing method, device, equipment and medium of a water-saving carrier. The intelligent data processing method of the water-saving carrier in the embodiment of the invention is applied to a server, wherein one or more processors, a memory and one or more application programs are arranged in the server, and the one or more application programs are stored in the memory and are configured to be executed by the processor to realize the intelligent data processing method of the water-saving carrier.
As shown in fig. 1, fig. 1 is a schematic diagram of a scenario of an intelligent data processing method of a water-saving carrier according to an embodiment of the present invention, where the scenario of intelligent data processing of a water-saving carrier in an embodiment of the present invention includes a server 10, an expert receiving terminal 20, and an intelligent water meter 30, where an intelligent data processing device of a water-saving carrier is integrated in the server 10, and a storage medium corresponding to the intelligent data processing method of a water-saving carrier is operated to execute steps of the intelligent data processing method of a water-saving carrier.
It should be understood that, the server 10 in the specific application scenario of the intelligent data processing method of the water-saving carrier shown in fig. 1, or the device included in the server 10, is not limited to the embodiment of the present invention, that is, the number of devices and the type of devices included in the specific application scenario of the intelligent data processing method of the water-saving carrier, or the number of devices and the type of devices included in each device do not affect the overall implementation of the technical solution in the embodiment of the present invention, and all the devices and the types of devices may be calculated as equivalent substitutions or derivatives of the technical solution claimed in the embodiment of the present invention.
It will be understood by those skilled in the art that the application environment shown in fig. 1 is merely an application scenario of the present invention, and is not limited to the application scenario of the present invention, and other application environments may further include more or fewer servers 10 than those shown in fig. 1, or network connection relationships of the servers 10, for example, only 1 server 10 is shown in fig. 1, and it is understood that a specific application scenario of the intelligent data processing method of the water-saving carrier may further include one or more servers 10, which is not limited herein; memory may also be included in the server 10.
Fig. 2 is a flow chart of an intelligent data processing method of a water-saving carrier according to an embodiment of the present application. As shown in fig. 2, the method includes the following steps S110 to S160.
S110, responding to a water-saving carrier evaluation instruction, acquiring a target water-saving carrier corresponding to the water-saving carrier evaluation instruction, and acquiring a target time interval corresponding to the water-saving carrier evaluation instruction.
In this embodiment, the technical scheme is described by using a server as an execution body. Moreover, the intelligent data processing platform of the water-saving carrier is deployed in the server, and technologies such as the Internet of things, big data, cloud computing analysis and the like are adopted. When the server needs to start the task of evaluating the water-saving carrier, the stored water-saving carrier set (including a plurality of water-saving carrier names to be audited in the water-saving carrier set, and each water-saving carrier name has a corresponding water-saving carrier intelligent terminal in communication with the server, for example, the water-saving carrier intelligent terminal at least includes an intelligent water meter and a water-saving carrier user terminal, wherein the water-saving carrier user terminal can be understood as a user server used by a water-saving carrier user), and the water-saving carrier name list corresponding to the water-saving carrier set is displayed on a display interface corresponding to the server. The water-saving carrier set comprises a plurality of water-saving carrier names to be audited, and at least two types of water-saving carriers are adopted, wherein one water-saving carrier is an existing historical water-saving carrier (namely, the water-saving carrier which is subjected to water-saving carrier evaluation at least once), and the other water-saving carrier is a newly added water-saving carrier (namely, the water-saving carrier which is not subjected to any water-saving carrier evaluation before). However, the method of the application can be used for automatic evaluation no matter whether the water-saving carrier belongs to the existing historical water-saving carrier or the newly added water-saving carrier.
When an operator of the server selects one water-saving carrier name in the water-saving carrier name list, a water-saving carrier evaluation instruction is correspondingly generated, and the selected water-saving carrier name is used as a target water-saving carrier. At this time, the target water-saving carrier is the target object for the server to evaluate the qualification of the water-saving carrier. In order to obtain the evaluation result more accurately and objectively, the water-saving carrier evaluation instruction is required to correspondingly determine a target time interval, and water consumption data of the target water-saving carrier in the target time interval is used as the data base of the evaluation.
Of course, the display of the water-saving carrier name list corresponding to the water-saving carrier set on the display interface corresponding to the server may also be implemented in other manners instead of the operator selecting one water-saving carrier name in the water-saving carrier name list. For example, based on the preset water-saving carrier name priority list stored in the server, the water-saving carrier name with the highest priority in the water-saving carrier name priority list is acquired and triggered to generate a water-saving carrier assessment instruction. And then, correspondingly determining a target time interval by the water-saving carrier evaluation instruction, and taking water data of the target water-saving carrier in the target time interval as an evaluation data base.
Wherein, in order to better understand the intelligent data processing platform of the water-saving carrier deployed in the server, the following description will explain other functions besides checking the water-saving carrier data.
1) The intelligent data processing platform of the water-saving carrier can be understood as a comprehensive preview platform, and the comprehensive statistical analysis can be carried out on the construction conditions of the water-saving carrier such as the total number, the distribution area, the water-saving rate, the coverage rate or the build rate of the water-saving carrier; various information and data of the water-saving carrier can be displayed through various charts; for example, the total number of the water-saving carriers and the distribution area are displayed in a digital distribution map mode;
2) The intelligent data processing platform of the water-saving carrier can be understood as a big data platform, namely a big database, and can carry out statistical inquiry on the stored user basic information, the annual water consumption data, the planned water consumption condition, the major water consumption structure change condition and the water balance test condition of each water-saving carrier; the information of the water-saving carrier can also be queried and counted based on the entered query conditions (such as the name, type, district, time or other combination conditions of the water-saving carrier).
