CN113794954A - Power consumption information acquisition system based on open source cloud and enterprise-level middleboxes - Google Patents

Abstract

The embodiment of the application provides a power consumption information acquisition system based on open source cloud and enterprise-level middleboxes, and relates to the technical field of power consumption information processing. The power utilization information acquisition system comprises an acquisition module, a data processing module, a business application module and a central station, wherein the acquisition module is used for acquiring power utilization data, and the data processing module is used for processing the power utilization data acquired by the acquisition module to obtain a power utilization data processing result; the business application module is used for controlling and managing the acquisition module or the data processing module and feeding back data sent by the data processing module; the middle station is used for receiving the service order sent by the data acquisition module, the data processing module or the business application module and providing corresponding services for the data acquisition module, the data processing module or the business application according to the service order; and the design of the middle platform is adopted, so that the data acquisition, processing and calculation capabilities of the power utilization information processing system are improved.

Description

Power consumption information acquisition system based on open source cloud and enterprise-level middleboxes

Technical Field

The application relates to the technical field of power consumption information acquisition, in particular to a power consumption information acquisition system based on open source cloud and enterprise-level middleboxes.

Background

The existing power utilization acquisition system comprises an acquisition module, a data processing module and a service application module, wherein the acquisition module acquires power utilization data, the data processing module processes the acquired data, and the service application module manages and controls the acquisition module and the data processing module. However, with the continuous development of the internet of things technology and the continuous improvement of social requirements, the data volume, data dimension and collection frequency to be collected are continuously increased, and higher requirements are provided for the power consumption collection system in terms of mass data storage, real-time data calculation, multidimensional statistical analysis, meeting of changeable requirements and the like.

Disclosure of Invention

In view of this, an object of the embodiments of the present application is to provide an electricity consumption information collecting system based on an open source cloud and an enterprise-level middlebox.

The embodiment of the application provides an electricity utilization information acquisition system based on an open source cloud and an enterprise-level middle station, which comprises an acquisition module, a data processing module, a business application module and a middle station; the acquisition module is used for acquiring power utilization data; the data processing module is used for processing the electricity utilization data acquired by the acquisition module to obtain an electricity utilization data processing result; the business application module is used for controlling and managing the acquisition module or the data processing module and feeding back data sent by the data processing module; the middle station is used for receiving a service calling instruction sent by the acquisition module, the data processing module or the business application module, determining a target service according to a service type in the service calling instruction, determining a processing target according to a processing type in the service calling instruction, processing the processing target according to the target service to obtain a service processing result, and sending the service processing result to the acquisition module, the data processing module or the business application module; the acquisition module comprises a communication scheduling module, a communication front-end processor and terminal acquisition equipment; the communication scheduling module is used for receiving the electricity utilization data acquisition instruction sent by the service application module and sending the electricity utilization data acquisition instruction to the communication front-end processor; the electricity utilization data acquisition instruction comprises an acquisition equipment identifier and a data type identifier; the communication front-end processor is used for determining equipment to be acquired according to the acquisition equipment identifier and sending the data type identifier to the terminal acquisition equipment corresponding to the equipment to be acquired; the communication front-end processor is in long connection with the terminal acquisition equipment; the terminal acquisition equipment is used for acquiring the target power consumption data corresponding to the equipment to be acquired according to the data type identification, and sending the target power consumption data corresponding to the equipment to be acquired and the data type identification of the target power consumption data to the data processing module.

According to the power consumption information acquisition system based on the open-source cloud and the enterprise-level middle desk, the acquisition module acquires power consumption data, the data processing module processes the power consumption data, the service application module displays the processed power consumption data, the service application module can manage and control the acquisition module or the data processing module independently or manage and control the acquisition module or the data processing module simultaneously, and the acquisition module, the data processing module and the service application module are matched with each other to realize basic data acquisition, processing and display functions; the middle station provides expanded data processing services for the acquisition module, the data processing module or the business application module, for example, the middle station performs data storage, data forwarding, data calculation and other services, so that the acquisition module, the data processing module and the business application module can call the services provided by the middle station, thereby reducing the data processing and the like of the acquisition module, the data processing module and the business application module, and more processing is realized by the middle station, thereby reducing the processing pressure of the acquisition module, the data processing module and the business application module, and simultaneously expanding more services in the middle station to deal with the increase of processing amount and processing requirements; the acquisition module comprises a communication scheduling module, a front-end communication machine and terminal acquisition equipment; the communication scheduling module receives a power utilization data acquisition instruction sent by the service application module, and then sends the power utilization data acquisition instruction to a communication front-end processor, wherein the communication front-end processor is used for determining equipment to be acquired according to the acquisition equipment identifier and sending a data type identifier to terminal acquisition equipment corresponding to the equipment to be acquired, and the communication front-end processor is kept in long connection with the terminal acquisition equipment; the terminal acquisition equipment acquires target power utilization data corresponding to the equipment to be acquired according to the data type identification, sends the target power utilization data corresponding to the equipment to be acquired and the data type identification of the power utilization data to the data processing module, and can acquire and forward the power utilization data of the equipment through the mutual cooperation of the communication scheduling module, the front-end communication machine and the terminal acquisition equipment, so that the power utilization data of the equipment can be acquired and managed.

In some embodiments of the invention, the data processing module comprises a data analysis module and a data query module; the data analysis module is used for receiving the processing instruction sent by the business application module; the processing instruction comprises an electricity utilization data identifier and a processing type; the data analysis module is further configured to obtain target processing data according to the power consumption data identifier, and process the target processing data according to the processing type to obtain a processing result corresponding to the target processing data; and the data query module is used for sending the processing result corresponding to the target processing data to the service application module.

In the implementation process, the data processing module comprises a data analysis module and a data query module, the data analysis module receives a processing instruction sent by the service application module, acquires target processing data according to the power utilization data identifier in the processing instruction, processes the target processing data according to the processing type in the processing instruction to obtain a processing result corresponding to the target processing data, and sends the processing result to the data query module, the data query module sends the processing result corresponding to the target processing data to the service application module, and the data analysis module and the data query module cooperate with each other to complete data processing and forwarding feedback so as to meet the data processing requirement of the service application module.

In some embodiments of the present invention, the data processing module further comprises a data checking module; and the data checking module is used for checking the power utilization data sent by the acquisition module to obtain a checking result.

In the implementation process, the data processing module further comprises a data checking module, and the data checking module receives the power utilization data sent by the acquisition module for checking so as to determine further processing according to a checking result.