3) The intelligent data processing platform of the water-saving carrier can be understood as an information release and data management platform, such as releasing a plurality of edited business information related to the water-saving carrier, for example, regulation policies, water administration documents, administrative approval processes and the like; the system can be used for publishing government affair service information (such as publishing of legal policies, publishing of real-time monitoring data for popularization of water affair safety knowledge, and the like); files of relevant regulation policies, standard specifications and the like for water saving can be collected and tidied and stored into a platform for reference to a relevant knowledge base at any time; the method can automatically generate the file for each water-saving carrier data, automatically perform format arrangement, and automatically archive all the data and documents.
When a user with management authority logs in the intelligent data processing platform of the water-saving carrier, the method can support the importing, checking, adding and confirming of basic information, water data and calculation results of each water-saving carrier in a general format; the method also supports batch uploading or downloading of the data of the water-saving carrier, and performs content export and distribution according to the data type and the user requirement; and the system also supports each water supply enterprise to import and edit the water quantity data of each water-saving carrier, and feed back and modify the information such as the change of the name of the water account opening, the change of the number of the user and the like.
In one embodiment, as shown in fig. 3, step S110 includes:
s111, acquiring a water-saving carrier name in the water-saving carrier evaluation instruction to determine the target water-saving carrier;
s112, acquiring an instruction generation date and a duration to be evaluated corresponding to the water-saving carrier evaluation instruction, and determining the target time interval according to the instruction generation date and the duration to be evaluated; the target time interval takes the date corresponding to the instruction generation date minus the time to be evaluated as the starting time of the target time interval, and takes the last month of the instruction generation date as the ending time of the target time interval.
In this embodiment, after the water-saving carrier evaluation instruction is detected in the server, a water-saving carrier name carried in the water-saving carrier evaluation instruction needs to be acquired, and a target water-saving carrier is determined correspondingly by the water-saving carrier name. After the determination of the target water-saving carrier is completed, the instruction generation date and the time length to be evaluated corresponding to the water-saving carrier evaluation instruction can be determined, and the target time interval is determined according to the instruction generation date and the time length to be evaluated.
For example, the instruction generation date corresponding to the water-saving carrier evaluation instruction is 20XX years, 1 month and 1 day, and the time to be evaluated is 1 year, then the date corresponding to the instruction generation date minus the time to be evaluated is 20XX-1 years, 1 month and 1 day, and the date corresponding to the last month of the 20XX years, 1 month and 1 day is 20XX-1 years, 12 months and 30 days. At this time, the last year of the complete natural year of 1 month 1 day of 20XX is taken as the target time zone. Therefore, the automatic and rapid acquisition of the target water-saving carrier and the target time interval is realized based on the mode.
S120, acquiring water consumption plan information and actual water consumption information of the target water-saving carrier in the target time interval.
In this embodiment, after the target water-saving carrier and the target time interval are determined in the server, the water consumption plan information and the actual water consumption information of the target water-saving carrier in the target time interval are obtained in the local database.
For example, in a local database, water plan information such as total estimated annual water consumption Y1 ton (where Y1 is a positive number) for 20XX-1 years, estimated average annual water consumption Y2 ton (where Y2 is a positive number) for 20XX-1 years, and the like are stored for the target water-saving vehicle. Similarly, the server collects the actual water consumption data of the target water-saving carrier in a month or a day, so that the server can also obtain the actual water consumption information of the target water-saving carrier in the target time interval.
The actual water consumption information of the target water-saving carrier comprises actual water consumption data, water consumption quota information (specifically, the water consumption quota information is determined by acquiring information such as actual water consumption, water consumption number data, evidence materials and the like), water consumption appliances (acquired through a water consumption appliance statistical table, water efficiency evidence, a product specification and the like), and taking compliance of a hydration method (determined by verifying whether water intake license and promise letter exist or not).
In addition, the water consumption plan information, the actual water consumption information and the corresponding other related information of each water-saving carrier stored in the server can be updated by the corresponding water-saving carrier (wherein, in order to ensure the safety of the water-saving carrier data in the server, each time, the information updating process of the water-saving carrier can store a modification record, thereby being convenient for backtracking the data changing process of the water-saving carrier).
In one embodiment, step S120 further includes:
generating a target water data acquisition instruction based on the target time interval, and sending the target water data acquisition instruction to a target intelligent water meter;
step S120 includes:
receiving actual water consumption information and water consumption plan information which are sent by the target intelligent water meter and are in the target time interval;
or receiving the actual water consumption information in the target time interval sent by the target intelligent water meter, and acquiring the water consumption plan information corresponding to the target water-saving carrier in a local database.
In this embodiment, intelligent water meters are deployed in the areas where each water-saving carrier belongs. The intelligent water meter is a water meter for monitoring the water consumption of the water-saving carrier and reporting the water consumption to the Internet of things server, and at least comprises a water meter, a flowmeter arranged on the water meter and a narrow-band Internet of things communication module (namely an NB-IoT communication module). When the server needs to acquire the real water consumption condition of the target water-saving carrier, a target water consumption data acquisition instruction can be generated based on the target time interval, and the target water consumption data acquisition instruction is sent to a target intelligent water meter corresponding to the target water-saving carrier so as to acquire water consumption plan information and real water consumption information of the target water-saving carrier in the target time interval.
And after the target intelligent water meter receives the target water consumption data acquisition instruction, at least acquiring actual water consumption information stored in a memory in the intelligent water meter, and then transmitting the actual water consumption information in the target time interval, which is transmitted by the target intelligent water meter, to a server. If the water consumption plan information is not stored in the memory of the intelligent water meter, the server can directly acquire the water consumption plan information corresponding to the target water-saving carrier in a local database. Therefore, the water consumption plan information and the actual water consumption information of the target water-saving carrier in the target time interval can be timely obtained based on the mode. Of course, in addition to the water consumption plan information and the actual water consumption information of the water saving vehicle, other relevant information corresponding to the water saving vehicle, such as water usage quota information, water usage appliances, and compliance of the taking hydration method, is stored in the local database of the server.
S130, acquiring automatic auditing information corresponding to the water consumption plan information and the actual water consumption information based on a preset automatic verification strategy.
In this embodiment, after the server obtains the water consumption plan information and the actual water consumption information of the target water-saving carrier, the server automatically checks the water consumption plan information and the actual water consumption information of the target water-saving carrier based on an automatic check policy preset and stored locally by the server, so as to obtain automatic check information.
Specifically, in the present application, the types of water-saving carriers of the water-saving carriers are classified into at least the following nine types: water-saving industrial enterprises, water-saving industrial parks, water-saving residential communities, water-saving institutions, water-saving schools, water-saving parks, water-saving hotels (hotels), water-saving hospitals and water-saving business complexes. After the target water-saving carrier type of the target water-saving carrier is determined, the water consumption plan information and the actual water consumption information of the target water-saving carrier can be automatically checked based on an automatic check sub-strategy corresponding to the target water-saving carrier type in the automatic check strategy, and the automatic audit information is obtained.
For example, the water-saving industrial enterprise is exemplified by the target water-saving carrier type for determining the target water-saving carrier. At this time, the water-saving industrial enterprise corresponds to the first automatic check sub-strategy in the automatic check strategies. In the first automatic verification sub-strategy, the water consumption plan information, the actual water consumption information and other related data of the target water-saving carrier are required to be automatically verified, so that water-saving technical index data (also can be understood as water-saving technical index scores), water-saving management index data (also can be understood as water-saving management index scores), incentive index data (also can be understood as incentive index scores) and deduction index data (also can be understood as deduction scores) corresponding to the actual water consumption data of the target water-saving carrier are obtained. After the water saving technical index data, the water saving management index data, the excitation index data and the deduction index data of the target water saving carrier are obtained, the automatic auditing information of the target water saving carrier can be comprehensively obtained.
More specifically, the specific automatic auditing process of the water plan information and the actual water consumption information for the target water-saving carrier of the water-saving industrial enterprise type based on the first automatic checking sub-strategy is as follows:
a1 Acquiring basic information such as water usage rating information, water balance test results, whether a water usage payment mode is adopted, whether water usage is oversprayed, a water usage appliance, a water usage management mode, whether reuse water is safe, hydration method compliance and the like of the target water-saving carrier based on the water usage plan information and the actual water usage information of the target water-saving carrier, and if each piece of information included in the basic information meets preset index requirements, the basic information of the target water-saving carrier is considered to pass automatic auditing;
a2 On the premise that basic information of the target water-saving carrier passes automatic auditing, obtaining unit product water intake (obtained by calculation of total water intake/product yield in the production process), industrial water reuse rate (obtained by calculation of industrial water reuse amount/(industrial water intake+industrial reuse water intake) ×100%, water meter metering rate (obtained by calculation of sum of secondary water meter metering rate=primary water meter metering water amount×100%), indirect cooling water circulation rate (obtained by calculation of indirect cooling water circulation amount/(indirect cooling water circulation amount+indirect cooling water circulation system water supply amount)), water comprehensive leakage rate (obtained by calculation of leakage/water intake×100%), water yield increment rate (obtained by calculation of (last ten thousand-year ten-thousand-year water yield)/last ten-year ten-thousand-year water yield×100%), boiler condensate (obtained by calculation of recovery/recoverable amount×100%), and obtaining corresponding target condensate water values based on a first automatic check policy;
a3 After determining the water-saving technical index data of the target water-saving carrier, identifying whether the water-saving regulation system file, the metering analysis data (mainly comprising a water supply and drainage pipe network diagram, a metering network diagram and the like), a maintenance management file, a water-saving technology application management file (mainly comprising water-saving technology reconstruction data) and a water-saving propaganda file of the target water-saving carrier are empty files, so as to obtain evaluation values corresponding to the indexes, and summing the evaluation values corresponding to the indexes to obtain the water-saving management index data; for example, if one of the water saving regulation system file, the metering analysis data, the maintenance management file, the water saving technology application management file and the water saving propaganda file is empty file or empty data, the evaluation value of the corresponding item is 0; however, all items in the water-saving regulation system file, the metering analysis data, the maintenance management file, the water-saving technology application management file and the water-saving propaganda file are not empty files and empty data, and after the evaluation values corresponding to the indexes are obtained based on the first automatic check sub-strategy, the water-saving management index data of the target water-saving carrier is obtained by summation;
a4 Based on the first automatic check sub-strategy, whether the target water-saving carrier is utilized by unconventional water resources and process water, whether a water intelligent monitoring system is adopted, whether the target water-saving carrier is applied in a contract water-saving management mode, whether pipe network transformation and other indexes are automatically checked to obtain evaluation values corresponding to the indexes, and then the evaluation values are summed to obtain excitation index data of the target water-saving carrier;
a5 Whether the target water-saving carrier exceeds the planned water, whether the landscape water with a specified source (such as the landscape water with municipal tap water, underground well water and the like) is adopted, whether the water pressure exceeds a preset water pressure threshold, whether an overflow alarm device is adopted, and whether a circulating water mode is adopted for automatic checking to obtain evaluation values corresponding to the indexes, and then the evaluation values are summed to obtain deduction index data of the target water-saving carrier;
a6 The automatic auditing information of the target water-saving carrier is determined based on a summation formula corresponding to the first automatic checking sub-strategy, namely, the automatic auditing information of the water-saving carrier=water-saving technical index data+water-saving management index data+excitation index data-withholding index data.