In some embodiments of the present invention, the business application module includes a data display module and a work order processing module; the data display module is used for receiving the data sent by the data processing module and displaying the data sent by the data processing module; the work order processing module is used for receiving the work order processing events sent by the data display module, the work order processing events are sent to the work order processing module by an operator when the data displayed by the data display module are abnormal, the work order processing events comprise object identification, work order task types and work order processors, and the work order processing module is further used for generating work order processing tasks according to the object identification and the work order task types and sending the work order processing tasks to the work order processing objects.

In the implementation process, the service application module comprises a data display module and a work order processing module, the data display module receives data sent by the data processing module and displays the data so as to check whether the analyzed data is abnormal or not, when the data is abnormal, an operator sends a work order processing event to the work order processing module, the work order processing module generates a work order processing task according to an object identifier and a work order task type in the work order processing event, sends the work order processing task to the work order processor and checks the generation of abnormal data; the data display module and the work order processing module are matched with each other to realize the troubleshooting of abnormal data, and the self-inspection of the power utilization information acquisition system based on the open-source cloud and the enterprise-level middleboxes is realized.

In some embodiments of the present invention, the middlings include a technical middlings, a data middlings and a service middlings; the technical middle station is used for providing technical services for the acquisition module, the data processing module, the business application module, the data middle station or the business middle station; the data center station is used for receiving the electricity utilization data processing result and the original unprocessed electricity utilization data sent by the data processing module; the data processing module is used for providing data processing services for the data processing module, the business application module or the business center station; the business middle station is used for providing authentication service for the data processing module or the business application module.

In the implementation process, the middle station comprises a technical middle station, a data middle station and a service middle station, the technical middle station provides technical services for the acquisition module, the data processing module, the service application module, the data middle station or the service middle station, and can provide technical support for the power utilization processing system; the data center station provides data processing services for the data processing module, the business application module or the business center station so as to process different processing requirements of different modules on data, and the business center station provides authentication services for the data processing module or the business application module so as to provide different authentication services for different modules and meet more business requirements; by arranging the technical middle station, the data middle station and the business middle station in the middle station, more processing can be realized in the middle station, the processing pressure of the acquisition module, the data processing module or the business application module is reduced, and meanwhile, more services are expanded in the middle station to meet the increasing processing requirements.

In some embodiments of the invention, the technical services include messaging services, data storage services, data computation services and retrieval services; the message communication service comprises a message service instruction which is received and sent by the acquisition module, the data processing module, the business application module, the data center station or the business center station, wherein the message service instruction comprises a message service type and a message to be processed; the message communication service also comprises a target message sub-service determined according to the message service type so that the target message sub-service can process the message to be processed to obtain a message processing result; sending the message processing result to the acquisition module, the data processing module, the service application module, the data center or the service center;

the data storage service comprises receiving a data storage instruction sent by the acquisition module, the data processing module, the service application module, the data center station or the service center station, wherein the data storage instruction comprises a data storage type and data to be stored; the data storage service also comprises a target storage sub-service determined according to the data storage type, so that the target storage sub-service processes the data to be stored to obtain a data storage result, and the data storage result is sent to the acquisition module, the data processing module, the service application module, the data center station or the service center station;

the data computing service comprises a data receiving processing module, a business application module, a data center station or a data computing instruction sent by the business center station, wherein the data computing instruction comprises a data computing type and data to be computed; the data computing service also comprises a target computing sub-service determined according to the data computing type, so that the target computing sub-service processes the data to be computed to obtain a data computing result, and the data computing result is sent to the acquisition module, the data processing module, the business application module, the data center station or the business center station;

the retrieval service comprises a received data processing module, a business application module, a data center station or a business center station, and the retrieval instruction comprises a retrieval type and items to be retrieved; the retrieval service also comprises a retrieval sub-service which is determined according to the retrieval type so that the retrieval sub-service processes the items to be retrieved to obtain a retrieval result, and the retrieval result is sent to the acquisition module, the data processing module, the business application module, the data center station or the business center station;

in the implementation process, the technical services comprise message communication services, data storage services, data calculation services and retrieval services, a plurality of service modules form basic services of a technical middle station, and the basic services provide message communication, data storage, data calculation and retrieval services for an acquisition module, a data processing module, a business application module, the data middle station or the business middle station so as to meet different service requirements among the modules; various basic services in the technical services provide technical support for the middleboxes to meet the processing requirements.

In some embodiments of the invention, the data center station comprises a data analysis service, a data query service and a data access control service; the data analysis service comprises receiving a data analysis instruction sent by the data processing module, the service application module or the service center, wherein the data analysis instruction comprises a data analysis type and data to be analyzed; the data analysis service also comprises a target analysis sub-service determined according to the data analysis type, so that the target analysis sub-service processes the data to be analyzed to obtain a data analysis result; sending the data analysis result to the acquisition module, the data processing module, the service application module or the service central station; the data query service comprises a data query instruction which is sent by a data processing module, a service application module or a service center, wherein the data query instruction comprises a data query type and data to be queried; the data query service also comprises a target query sub-service determined according to the data query type, so that the target query sub-service processes the data to be queried to obtain a data query result; sending the data query result to a data processing module, a service application module or a service central station; the data access control service comprises receiving a data access instruction sent by the acquisition module, the data processing module, the service application module, the data center station or the service center station, wherein the data access instruction comprises an access data access public key and a to-be-accessed data type; the data access control service also comprises an access authority result determined according to the data access public key, when the access authority result is authorized access, the data to be accessed is accessed to obtain access data, and the access data is sent to the acquisition module, the data processing module, the service application module or the service central station.

In the implementation process, the data center station comprises a data analysis service, a data query service and a data access control service, provides the data analysis service, the data query service and the data access control service for the data processing module, the service application module or the service center station, provides different data processing services for each module, and provides various data processing services of the data center station, so that different data processing requirements among the modules can be effectively met, and meanwhile, the data center station provides additional data processing capacity, so that the data processing pressure of the data processing module is reduced.

In some embodiments of the present invention, the data analysis service further includes a data metering service, where the data metering service includes receiving a data metering request sent by the service application module, and the data metering request includes a metering data identifier and a metering type; the data metering service also comprises a data display module which determines target metering data according to the metering data identifier and determines a metering sub-service according to a metering type so that the metering sub-service can measure the target metering data to obtain a metering result and send the metering result to the service application module.

In the implementation process, the data analysis service further comprises a data metering service, receives a data metering request sent by the service application module, determines target metering data according to a metering data identifier in the data metering request, and determines a metering sub-service according to a metering type in the data metering request, so that the metering sub-service performs metering processing on the target metering data to obtain a metering result, and sends the metering result to a data display module in the service application module; and the metering requirement processing of different data by the service application module is realized.