Of course, the above example is only described by taking a water-saving industrial enterprise as an example, and the automatic auditing process of the other eight types of water-saving carriers is similar to that of the water-saving industrial enterprise type water-saving carriers, but only a part of indexes are finely tuned. Therefore, based on the mode, the intelligent automatic auditing of the information of the target water-saving carrier in the server is realized.
And S140, the water consumption plan information and the actual water consumption information are sent to a target expert receiving terminal obtained through screening based on a preset expert screening strategy.
In this embodiment, in order to enable a more specialized expert in the field to evaluate and audit the water consumption plan information and the actual water consumption information of the target water-saving carrier, the water consumption plan information and the actual water consumption information may be sent to a target expert receiving terminal obtained by screening based on a preset expert screening policy. The target expert receiving terminal can at least have two auditing modes when receiving the water consumption plan information and the actual water consumption information, one is based on a water consumption data expert auditing strategy stored in the target expert receiving terminal to conduct intelligent automatic auditing, and the other is that the target expert receiving terminal checks and audits manually after receiving the water consumption plan information and the actual water consumption information. But can obtain corresponding audit information no matter automatic audit or manual audit.
In one embodiment, as shown in fig. 4, step S140 includes:
s141, acquiring a target area and a target water-saving carrier type of the target water-saving carrier;
s142, acquiring a plurality of candidate expert receiving terminals which are the same as the target water-saving carrier in type and do not belong to the target area;
S143, determining a target expert receiving terminal from the candidate expert receiving terminals based on the preset expert screening strategy.
In this embodiment, in order to quickly determine a target expert receiving terminal corresponding to the target water-saving carrier, a target area to which the geographic position of the target water-saving carrier belongs and a target water-saving carrier type are acquired in a server, for example, the geographic position of the target water-saving carrier is in the city B area C street D number and the target water-saving carrier type of the target water-saving carrier is a new energy vehicle manufacturer type (the new energy vehicle manufacturer type is one of the types belonging to water-saving industrial enterprises). And then, a plurality of candidate expert receiving terminals which are the same as the target water-saving carrier in type and do not belong to the target area are acquired in an expert database of the server, wherein each expert receiving terminal in the expert database corresponds to at least one expert good and good field label, and an expert person corresponding to each expert receiving terminal is also provided with a long residence address. And finally, selecting at least one candidate expert receiving terminal from a plurality of candidate expert receiving terminals obtained through initial screening as the target expert receiving terminal.
For example, among the plurality of candidate expert reception terminals, each candidate expert reception terminal corresponds to a status tag indicating whether it is idle in the last month, and any candidate expert reception terminal in the idle status may be selected as the target expert reception terminal. The preset expert screening strategy is used for selecting any candidate expert receiving terminal in an idle state from a plurality of candidate expert receiving terminals as the target expert receiving terminal. Of course, the preset expert screening policy in the server may correspond to an instant voting policy, and a candidate expert receiving terminal with the highest vote is selected as the target expert receiving terminal for a plurality of candidate expert receiving terminals in a short time (for example, within one minute of the server acquiring the water plan information and the actual water information) based on the instant voting policy. Therefore, the determination of the target expert receiving terminal can be rapidly realized based on the mode, and the water consumption plan information and the actual water consumption information can be timely forwarded to the target expert receiving terminal.
Of course, step S142 may be alternatively performed: and acquiring a plurality of candidate expert receiving terminals which are the same as the target water-saving carrier type and belong to the target area. And selecting the expert receiving terminal of which the long residence address of the expert personnel corresponding to the expert receiving terminal and the target water-saving carrier belong to the same target area (such as all belong to the A city B region) as a candidate expert receiving terminal. However, no matter what way the candidate expert receiving terminal is determined, the candidate expert receiving terminal can be rapidly determined for the subsequent expert auditing process. Moreover, the expert receiving terminal information stored in the expert database in the server can be updated periodically or the expert receiving terminal information can be triggered to be updated at any time.
And S150, receiving expert audit information corresponding to the water use plan information and the actual water use information, which is sent by the target expert receiving terminal.
In this embodiment, when the target expert receiving terminal completes the expert review and audit of the water consumption plan information and the actual water consumption information, the target expert receiving terminal obtains audit information to indicate an audit result, and the target expert receiving terminal sends the audit information to the server to inform the server that the audit of the target water-saving carrier is completed.
The automatic audit information corresponding to the target water-saving carrier can be regarded as a primary audit result, the expert audit information corresponding to the target water-saving carrier can be regarded as a secondary audit result, and if the two audit information are integrated, the obtained automatic audit information and the home audit information are integrated (for example, the automatic audit information is integrated in a weighted summation form of 40% + expert audit information is integrated by 60%), so that the integrated audit information of the target water-saving carrier can be obtained.
And S160, if the automatic auditing information is determined to be an auditing passing result and the expert auditing information is determined to be an auditing passing result, acquiring a corresponding water saving contribution index value based on the actual water consumption information and a preset water saving index conversion strategy.
In this embodiment, after the server obtains the automatic audit information and receives the expert audit information sent by the target expert receiving terminal, it needs to further determine whether the automatic audit information and the expert audit information correspond to an audit passing result or an audit failing result. When the automatic auditing information is determined to be an auditing passing result and the expert auditing information is determined to be an auditing passing result, a water saving index conversion strategy locally stored by a server can be obtained, and a water saving contribution index value corresponding to the actual water information is determined based on the water saving index conversion strategy. Moreover, the water-saving contribution degree generated by the actual water consumption condition of the target water-saving carrier in the target time interval can be represented by the water-saving contribution index value, and is similar to the energy-saving and emission-reduction contribution degree generated by carbon emission reduction.
In one embodiment, as shown in fig. 5, step S160 includes:
s161, acquiring difference information between the actual water consumption in the actual water consumption information and the planned water consumption in the water consumption plan information so as to determine an initial value of the water saving quantity;
s162, determining a target value interval to which the water saving quantity initial value belongs in a plurality of value intervals corresponding to the water saving index conversion strategy, and determining the water saving contribution index value corresponding to the actual water consumption information based on a water saving index conversion sub-strategy corresponding to the target value interval.
In this embodiment, the water usage plan information obtained by the server for the target water-saving carrier is still referred to the above example, and may be estimated total annual water usage Y1 ton for 20XX-1 year, and estimated average water usage Y2 ton for 20XX-1 year per month. And the actual monthly water consumption of the target water-saving carrier can be analyzed whether Y2 tons exceeding the quota or Y1 tons exceeding the quota can be analyzed for the total annual water consumption of the target water-saving carrier. When the monthly actual water consumption of the target water-saving carrier reaches Y2X 80% and does not exceed Y2X 90%, the target water-saving carrier is subjected to initial prompt of exceeding the actual water consumption; when the monthly actual water consumption of the target water-saving carrier reaches Y2X 90% and does not exceed Y2, carrying out pre-standard exceeding early warning prompt on the actual water consumption of the target water-saving carrier; when the monthly actual water consumption of the target water-saving carrier reaches Y2, carrying out an out-standard exceeding alarm prompt on the actual water consumption of the target water-saving carrier; when the monthly actual water consumption of the target water-saving carrier reaches Y2 and does not exceed Y2 multiplied by 110%, carrying out secondary warning prompt of exceeding of the actual water consumption of the target water-saving carrier; and when the monthly actual water consumption of the target water-saving carrier exceeds Y2X 110%, carrying out three warning prompts of exceeding the actual water consumption of the target water-saving carrier. Through the various prompts aiming at the target water-saving carrier, the user can be prompted to monitor water consumption in time, and the user is reminded to check the water consumption process and the rationality of water consumption equipment.
After the actual water usage information of the target water saving carrier and the water usage plan information are known in the server, the two may be compared to determine difference information between the two, thereby determining the initial value of the water saving amount. For example, if the actual water consumption information is that the average monthly water consumption is Y2 tons and the actual annual water consumption of nature is Y1 ton, the difference between the actual annual water consumption of nature Y1 ton and the estimated annual water consumption of annual energy Y1 ton set in the water consumption plan information determines the first difference information Y1-Y1, and the difference between the average monthly water consumption of Y2 tons and the estimated monthly average water consumption of Y2 tons determines the second difference information Y2-Y2. And forming a water saving quantity initial value through the first difference information and the second difference information, then determining a target value interval to which the water saving quantity initial value belongs in a plurality of value intervals corresponding to the water saving index conversion strategy, and determining the water saving contribution index value corresponding to the actual water consumption information based on a water saving index conversion sub-strategy corresponding to the target value interval.
For example, if two difference information included in one value interval is the same as the first difference information and the second difference information in the initial value of the water saving amount, the value interval is taken as a target value interval, and a water saving index conversion sub-strategy corresponding to the target value interval is taken as a target sub-strategy for calculating the water saving contribution index value corresponding to the actual water consumption information. And different water-saving conversion sub-strategies are set for different value intervals, so that different water-saving contribution degrees corresponding to different water-saving amounts are fully considered, and the water-saving contribution index value corresponding to the actual water use information is determined simply and linearly.
In an embodiment, step S160 further includes:
if the local node state is determined to be the alliance blockchain node state, the water saving contribution index value is sent to other blockchain nodes in the alliance blockchain;
and if the local node state is determined to be the private blockchain node state, transmitting the water saving contribution index value to a central blockchain node in the private blockchain.
In this embodiment, the server may also act as a blockchain node in the blockchain to ensure non-tamper-resistance of the data stored therein. For example, when a server acts as one blockchain node in a federated chain, the water conservation contribution index value of a target water conservation vector may be sent to other blockchain nodes in the federated blockchain, enabling declaration of the water conservation contribution index value, and other blockchain nodes enabling billing of data. In the alliance chain, the block chain nodes corresponding to the water-saving index trading center can be further included, so that the water-saving contribution index values corresponding to the water-saving carriers can be used as important reference data for water-saving index trading by the water-saving index trading center, and the important reference data are similar to a trading mode aiming at carbon emission indexes in the carbon emission index trading center.
For example, when the server is used as one blockchain node of the private chain, the blockchain node corresponding to the central blockchain node of the private chain, that is, the water-saving index transaction center, may be determined first, and then the server sends the water-saving contribution index value to the central blockchain node in the private blockchain. Thus, the water-saving contribution index value corresponding to each water-saving carrier can be used as important reference data for water-saving index trading in the water-saving index trading center, and the important reference data is similar to the trading mode aiming at the carbon emission index in the carbon emission index trading center. Therefore, whether the alliance chain or the private chain is adopted, declaration and accounting can be carried out in the blockchain aiming at the water-saving contribution index value, the whole process is recorded and can not be tampered, and the higher data security is realized.
In one embodiment, step S110 further includes:
if the record application information of the water-saving carrier is detected, checking the record application information based on a preset checking strategy to obtain a record information checking result;
if the record information verification result is determined to be a verification passing result, storing the water-saving carrier information corresponding to the record application information of the water-saving carrier in a local water-saving carrier record database;
And if the recorded information verification result is determined to be a verification failure result, transmitting modification suggestion information corresponding to the recorded application information of the water-saving carrier to a receiving terminal corresponding to the water-saving carrier.