In some embodiments of the present invention, the service center station includes a user authentication service, where the user authentication service includes receiving a user authentication instruction sent by the service application module, and the user authentication instruction includes an authentication user type and a user to be authenticated; the user authentication service also comprises an authentication sub-service which is determined according to the type of the authentication user so that the authentication sub-service can authenticate the user to be authenticated to obtain an authentication result and send the authentication result to a service application module.

In the implementation process, the service center station comprises a user authentication service, the user authentication service receives a user authentication instruction sent by the service application module, and determines an authentication sub-service according to the type of an authentication user in the user authentication instruction, so that the authentication sub-service authenticates a user to be authenticated in the user authentication instruction to obtain an authentication result, and sends the authentication result to the service application module, thereby realizing different user authentication requirements of the service application module; the user authentication service of the business application module is provided, different users can be accessed, the authentication of different users is realized, and the condition that different user systems need to be developed due to different users is avoided.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings that are required to be used in the embodiments of the present application will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present application and therefore should not be considered as limiting the scope, and that those skilled in the art can also obtain other related drawings based on the drawings without inventive efforts.

Fig. 1 is a block diagram of a power consumption information acquisition system based on an open-source cloud and an enterprise-level middlebox according to an embodiment of the present disclosure;

fig. 2 is a block diagram of a structure of another power consumption information collection system based on an open-source cloud and an enterprise-level middlebox according to an embodiment of the present application.

Icon: 11-an acquisition module; 12-a data processing module; 13-a service application module; 14-a middle stage; 111-communication scheduling module; 112-a communication front-end processor; 113-terminal acquisition equipment; 121-data check module; 122-a data analysis module; 123-a data query module; 131-a data presentation module; 132-work order processing module; 141-technical middle stage; 142-data middleboxes; 143 — service middleboxes.

Detailed Description

The technical solution in the embodiments of the present application will be described below with reference to the drawings in the embodiments of the present application.

It should be noted that: like reference numbers and letters refer to like items in the following figures, and thus, once an item is defined in one figure, it need not be further defined and explained in subsequent figures.

Referring to fig. 1, fig. 1 is a block diagram illustrating a power consumption information collection system based on an open-source cloud and an enterprise-level middlebox. The power utilization information acquisition system based on the open source cloud and the enterprise-level middleboxes comprises an acquisition module 11, a data processing module 12, a business application module 13 and a middlebox 14; the acquisition module 11 is used for acquiring power utilization data; the data processing module 12 is configured to process the power consumption data acquired by the acquisition module 11 to obtain a power consumption data processing result; the service application module 13 is configured to control and manage the acquisition module 11 or the data processing module 12, and feed back data sent by the data processing module 12; the middle station 14 is configured to receive a service call instruction sent by the acquisition module 11, the data processing module 12, or the service application module 13, determine a target service according to a service type in the service call instruction, determine a processing target according to a processing type in the service call instruction, process the processing target according to the target service to obtain a service processing result, and send the service processing result to the acquisition module 11, the data processing module 12, or the service application module 13.

The collection module 11 collects power consumption data, for example, the power consumption data may be the daily hourly power consumption of the user a in 1 month, and sends the collected power consumption data to the data processing module 12.

The data processing module 12 processes the power consumption data to obtain a power consumption data processing result, for example, the processing here may be: according to the daily electricity consumption of the user A in 1 month per hour, counting and analyzing the daily electricity consumption peak section of the user A in 1 month, and taking the daily electricity consumption peak section of the user A in 1 month as an electricity consumption data processing result; for example, the processing here may be to remove the abnormal value of the power consumption of the user a per hour per day in 1 month, obtain the normal power consumption of the user a per hour per day in 1 month, and use the normal power consumption of the user a per hour per day in 1 month as the power consumption data processing result.

The service application module 13 performs control management on the data processing module 12 and/or the acquisition module 11, which means that the service application module 13 can manage and control the acquisition module or the data processing module separately, and also can manage and control the acquisition module or the data processing module simultaneously, in other words, when the acquisition module is managed and controlled separately, the feedback information is also sent to the acquisition module separately, and when the acquisition module and the data processing module are managed and controlled simultaneously, the feedback information is also sent to the acquisition module and the data processing module simultaneously. For example, the service application module 13 manages the data processing module 12 and/or the collection module 11, and includes: and performing safety communication management, specifically, before each communication, the service application module 13 sends a first communication password to the data processing module 12 and/or the acquisition module 11, the data processing module 12 and/or the acquisition module 11 replies according to the first communication password, and when the data processing module 12 and/or the acquisition module 11 replies a second communication password, the service application module 13 considers that the communication with the data processing module 12 and/or the acquisition module 11 can be performed. The service application module 13 controls the data processing module 12 and/or the acquisition module 11, and includes: the service application module 13 sends a control instruction to the data processing module 12 and/or the collection module 11, for example, sends a collection instruction to the collection module 11, sends a power consumption data processing instruction to the data processing module 12, and the like.

The service application module 13 may also feed back data sent by the data processing module 12, where the data includes, but is not limited to, a power utilization data processing result obtained by processing the power utilization data acquired by the acquisition module 11 by the data processing module 12.

The middle station 14 may receive a service call instruction sent by the acquisition module 11, the data processing module 12, or the service application module 13, where the service call instruction is an instruction for calling a service that the middle station 14 can provide, and the service call instruction is set to reduce the data processing amount of the acquisition module 11, the data processing module 12, or the service application module 13, so as to allow more data processing operations to be performed in the middle station 14, and further, service expansion may be performed in the middle station 14, so that the middle station 14 can perform more processing operations. The service call instruction includes a service type and a processing type, for example, the target service is determined as a storage service according to the service type in the service call instruction, the target processing is determined as storing the power consumption data processing result of the user a in 1 to 6 months according to the processing type in the service call instruction, and after the storage is completed, the processing result is sent to the data processing module 12, for example, the processing result is storage success or storage failure.

Specifically, the central station 14 only returns the service processing result to the data processing module 12 if receiving the service call instruction of the data processing module 12.

In the power consumption information acquisition system based on the open-source cloud and the enterprise-level middle desk, the acquisition module 11 acquires power consumption data, the data processing module 12 processes the power consumption data, the service application module 13 displays the processed power consumption data, and the acquisition module 11, the data processing module 12 and the service application module 13 are matched with each other to realize basic data acquisition, processing and display functions; the middle station 14 provides expanded data processing services for the acquisition module 11, the data processing module 12, or the business application module 13, for example, services such as data storage, data forwarding, and data calculation are performed through the middle station 14, so that the acquisition module 11, the data processing module 12, and the business application module 13 can call the services provided by the middle station 14, thereby reducing the data processing and the like of the acquisition module 11, the data processing module 12, and the business application module 13, and allowing more processing to be implemented through the middle station 14, thereby reducing the processing pressure of the acquisition module 11, the data processing module 12, and the business application module 13, and at the same time, expanding more services at the middle station 14 to cope with the increase of processing amount and processing demand.

Referring to fig. 2, fig. 2 is a block diagram of a power consumption information acquisition system based on an open source cloud and an enterprise-class middlebox in another power consumption information acquisition system based on the open source cloud and the enterprise-class middlebox according to an embodiment of the present application.

In one embodiment, the acquisition module 11 includes a communication scheduling module 111, a communication front-end processor 112 and a terminal acquisition device 113; the communication scheduling module 111 is configured to receive a power consumption data acquisition instruction sent by the service application module 13, and send the power consumption data acquisition instruction to the communication front-end processor 112; the electricity utilization data acquisition instruction comprises an acquisition equipment identifier and a data type identifier; the communication front-end processor 112 is configured to determine a device to be acquired according to the acquisition device identifier, and send a data type identifier to a terminal acquisition device corresponding to the device to be acquired; the communication front-end processor is in long connection with the terminal acquisition equipment; the terminal acquisition device 113 is configured to acquire the target power consumption data corresponding to the device to be acquired according to the data type identifier, and send the target power consumption data corresponding to the device to be acquired and the data type identifier of the target power consumption data to the data processing module 12.

Taking the example of collecting the daily electricity quantity data of the electricity meter of the user a in 1 month as an example, the service application module 13 sends an electricity data collecting instruction to the communication scheduling module 111, at this time, the collecting equipment identifier in the electricity data collecting instruction is the electricity meter of the user a, and the data type identifier in the electricity data collecting instruction is the daily electricity quantity data of the electricity meter of the 1 month; the communication scheduling module 111 sends the electricity consumption data acquisition instruction to the communication front-end processor 112, the communication front-end processor 112 sends the electricity consumption data acquisition instruction to the terminal acquisition equipment 113 corresponding to the user a electricity meter, and the terminal acquisition equipment 113 acquires the daily electricity consumption data of the user a electricity meter for 1 month and sends the daily electricity consumption data of the user a electricity meter for 1 month to the data processing module 12.

It should be noted that, the establishment/release of the communication link connection between the communication front-end processor and the terminal acquisition device requires 3/4 handshakes, and the establishment and release of each connection consumes resources and time, and in the scene of 1 minute data reporting, frequent connection and disconnection may consume a large amount of system resources. The terminal acquisition equipment and the communication front-end processor are kept in long connection, so that instant interaction of messages can be guaranteed, and extra overhead caused by link establishment/disconnection can be avoided.

In the acquisition module 11, the communication scheduling module 111 receives a power consumption data acquisition instruction sent from the service application module 13, sends the power consumption data acquisition instruction to the communication front-end processor 112, determines a device to be acquired according to the acquisition device identifier by the communication front-end processor 112, and sends the data type identifier to the terminal acquisition device corresponding to the device to be acquired; the terminal acquisition equipment 113 acquires target power utilization data corresponding to the equipment to be acquired according to the data type identification, sends the target power utilization data corresponding to the equipment to be acquired and the data type identification of the target power utilization data to the data processing module 12, and can acquire and forward the equipment power utilization data through the mutual cooperation of the communication scheduling module, the front-end communication machine and the terminal acquisition equipment, so that the power utilization data acquisition and management of the equipment are realized.

In one embodiment, the data processing module 12 includes a data analysis module 122 and a data query module 123; the data analysis module 122 is configured to receive a processing instruction sent by the service application module 13; the processing instruction comprises an electricity utilization data identifier and a processing type; the data analysis module 122 is further configured to obtain target processing data according to the power consumption data identifier, and process the target processing data according to the processing type to obtain a processing result corresponding to the target processing data; the data query module 123 is configured to send a processing result corresponding to the target processing data to the middle station 14 and the service application module 13.

For example, the service application module 13 sends a processing instruction to the data analysis module 122, where the processing instruction includes the daily electricity consumption data identifier and the processing type of the user a electricity meter for 1 month, and the processing type at this time may be: counting the daily electricity consumption peak section of the user A in 1 month, or counting the total electricity consumption of the user A in 1 month, or sequencing the daily electricity consumption of the user A in 1 month from high to low, and the like; the data analysis module 122 acquires the daily electricity consumption data of the user a electricity meter in 1 month according to the daily electricity consumption data identifier of the user a electricity meter in 1 month, processes the daily electricity consumption data of the user a electricity meter in 1 month according to the processing type, and obtains a processing result, wherein the processing result is as follows: data of a user A in a daily electricity consumption peak period of 1 month, or data of total electricity consumption of the user A in 1 month, or data of daily electricity quantity sequencing of the user A in 1 month; the data analysis module 122 sends the processing result to the data query module 123, and the data query module 123 sends the processing result to the middling stage 14 and the service application module 13.

In the data processing module 12, the data analysis module 122 receives the processing instruction sent by the service application module 13, obtains target processing data according to the power consumption data identifier in the processing instruction, processes the target processing data according to the processing type in the processing instruction, obtains a processing result corresponding to the target processing data, and sends the processing result to the data query module 123, the data query module 123 sends the processing result corresponding to the target processing data to the middling 14 and the service application module 13, and the data analysis module 122 and the data query module 123 cooperate with each other to implement processing and forwarding feedback of the data, so as to meet the data processing requirement of the service application module.

In one embodiment, the data processing module 12 further includes a data checking module 121; the data checking module 121 is configured to check the power consumption data sent by the acquisition module 11 to obtain a check result.

For example, the acquisition module 11 sends the acquired electricity consumption data to the data processing module 12; the data verification module 121 in the data processing module 12 performs data verification on the electricity consumption data to obtain a verification result, and when the verification result is normal, the verified normal electricity consumption data is sent to the data analysis module 122 for further processing, for example, the further processing may be processing such as daily electricity consumption peak period analysis, monthly electricity consumption peak analysis, or daily electricity quantity ordering in a month; and when the verification result is abnormal, sending the abnormal electricity utilization data and the abnormal prompt information after verification to the service application module 13 for further processing.