In this embodiment, when a plurality of pieces of water-saving carrier information passing the audit are stored in advance in the server, it is also necessary to receive the record application information sent by the water-saving carrier to be recorded before, for example, at least including the name of the water-saving carrier, the enterprise type of the water-saving carrier, the historical water consumption plan information of the water-saving carrier, the historical water consumption information of the water-saving carrier, and the like. And after receiving the filing application information of the water-saving carrier, the server verifies the filing application information based on the verification strategy to obtain a filing information verification result. For example, the verification policy is used for verifying the correctness and the completeness of the data of the record application information, and when the name of the water-saving carrier and the enterprise type of the water-saving carrier in the record application information sent by the water-saving carrier to be recorded are correct and are not null data, a verification result corresponding to the verification passing result can be obtained; when the water-saving carrier name and the water-saving carrier enterprise type in the record application information sent by the water-saving carrier to be recorded have incorrect or null data, a verification result corresponding to the verification failure result can be obtained.
And if the verification result of the record information is a verification passing result, the record information verification of the to-be-recorded water-saving carrier is passed, and particularly, the water-saving carrier information corresponding to the record application information of the water-saving carrier is stored in a local water-saving carrier record database. If the verification result of the record information is a verification failing result, the record information verification of the water-saving carrier to be recorded is failed, and particularly, the modification suggestion information corresponding to the record application information of the water-saving carrier is sent to a receiving terminal corresponding to the water-saving carrier. And then, after the modification advice information is referred to, the receiving terminal corresponding to the water-saving carrier is sent to the server again for auditing until the auditing passes, and the auditing is stored in a local water-saving carrier record database.
Therefore, the embodiment of the method can quickly acquire the water plan information and the actual water information in the target time interval after the target water-saving carrier is determined, automatically audit and intelligently distribute the water plan information and the actual water information to the target expert receiving terminal for audit, and further locally convert the strategy water-saving contribution index value based on the water-saving index, so that the acquisition efficiency of the water data of the target water-saving carrier is improved, and the accuracy of the audit result is improved based on an intelligent audit mode.
Fig. 6 is a schematic block diagram of an intelligent data processing device of a water-saving carrier according to an embodiment of the present invention. As shown in fig. 6, the present invention also provides an intelligent data processing apparatus 100 for a water saving carrier, corresponding to the above intelligent data processing method for a water saving carrier. The intelligent data processing device 100 of the water saving carrier includes a unit for performing the intelligent data processing method of the water saving carrier described above. Referring to fig. 6, the intelligent data processing device 100 of the water-saving carrier includes: a target water saving carrier determining unit 110, a water usage plan information acquiring unit 120, an automatic auditing unit 130, a water usage plan information transmitting unit 140, an auditing information receiving unit 150, and a water saving contribution determining unit 160.
A target water-saving carrier determining unit 110, configured to obtain a target water-saving carrier corresponding to a water-saving carrier evaluation instruction in response to the water-saving carrier evaluation instruction, and obtain a target time interval corresponding to the water-saving carrier evaluation instruction;
a water plan information acquiring unit 120 for acquiring water plan information and actual water information of the target water-saving carrier in the target time interval;
an automatic auditing unit 130, configured to obtain automatic auditing information corresponding to the water usage plan information and the actual water usage information based on a preset automatic verification policy;
A water usage plan information transmitting unit 140, configured to transmit the water usage plan information and the actual water usage information to a target expert receiving terminal obtained by screening based on a preset expert screening policy;
an audit information receiving unit 150, configured to receive expert audit information corresponding to the water usage plan information and the actual water usage information, which is sent by the target expert receiving terminal;
the water saving contribution degree determining unit 160 is configured to obtain a corresponding water saving contribution index value based on the actual water consumption information and a preset water saving index conversion policy if the automatic audit information is determined to be an audit passing result and the expert audit information is determined to be an audit passing result.
Therefore, the embodiment of the device can quickly acquire the water plan information and the actual water information in the target time interval after the target water-saving carrier is determined, automatically audit and intelligently distribute the water plan information and the actual water information to the target expert receiving terminal for audit, and further locally convert the strategy water-saving contribution index value based on the water-saving index, so that the acquisition efficiency of the water data of the target water-saving carrier is improved, and the accuracy of the audit result is improved based on an intelligent audit mode.
It should be noted that, as those skilled in the art can clearly understand, the specific implementation process of the intelligent data processing device and each unit of the above water-saving carrier may refer to the corresponding description in the foregoing method embodiment, and for convenience and brevity of description, the description is omitted here.
The intelligent data processing means of the above-described water-saving carrier may be implemented in the form of a computer program which can be run on a computer device as shown in fig. 7.
Referring to fig. 7, fig. 7 is a schematic block diagram of a computer device according to an embodiment of the present invention. The computer device 400 integrates any of the intelligent data processing apparatus of the water-saving carrier provided by the embodiment of the invention.
With reference to fig. 7, the computer device 400 includes a processor 402, a memory and a network interface 405 connected by a system bus 401, wherein the memory may include a storage medium 403 and an internal memory 404.
The storage medium 403 may store an operating system 4031 and a computer program 4032. The computer program 4032 includes program instructions that, when executed, cause the processor 402 to perform an intelligent data processing method of a water conservation carrier.
The processor 402 is used to provide computing and control capabilities to support the operation of the overall computer device 400.
The internal memory 404 provides an environment for the execution of the computer program 4032 in the storage medium 403, which computer program 4032, when executed by the processor 402, causes the processor 402 to perform the intelligent data processing method of the water saving carrier described above.