In the data checking module 121, the data checking module 121 receives the power consumption data sent by the acquisition module 11 for checking, so as to determine further processing according to a checking result.

In one embodiment, the business application module 13 includes a data presentation module 131 and a work order processing module 132; the data display module 131 is configured to receive the data sent by the data processing module 12, and display the data sent by the data processing module 12 or the data sent by the acquisition module 11; the work order processing module 132 is configured to receive a work order processing event sent by the data display module 131, the work order processing event is sent to the work order processing module by an operator when the data displayed by the data display module 131 is abnormal, the work order processing event includes an object identifier, a work order task type and a work order handler, and the work order processing module is further configured to generate a work order processing task according to the object identifier and the work order task type, and send the work order processing task to the work order handler.

For example, the data display module 131 receives and displays data of the peak period of daily power consumption of the user a in 1 month, or total amount of power consumption of the user a in 1 month, or daily power sequencing data of the user a in 1 month sent by the data processing module 12, and when the relevant person finds that the displayed data is abnormal, the relevant person sends a work order processing event to the work order processing module 132; after receiving the work order processing event, the work order processing module 132 generates a work order processing task according to the object identifier and the work order task type, and sends the work order processing task to a work order handler, and the work order handler performs exception checking according to the work order processing task. For example, the work order processing object is an object that needs to be operated; the work order processing event is a corresponding task event when abnormal data occurs; the work order processing task is a maintenance task that the maintenance worker needs to process.

The abnormal situation may be: the user A is not stably kept in a fixed time period in the daily electricity utilization peak period of 1 month, for example, the electricity utilization peak of 1 month No. 1 is from 19 to 21 points, the electricity utilization peak of 1 month No. 2 is from 7 to 9 points, and the electricity utilization peak of 1 month No. 3 is from 1 to 3 points, that is, the daily electricity utilization peak of the user A in 1 month changes every day or continuously changes in a period of time, and the change does not belong to the normal change category; the electricity consumption of the user A on the highest electricity consumption day of 1 month is far larger than that of the user A on the next highest electricity consumption day of 1 month, such as: the electricity consumption of 1 month and 1 day is the highest in the whole month, the electricity consumption of 1 month and 2 days is the highest in the whole month, and the electricity consumption of 1 month and 1 day is 50 degrees higher than that of 1 month and 2 days, which is an abnormal condition.

In the service application module 13, the data display module 131 receives the data sent by the data processing module 12, displays the data so as to analyze whether the data is abnormal, when the data is abnormal, the operator feeds back the data to the work order processing module 132, sends a work order processing event to the work order processing module 132, and the work order processing module 132 generates a work order processing task according to the object identifier, the work order task type, and the work order handler in the work order processing event, sends the work order processing task to the work order handler, and checks the generation of abnormal data; the data display module and the work order processing module are matched with each other to realize the troubleshooting of abnormal data, and the self-inspection of the power utilization information acquisition system based on the open-source cloud and the enterprise-level middleboxes is realized.

In one embodiment, the middleboxes 14 include technical middleboxes 141, data middleboxes 142 and business middleboxes 143; the technical center station 141 is configured to provide technical services to the acquisition module 11, the data processing module 12, the business application module 13, the data center station 142, or the business center station 143; the data center 142 is configured to receive the power utilization data processing result sent by the data processing module 12; and is also used for providing data processing service to the data processing module 12, the business application module 13 or the business middle desk 143; the business center 143 is configured to provide management services to the acquisition module 11, the data processing module 12, or the business application module 13.

The technical center station 141 includes various service components, and through cooperation of these service components and these service components, various technical services are provided for the acquisition module 11, the data processing module 12, the business application module 13, the technical center station 142, and the like. For example, service components include, but are not limited to, REDIS components, HBASE components, KAFKA components, MQ components, DOCKER components, STROM components, and SPARK components, and MapReduce or SPARK STREAMING compute engines.

The data center 142 provides data processing services to the data processing module 12, the business application module 13 or the business center 143, including: the data center 142 calls a service component in the technical center 141 to provide a data processing service for the data processing module 12, the service application module 13, or the service center 143, and of course, the data center 142 may also have various service components built therein, for example, a built-in REDIS component, an HBASE component, a KAFKA component, and the like, so as to provide a data processing service for the acquisition module 11, the data processing module 12, the service application module 13, or the service center 143.

The business center 143 provides authentication services to the data processing module 12 and the business application module 13, including: the service console 143 calls a service component in the technical console 141 to provide an authentication service for the data processing module 12 and the service application module 13, for example, the service console 143 receives a user authentication request sent by the service application module 13, responds to the user authentication request, performs user authentication, and sends an authentication result to the service application module 13.

In the middle station 14, the technical middle station 141 provides technical services to the acquisition module 11, the data processing module 12, the business application module 13, the data middle station 142 or the business middle station 143, and provides technical support for the electricity processing system; the data center 142 provides data processing services for the data processing module 12, the business application module 13 or the business center 143 so as to process different processing requirements of different modules on data; the service center 143, the data processing module 12 and the service application module 13 provide user authentication services, so as to provide different user authentication services for different modules and meet more service requirements; by arranging the technical middle station, the data middle station and the business middle station in the middle station, more processing can be realized in the middle station, the processing pressure of the acquisition module, the data processing module or the business application module is reduced, and meanwhile, more services are expanded in the middle station to meet the increasing processing requirements.

In one embodiment, the technical services include messaging services, data storage services, data computation services, and retrieval services; the message communication service comprises a message service instruction sent by a received data processing module 12, a service application module 13, a data center 142 or a service center 143, wherein the message service instruction comprises a message service type and a message to be processed; the message communication service also comprises a target message sub-service determined according to the message service type so that the target message sub-service can process the message to be processed to obtain a message processing result; sending the message processing result to the data processing module 12, the service application module 13, the data center 142 or the service center 143; the data storage service comprises a data storage instruction sent by a data processing module 12, a service application module 13, a data center 142 or a service center 143, wherein the data storage instruction comprises a data storage type and data to be stored; the data storage service further comprises a target storage sub-service determined according to the data storage type, so that the target storage sub-service processes the data to be stored to obtain a data storage result, and the data storage result is sent to the data processing module 12, the business application module 13, the data center station 142 or the business center station 143; the data computing service comprises a data computing instruction sent by a data processing module 12, a business application module 13, a data center 142 or a business center 143, wherein the data computing instruction comprises a data computing type and data to be computed; the data computing service further comprises a target computing sub-service determined according to the data computing type, so that the target computing sub-service processes the data to be computed to obtain a data computing result, and the data computing result is sent to the data processing module 12, the business application module 13, the data center station 142 or the business center station 143; the retrieval service comprises receiving retrieval instructions sent by the data processing module 12, the business application module 13, the data center 142 or the business center 143, wherein the retrieval instructions comprise retrieval types and items to be retrieved; the retrieval service further comprises determining a retrieval sub-service according to the retrieval type, so that the retrieval sub-service processes the item to be retrieved to obtain a retrieval result, and sending the retrieval result to the data processing module 12, the business application module 13, the data center station 142 or the business center station 143.