The network interface 405 is used for network communication with other devices. It will be appreciated by those skilled in the art that the structure shown in FIG. 7 is merely a block diagram of some of the structures associated with the present inventive arrangements and is not limiting of the computer device to which the present inventive arrangements may be applied, and that a particular computer device may include more or fewer components than shown, or may combine some of the components, or have a different arrangement of components.
Wherein the processor 402 is configured to execute a computer program 4032 stored in the memory to implement the steps of:
responding to a water-saving carrier evaluation instruction, acquiring a target water-saving carrier corresponding to the water-saving carrier evaluation instruction, and acquiring a target time interval corresponding to the water-saving carrier evaluation instruction;
acquiring water consumption plan information and actual water consumption information of the target water-saving carrier in the target time interval;
Acquiring automatic auditing information corresponding to the water consumption plan information and the actual water consumption information based on a preset automatic verification strategy;
the water consumption plan information and the actual water consumption information are sent to a target expert receiving terminal obtained by screening based on a preset expert screening strategy;
receiving expert audit information corresponding to the water consumption plan information and the actual water consumption information sent by the target expert receiving terminal;
and if the automatic auditing information is determined to be an auditing passing result and the expert auditing information is determined to be an auditing passing result, acquiring a corresponding water saving contribution index value based on the actual water information and a preset water saving index conversion strategy.
It should be appreciated that in embodiments of the present invention, the processor 402 may be a central processing unit (Central Processing Unit, CPU), the processor 402 may also be other general purpose processors, digital signal processors (Digital Signal Processor, DSPs), application specific integrated circuits (Application Specific Integrated Circuit, ASICs), off-the-shelf programmable gate arrays (Field-Programmable Gate Array, FPGAs) or other programmable logic devices, discrete gate or transistor logic devices, discrete hardware components, or the like. Wherein the general purpose processor may be a microprocessor or the processor may be any conventional processor or the like.
Those skilled in the art will appreciate that all or part of the flow in a method embodying the above described embodiments may be accomplished by computer programs instructing the relevant hardware. The computer program comprises program instructions, and the computer program can be stored in a storage medium, which is a computer readable storage medium. The program instructions are executed by at least one processor in the computer system to implement the flow steps of the embodiments of the method described above.
Accordingly, the present invention also provides a computer-readable storage medium. The computer readable storage medium stores a computer program, wherein the computer program includes program instructions. The program instructions, when executed by the processor, cause the processor to perform the steps of:
responding to a water-saving carrier evaluation instruction, acquiring a target water-saving carrier corresponding to the water-saving carrier evaluation instruction, and acquiring a target time interval corresponding to the water-saving carrier evaluation instruction;
acquiring water consumption plan information and actual water consumption information of the target water-saving carrier in the target time interval;
acquiring automatic auditing information corresponding to the water consumption plan information and the actual water consumption information based on a preset automatic verification strategy;
The water consumption plan information and the actual water consumption information are sent to a target expert receiving terminal obtained by screening based on a preset expert screening strategy;
receiving expert audit information corresponding to the water consumption plan information and the actual water consumption information sent by the target expert receiving terminal;
and if the automatic auditing information is determined to be an auditing passing result and the expert auditing information is determined to be an auditing passing result, acquiring a corresponding water saving contribution index value based on the actual water information and a preset water saving index conversion strategy.
The storage medium may be a U-disk, a removable hard disk, a Read-Only Memory (ROM), a magnetic disk, or an optical disk, or other various computer-readable storage media that can store program codes.
Those of ordinary skill in the art will appreciate that the elements and algorithm steps described in connection with the embodiments disclosed herein may be embodied in electronic hardware, in computer software, or in a combination of the two, and that the elements and steps of the examples have been generally described in terms of function in the foregoing description to clearly illustrate the interchangeability of hardware and software. Whether such functionality is implemented as hardware or software depends upon the particular application and design constraints imposed on the solution. Skilled artisans may implement the described functionality in varying ways for each particular application, but such implementation decisions should not be interpreted as causing a departure from the scope of the present invention.
In the several embodiments provided by the present invention, it should be understood that the disclosed apparatus and method may be implemented in other manners. For example, the device embodiments described above are merely illustrative. For example, the division of each unit is only one logic function division, and there may be another division manner in actual implementation. For example, multiple units or components may be combined or may be integrated into another system, or some features may be omitted, or not performed.
The steps in the method of the embodiment of the invention can be sequentially adjusted, combined and deleted according to actual needs. The units in the device of the embodiment of the invention can be combined, divided and deleted according to actual needs. In addition, each functional unit in the embodiments of the present invention may be integrated in one processing unit, or each unit may exist alone physically, or two or more units may be integrated in one unit.
The integrated unit may be stored in a storage medium if implemented in the form of a software functional unit and sold or used as a stand-alone product. Based on such understanding, the technical solution of the present invention is essentially or a part contributing to the prior art, or all or part of the technical solution may be embodied in the form of a software product stored in a storage medium, comprising several instructions for causing a computer device (which may be a personal computer, a terminal, a network device, etc.) to perform all or part of the steps of the method according to the embodiments of the present invention.
While the invention has been described with reference to certain preferred embodiments, it will be understood by those skilled in the art that various changes and substitutions of equivalents may be made and equivalents will be apparent to those skilled in the art without departing from the scope of the invention. Therefore, the protection scope of the invention is subject to the protection scope of the claims.