For example, the messaging service receives a message service instruction sent by the service application module 13, where the message service instruction includes a message service type and a message to be processed, and determines a target message sub-service according to the message service type, where the target message sub-service may be a target message forwarding sub-service or a target message receiving sub-service. The target message sub-service type can be divided into point-to-point or one-to-many broadcasting according to related objects; according to business division, a data acquisition instruction queue, a data acquisition queue, an event queue, an alarm message queue, a work order task creation notification queue and the like are acquired.

When the message instruction sent by the service application module 13 is to acquire the electricity consumption data of the user a in 1 month and day, the message communication service calls the KAFKA or MQ message middleware in the technical middle desk 141, the acquired data instruction is sent to the acquisition module 11 through the message middleware, the acquisition module returns the electricity consumption data to KAFKA or MQ, and the service application module 13 reads the reported electricity consumption data from the KAFKA or MQ message queue and displays the electricity consumption data.

For example, the data storage service receives a data storage instruction sent by the data processing module 12, where the data storage instruction includes a data storage type and data to be stored, and determines that the target storage sub-service is the database storage sub-service according to the data storage type, and the data to be stored is data of a user a during a daily electricity consumption peak period of 1 month, or data of a total electricity consumption amount of the user a during 1 month, or data of a daily electricity quantity ranking of the user a during 1 month; and storing the data to be stored in storage components such as REDIS or HBASE and the like according to the database storage sub-service so as to be convenient for taking the electricity utilization data subsequently.

For example, the data calculation service receives a data calculation instruction sent by the service application module 13, where the data calculation instruction includes a data calculation type and data to be calculated, and a target calculation sub-service determined by the data calculation type at this time may be a power consumption data quarterly statistical service or a power consumption data annual statistical service; the data to be calculated can be quarterly electricity utilization data of a specific user or annual electricity utilization data of the specific user; when the target computer sub-service determined according to the data calculation type in the data calculation instruction is the electricity utilization data quarterly statistic service, and the data to be calculated in the data calculation instruction is the electricity utilization data of the user a in the first quarter of 2020, which is stored in the storage component such as REDIS or HBASE, is called, the electricity utilization data of the user a in the first quarter of 2020 is counted by using a MapReduce or SPARK STREAMING calculation engine according to the electricity utilization data quarterly statistic instruction, and the counted result is sent to the service application module 13.

For example, the retrieval service receives a retrieval instruction sent by the service application module 13, where the retrieval instruction includes a retrieval type and items to be retrieved, and determines a retrieval sub-service according to the retrieval type, where the retrieval sub-service may be an annual power consumption peak daily retrieval service or a monthly power consumption peak daily retrieval service; the items to be searched can be searched by the user A in the 2020 peak electricity consumption day or the user A in the 2020 peak electricity consumption day; when the retrieval sub-service is annual power consumption peak day retrieval service and the item to be retrieved is retrieval of the user a in 2020 annual power consumption peak day, the user a power consumption data in 2020 year stored in the storage component such as REDIS or HBASE is called, the daily power consumption peak of the user a in 2020 year is retrieved, for example, the daily power consumption peak of the user a in 2020 year is 8 months and 30 days, and the power consumption is 30 degrees, and the retrieval result is sent to the service application module 13.

The technical services comprise a message communication service, a data storage service, a data calculation service and a retrieval service, a plurality of service modules form the basic service of a technical middle station 141, and provide the message communication, the data storage, the data calculation and the retrieval service for the data processing module 12, the business application module 13, the data middle station 142 or the business middle station 143, so that different service requirements among the modules are met; various basic services in the technical services provide technical support for the middleboxes to meet the processing requirements.

In one embodiment, the data center station 142 includes a data analysis service, a data query service, and a data access control service; the data analysis service comprises a data analysis instruction sent by a data processing module 12, a business application module 13, a data center 142 or a business center 143, wherein the data analysis instruction comprises a data analysis type and data to be analyzed; the data analysis service also comprises a target analysis sub-service determined according to the data analysis type, so that the target analysis sub-service processes the data to be analyzed to obtain a data analysis result; sending the data analysis result to the data processing module 12, the service application module 13, the data center 142 or the service center 143; the data query service comprises a data query instruction sent by a data processing module 12, a service application module 13, a data center 142 or a service center 143, wherein the data query instruction comprises a data query type and data to be queried; the data query service also comprises a target query sub-service determined according to the data query type, so that the target query sub-service processes the data to be queried to obtain a data query result; sending the data query result to the data processing module 12, the service application module 13, the data center 142 or the service center 143; the data access control service comprises a data access instruction sent by a data processing module 12, a business application module 13, a data center 142 or a business center 143, wherein the data access instruction comprises an access data access public key and a to-be-accessed data type; the data access control service also comprises an access authority result determined according to the data access public key, when the access authority result is authorized access, the data to be accessed is accessed to obtain access data, and the access data is sent to the data processing module 12, the service application module 13, the data center 142 or the service center 143.

For example, the data analysis service receives a data analysis instruction sent by the service application module 13, where the data analysis instruction includes a data analysis type and data to be analyzed, and determines a target analysis sub-service according to the data analysis type, where the target analysis sub-service may be a quarterly total electricity consumption data comparison sub-analysis service or an annual total electricity consumption data comparison analysis sub-service; when the target analysis sub-service determined by the data analysis type is the quarterly total electricity utilization data contrast analysis sub-service and the data to be analyzed is the first quarterly total electricity utilization data of 2019 and 2020 of the user A, the first quarterly total electricity utilization data of the user A in 2019 and 2020 is called from the storage component such as REDIS or HBASE, the difference of electricity utilization of the user A in the first quarterly of 2019 and 2020 is analyzed by using MapReduce or SPARK STREAMING in the technical center 141, and the analysis result is returned to the business application module 13.

For example, the data query service receives a data query instruction of the service application module 13, where the data query instruction includes a data query type and data to be queried, and determines a target query sub-service according to the data query type, where the target query sub-service may be an annual power consumption data query sub-service, a monthly data query sub-service, or a daily power consumption data query sub-service, and the data to be queried may be annual power consumption data, monthly power consumption data, or daily power consumption data of a specific user; when the target query sub-service determined by the data query type is the annual power consumption data query sub-service and the data to be queried is the annual power consumption data of the user a in 2020, which is stored in the storage component such as the REDIS or the HBASE, is called, and the called annual power consumption data of the user a in 2020 is sent to the service application module 13.

For example, the data access control service receives a data access instruction sent by the data processing module 12, the service application module 13, or the service relay station 143, where the data access instruction includes an access data access public key and a data type to be accessed, and determines an access permission result according to the data access public key, for example, the data access control service matches the access data access public key sent by the acquisition module 11, the data processing module 12, the service application module 13, or the service relay station 143 with a private key stored in the data access public key, if the matching result is a matching success, the access permission result is an authorized access, and if the matching result is a matching failure, the access permission result is an unauthorized access. Determining that the data to be accessed is user electricity consumption data of the cell 2020 in the A according to the type of the data to be accessed, accessing the user electricity consumption data of the cell 2020 in the A to obtain the user electricity consumption data of the cell 2020 in the A when the access permission result is access permission, sending the user electricity consumption data of the cell 2020 in the cell 2020 to the acquisition module 11, the data processing module 12, the service application module 13 or the service center 143, and when the access permission result is access permission-free, generating public key matching failure information and feeding the public key matching failure information back to the acquisition module 11, the data processing module 12, the service application module 13 or the service center 143.

The data center station 142 includes data analysis service, data query service and data access control service, and provides data analysis service, data query service or data access control service for the data processing module 12, the business application module 13 or the business center station 143; providing different data processing services for each module; various data processing services of the data center station can effectively meet different data processing requirements among the modules, and the extra data processing capacity provided by the data center station reduces the data processing pressure of the data processing modules.

In one embodiment, the data analysis service further comprises a data metering service; the data metering service includes receiving a data metering request sent by the service application module 13, where the data metering request includes a metering data identifier and a metering type; the data metering service further includes determining target metering data according to the metering data identifier, and then determining a metering sub-service according to a metering type, so that the metering sub-service performs metering processing on the target metering data to obtain a metering result, and sends the metering result to the data display module 131 in the service application module 13.

For example, the data metering service receives a data metering request sent by the service application module 13, where the data metering request includes a metering data identifier and a metering type, the metering data identifier may be monthly power consumption data of a specific user or annual power consumption data of the specific user, and the metering type may be monthly data metering or annual data metering; when the metering data in the data metering request is identified as monthly electricity data of a specific user and the metering type monthly data is metered, 1-month electricity data of the user A2016 + 2020, stored in a storage component such as REDIS or HBASE, is called, metering is performed by using a MapReduce or SPARK STREAMING computing engine in the technical center 141 to obtain a metering result, and the metering result is sent to the data display module 131 in the service application module 13 for feedback.

The data metering service is an extended data service of the data center 142, receives a data metering request sent by the service application module 13, determines target metering data according to a metering data identifier in the data metering request, and determines a metering sub-service according to a metering type in the data metering request, so that the metering sub-service performs metering processing on the target metering data to obtain a metering result, and sends the metering result to the data display module 131 in the service application module 13; and the metering requirement processing of different data by the service application module 13 is realized.

In one embodiment, the business center 143 includes a user authentication service; the user authentication service includes receiving a user authentication instruction sent by the service application module 13, where the user authentication instruction includes an authentication user type and a user to be authenticated; the user authentication service further comprises an authentication sub-service determined according to the type of the authentication user, so that the authentication sub-service authenticates the user to be authenticated to obtain an authentication result, and sends the authentication result to the service application module 13.

For example, when the user B needs to access the service console 143, the user authentication service receives a user authentication instruction sent by the service application module 13, where the authentication instruction includes an authentication user type and a user to be authenticated, the authentication user type includes authentication types such as client authentication, employee authentication, or enterprise authentication, and when the authentication user type is client authentication, the user authentication service determines as a client authentication sub-service, so that the client authentication sub-service recognizes the user to be authenticated as a client, obtains an authentication result, and sends the authentication result to the service application module 13, where the authentication result is, for example, successful authentication.

The authentication command further includes user authentication information such as the authority of the authenticated user and login information authentication.

The user authentication service in the service center 143 receives the user authentication instruction sent by the service application module 13, determines the authentication sub-service according to the authentication user type in the user authentication instruction, so that the authentication sub-service authenticates the user to be authenticated in the user authentication instruction to obtain an authentication result, and sends the authentication result to the service application module 13, thereby realizing different user authentication requirements of the service application module 13; the user authentication service of the business application module is provided, different users can be accessed, the management of different users is realized, and the condition that different user systems need to be developed due to different users is avoided.

The above description is only an example of the present application and is not intended to limit the scope of the present application, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, improvement and the like made within the spirit and principle of the present application shall be included in the protection scope of the present application. It should be noted that: like reference numbers and letters refer to like items in the following figures, and thus, once an item is defined in one figure, it need not be further defined and explained in subsequent figures.

The above description is only for the specific embodiments of the present application, but the scope of the present application is not limited thereto, and any person skilled in the art can easily conceive of the changes or substitutions within the technical scope of the present application, and shall be covered by the scope of the present application. Therefore, the protection scope of the present application shall be subject to the protection scope of the claims.

Claims (9)

1. A power utilization information acquisition system based on an open source cloud and an enterprise-level middle station is characterized by comprising an acquisition module, a data processing module, a business application module and a middle station;

the acquisition module is used for acquiring power utilization data;

the data processing module is used for processing the electricity utilization data acquired by the acquisition module to obtain an electricity utilization data processing result;

the business application module is used for controlling and managing the acquisition module or the data processing module and feeding back data sent by the data processing module;

the middle station is used for receiving a service calling instruction sent by the acquisition module, the data processing module or the business application module, determining a target service according to a service type in the service call, determining a processing target according to a processing type in the service call, processing the processing target according to the target service to obtain a service processing result, and sending the service processing result to the acquisition module, the data processing module or the business application module;

the acquisition module comprises a communication scheduling module, a communication front-end processor and terminal acquisition equipment;

the communication scheduling module is used for receiving the electricity utilization data acquisition instruction sent by the service application module and sending the electricity utilization data acquisition instruction to the communication front-end processor; the electricity utilization data acquisition instruction comprises an acquisition equipment identifier and a data type identifier;

the communication front-end processor is used for determining equipment to be acquired according to the acquisition equipment identifier and sending the data type identifier to the terminal acquisition equipment corresponding to the equipment to be acquired; the communication front-end processor is in long connection with the terminal acquisition equipment;

the terminal acquisition equipment is used for acquiring the target power consumption data corresponding to the equipment to be acquired according to the data type identification, and sending the target power consumption data corresponding to the equipment to be acquired and the data type identification of the target power consumption data to the data processing module.