Claims (10)
1. An intelligent data processing method of a water-saving carrier is characterized by comprising the following steps:
responding to a water-saving carrier evaluation instruction, acquiring a target water-saving carrier corresponding to the water-saving carrier evaluation instruction, and acquiring a target time interval corresponding to the water-saving carrier evaluation instruction;
acquiring water consumption plan information and actual water consumption information of the target water-saving carrier in the target time interval;
acquiring automatic auditing information corresponding to the water consumption plan information and the actual water consumption information based on a preset automatic verification strategy;
the water consumption plan information and the actual water consumption information are sent to a target expert receiving terminal obtained by screening based on a preset expert screening strategy;
receiving expert audit information corresponding to the water consumption plan information and the actual water consumption information sent by the target expert receiving terminal;
And if the automatic auditing information is determined to be an auditing passing result and the expert auditing information is determined to be an auditing passing result, acquiring a corresponding water saving contribution index value based on the actual water information and a preset water saving index conversion strategy.
2. The method according to claim 1, wherein the acquiring a target water-saving carrier corresponding to the water-saving carrier assessment instruction and acquiring a target time interval corresponding to the water-saving carrier assessment instruction includes:
acquiring a water-saving carrier name in the water-saving carrier evaluation instruction to determine the target water-saving carrier;
acquiring an instruction generation date and a duration to be evaluated corresponding to the water-saving carrier evaluation instruction, and determining the target time interval according to the instruction generation date and the duration to be evaluated; the target time interval takes the date corresponding to the instruction generation date minus the time to be evaluated as the starting time of the target time interval, and takes the last month of the instruction generation date as the ending time of the target time interval.
3. The method of claim 1, wherein prior to the obtaining water usage plan information and actual water usage information for the target water conservation carrier over the target time interval, the method further comprises:
Generating a target water data acquisition instruction based on the target time interval, and sending the target water data acquisition instruction to a target intelligent water meter;
the obtaining the water consumption plan information and the actual water consumption information of the target water-saving carrier in the target time interval comprises the following steps:
receiving actual water consumption information and water consumption plan information which are sent by the target intelligent water meter and are in the target time interval;
or receiving the actual water consumption information in the target time interval sent by the target intelligent water meter, and acquiring the water consumption plan information corresponding to the target water-saving carrier in a local database.
4. The method according to claim 1, wherein the transmitting the water usage plan information and the actual water usage information to the target expert receiving terminal screened based on a preset expert screening policy includes:
acquiring a target area and a target water-saving carrier type of the target water-saving carrier;
acquiring a plurality of candidate expert receiving terminals which are the same as the target water-saving carrier type and do not belong to the target area;
and determining a target expert receiving terminal from the candidate expert receiving terminals based on the preset expert screening strategy.
5. The method according to claim 1, wherein the obtaining a corresponding water saving contribution index value based on the actual water usage information and a preset water saving index conversion policy includes:
acquiring difference information between the actual water consumption in the actual water consumption information and the planned water consumption in the water consumption plan information so as to determine an initial value of the water saving quantity;
and determining a target value interval to which the water saving quantity initial value belongs in a plurality of value intervals corresponding to the water saving index conversion strategy, and determining the water saving contribution index value corresponding to the actual water use information based on a water saving index conversion sub-strategy corresponding to the target value interval.
6. The method according to claim 5, further comprising, after the step of acquiring the corresponding water conservation contribution index value based on the actual water usage information and a preset water conservation index conversion strategy:
if the local node state is determined to be the alliance blockchain node state, the water saving contribution index value is sent to other blockchain nodes in the alliance blockchain;
and if the local node state is determined to be the private blockchain node state, transmitting the water saving contribution index value to a central blockchain node in the private blockchain.
7. The method according to claim 1, wherein before the step of acquiring a target water-saving carrier corresponding to the water-saving carrier assessment instruction in response to the water-saving carrier assessment instruction, and acquiring a target time interval corresponding to the water-saving carrier assessment instruction, the method further comprises:
if the record application information of the water-saving carrier is detected, checking the record application information based on a preset checking strategy to obtain a record information checking result;
if the record information verification result is determined to be a verification passing result, storing the water-saving carrier information corresponding to the record application information of the water-saving carrier in a local water-saving carrier record database;
and if the recorded information verification result is determined to be a verification failure result, transmitting modification suggestion information corresponding to the recorded application information of the water-saving carrier to a receiving terminal corresponding to the water-saving carrier.
8. An intelligent data processing device for a water-saving carrier, comprising:
the target water-saving carrier determining unit is used for responding to the water-saving carrier evaluating instruction, acquiring a target water-saving carrier corresponding to the water-saving carrier evaluating instruction and acquiring a target time interval corresponding to the water-saving carrier evaluating instruction;
A water plan information acquisition unit for acquiring water plan information and actual water information of the target water-saving carrier in the target time interval;
the automatic auditing unit is used for acquiring automatic auditing information corresponding to the water consumption plan information and the actual water consumption information based on a preset automatic verification strategy;
the water consumption plan information sending unit is used for sending the water consumption plan information and the actual water consumption information to a target expert receiving terminal obtained by screening based on a preset expert screening strategy;
an audit information receiving unit, configured to receive expert audit information corresponding to the water usage plan information and the actual water usage information sent by the target expert receiving terminal;
and the water-saving contribution degree determining unit is used for acquiring a corresponding water-saving contribution index value based on the actual water information and a preset water-saving index conversion strategy if the automatic auditing information is determined to be an auditing passing result and the expert auditing information is determined to be an auditing passing result.
9. A computer device comprising a memory and a processor, the memory having stored thereon a computer program, the processor implementing the intelligent data processing method of the water-saving carrier according to any one of claims 1-7 when executing the computer program.
10. A computer readable storage medium, characterized in that the computer readable storage medium stores a computer program comprising program instructions which, when executed by a processor, can implement the intelligent data processing method of a water saving carrier according to any one of claims 1-7.
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