2. The power consumption information acquisition system based on the open source cloud and the enterprise-level middle desk as claimed in claim 1, wherein the data processing module comprises a data analysis module and a data query module;

the data analysis module is used for receiving the processing instruction sent by the business application module; the processing instruction comprises an electricity utilization data identifier and a processing type;

the data analysis module is further configured to obtain target processing data according to the power consumption data identifier, and process the target processing data according to the processing type to obtain a processing result corresponding to the target processing data;

and the data query module is used for sending the processing result corresponding to the target processing data to the service application module.

3. The power consumption information acquisition system based on the open source cloud and the enterprise-level middleboxes as claimed in claim 2, wherein the data processing module further comprises a data checking module;

and the data checking module is used for checking the power utilization data acquired by the acquisition module to obtain a checking result.

4. The power consumption information acquisition system based on the open-source cloud and the enterprise-level middlebox as claimed in claim 1, wherein the business application module comprises a data display module and a work order processing module;

the data display module is used for receiving the data sent by the data processing module and displaying the data sent by the data processing module;

the work order processing module is used for receiving the work order processing events sent by the data display module, the work order processing events are sent to the work order processing module by an operator when the data displayed by the data display module are abnormal, the work order processing events comprise object identification, work order task types and work order handlers, and the work order processing module is further used for generating work order processing tasks according to the object identification and the work order task types and sending the work order processing tasks to the work order handlers.

5. The power consumption information acquisition system based on the open source cloud and the enterprise-level middleboxes as claimed in claim 1, wherein the middleboxes comprise a technical middlebox, a data middlebox and a business middlebox;

the technical middle station is used for providing technical services for the acquisition module, the data processing module, the business application module, the data middle station or the business middle station;

the data center station is used for receiving the electricity utilization data processing result and the original unprocessed electricity utilization data sent by the data processing module; the data processing module is also used for providing data processing service for the acquisition module, the data processing module, the business application module or the business center station;

and the service center is used for providing authentication service for the data processing module or the service application module.

6. The open-source cloud and enterprise-class middlebox-based power consumption information acquisition system according to claim 5, wherein the technical services comprise a messaging service, a data storage service, a data calculation service and a retrieval service;

the message communication service comprises a message service instruction which is received and sent by the acquisition module, the data processing module, the business application module, the data center station or the business center station, wherein the message service instruction comprises a message service type and a message to be processed; the message communication service also comprises a target message sub-service determined according to the message service type so that the target message sub-service can process the message to be processed to obtain a message processing result; sending the message processing result to the acquisition module, the data processing module, the service application module, the data center or the service center;

the data storage service comprises receiving a data storage instruction sent by the acquisition module, the data processing module, the service application module, the data center station or the service center station, wherein the data storage instruction comprises a data storage type and data to be stored; the data storage service also comprises a target storage sub-service determined according to the data storage type, so that the target storage sub-service processes the data to be stored to obtain a data storage result, and the data storage result is sent to the acquisition module, the data processing module, the service application module, the data center station or the service center station;

the data calculation service comprises the step of receiving a data calculation instruction sent by the data processing module, the service application module, the data center station or the service center station, wherein the data calculation instruction comprises a data calculation type and data to be calculated; the data computing service also comprises a target computing sub-service determined according to the data computing type, so that the target computing sub-service processes the data to be computed to obtain a data computing result, and the data computing result is sent to the data processing module, the business application module, the data center station or the business center station;

the retrieval service comprises receiving retrieval instructions sent by the data processing module, the business application module, the data center station or the business center station, wherein the retrieval instructions comprise retrieval types and items to be retrieved; the retrieval service also comprises a retrieval sub-service which is determined according to the retrieval type so that the retrieval sub-service can process the items to be retrieved to obtain a retrieval result, and the retrieval result is sent to the data processing module, the business application module, the data center station or the business center station.

7. The power consumption information collection system based on the open source cloud and the enterprise-level middlebox as claimed in claim 5, wherein the data middlebox comprises a data analysis service, a data query service and a data access control service;

the data analysis service comprises receiving a data analysis instruction sent by the data processing module, the service application module or the service center, wherein the data analysis instruction comprises a data analysis type and data to be analyzed; the data analysis service also comprises a target analysis sub-service determined according to the data analysis type, so that the target analysis sub-service processes the data to be analyzed to obtain a data analysis result; sending the data analysis result to the data processing module, the service application module or the service central station;

the data query service comprises receiving a data query instruction sent by the data processing module, the service application module or the service center, wherein the data query instruction comprises a data query type and data to be queried; the data query service also comprises a target query sub-service determined according to the data query type, so that the target query sub-service processes the data to be queried to obtain a data query result; sending the data query result to the data processing module, the service application module or the service central station;

the data access control service comprises receiving a data access instruction sent by the data processing module, the service application module or the service center, wherein the data access instruction comprises an access data access public key and a to-be-accessed data type; the data access control service also comprises an access authority result determined according to the data access public key, when the access authority result is authorized access, the data to be accessed is accessed to obtain access data, and the access data is sent to the acquisition module, the data processing module, the service application module or the service central station.

8. The power consumption information collection system based on the open source cloud and the enterprise-level middleboxes of claim 7, wherein the data analysis service further comprises a data metering service;

the data metering service comprises the step of receiving a data metering request sent by the service application module, wherein the data metering request comprises a metering data identifier and a metering type; the data metering service also comprises a data display module which determines target metering data according to the metering data identifier and determines a metering sub-service according to a metering type so that the metering sub-service can measure the target metering data to obtain a metering result and send the metering result to the service application module.

9. The power consumption information collection system based on the open source cloud and the enterprise-level middleboxes of claim 5, wherein the business middleboxes comprise user authentication services;

the user authentication service comprises receiving a user authentication instruction sent by the business application module, wherein the user authentication instruction comprises an authentication user type and a user to be authenticated; the user authentication service also comprises an authentication sub-service which is determined according to the type of the authentication user so that the authentication sub-service can authenticate the user to be authenticated to obtain an authentication result and send the authentication result to a service application module.

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