KR20170134246A - Method of big data management in automatic enbergy meter reading system using an universal subscriber identify module and apparatus for the same - Google Patents

Abstract

The present invention relates to a method for managing big data in an automatic metering system of a meter by using a universal subscriber identify module (USIM), and an apparatus thereof. More particularly, the method comprises the steps of: storing real-time metering information and energy metering information generated based on the real-time metering information from a smart meter in an electrically connected USIM; transmitting the real-time metering information and the energy metering information with customer personal information and customer code information to an apartment house management terminal; anonymizing the customer personal information, generating big data only including the customer code information, and transmitting the big data and energy usage information for each customer to an energy supplier terminal through a communication network by the apartment house management terminal; charging and releasing the big data to the outside by the energy supplier terminal; and performing a re-identification operation for restoring anonymized energy metering information and anonymized real-time metering information for each customer of the big data by an energy business operator terminal. Therefore, the method and the apparatus of the present invention can easily analyze an energy usage pattern of each customer, and can provide an energy savings benefit to each customer who has performed energy saving.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a method and apparatus for managing large data in an automatic meter reading system using an energy meter,

The present invention relates to a system and method for controlling energy consumption of an energy provider such as a demand response (Demand Response) and an ESCO (Energy Service Company) In order to process large-scale energy data using large-scale statistical data, it is necessary to take measures to prevent personal information (address, city / lake, etc.) necessary for business from being identified in the data.

The energy big data processed without personal information can be applied to various industries, but it can not be directly used for the business using the energy meter information such as billing, energy management, and national DR against the individual. In this patent, the Big Data collected through AMI enables operators to collect information on energy meter information for each individual by safely using the personal information necessary for business without using separate meter reading communication infrastructure in connection with Big Data And more particularly, to a method and apparatus for managing big data in a meter automatic meter reading system using a USIM (Universal Subscriber Identify Module).

In recent years, the concept of smart grid has appeared in a variety of fields ranging from energy production, transmission, service, billing and monitoring, such as electric energy using information and communication technology (ICT).

The Smart Grid is a next-generation energy new business that combines information technology (IT) with the power grid and enables energy suppliers and consumers to exchange information in a bidirectional manner to optimize energy efficiency and create new added value.

The Smart Grid, which integrates all of the energy-based systems around the energy and communications infrastructure, controls the interaction of equipment and devices through intelligent automation, allowing the entire system to operate as a single, organic system.

The current energy system consists largely of the energy system and the SCADA network which is the communication infrastructure to control it. The current SCADA system monitors and controls the demand for large-scale facilities such as generators and large-scale customers. However, if the individual end-users participate in the smart grid system in the future, they will actively participate in the energy system unlike the existing SCADA system That is, it produces electricity itself or responds to market prices).

Smart meter can measure energy usage such as electricity, gas, heating which changes in real time and can deliver real time price to consumers. Communication meter installed for communication of smart meter is called AMI (Advanced Metering Infrastructure) do.

1 schematically shows a configuration of a general meter automatic meter reading system, which includes a network communication network 10, a meter 20, an energy supplier server computer 30, and the like.

The network communication network 10 connects a communication line between the meter 20 and the energy provider server computer 30 so that data communication with the real-time meter reading information is performed between them.

The meter (20) performs real-time meter reading of the energy consumption consumed in the electrical equipment in the customer.

The energy supplier server computer 30 is a computer operated by an energy supplier (for example, Korea Energy Corporation). The energy provider server computer 30 includes a meter 20 that is communicatively connected through a network communication network 10, real-time meter reading information, Transmits and receives data, and performs billing processing based on the meter reading information.

At this time, the energy supplier server computer 30 can receive energy information collected by the meter 20 installed in each customer through a separate contract with each customer without any restriction and use it for billing.

However, in order for energy providers such as ESCO, established for energy demand analysis, energy pattern analysis and energy saving, to provide various energy information collected from the meter (20) installed in each customer besides the energy supplier In order to be used as energy big data, it is necessary to remove the information (some or all) that can identify the individual in the data according to the Personal Information Protection Act, Or alternate processing, so that it is difficult to identify a particular individual even when combined with other information.

In other words, in the past, it is difficult for other energy providers other than energy suppliers to recycle energy big data in order to conduct business on each customer side. For the related business, it is necessary to establish a remote meter reading infrastructure (AMI). Therefore, if operators can provide the desired information from the energy big data repository collected through the smart meter, it will increase the unit price of the service and the related industries by enhancing the reusability of the remote meter reading infrastructure (AMI) It will be possible.

Korean Registered Patent No. 10-1310156

The present invention collects energy meter information for each customer from an apartment manager such as an apartment without needing consent of each customer whenever energy service providers such as demand response and ESCO collect energy meter information for each customer Provides a method and apparatus for managing big data in a meter automatic meter reading system using a USIM that allows various energy meter reading information such as energy, water, hot water, accumulated heat amount, and gas to be easily checked on the basis of generated big data do.

The present invention provides a method for efficiently performing use and consent of personal information for business by a new business operator through energy big data collected in big data.

In the present invention, when collecting energy meter information from a smart meter provided in each customer at a house manager side and generating big data, only code information for each customer randomly generated through a USIM electrically connected to the smart meter And the personal information of each customer is anonymized and processed, and provides a method and apparatus for managing big data in a meter automatic meter reading system using the USIM.

In the present invention, when the energy provider uses the Big Data to check the energy meter information of each customer, the energy meter information for each customer, which is anonymized based on the code information of each customer included in the Big Data, A large data management method and an apparatus thereof in a meter automatic meter reading system using a USIM.

A method of managing big data in a meter automatic meter reading system using a USIM according to an embodiment of the present invention is as follows. (1) In a smart meter, an energy usage amount consumed in each facility installed in a customer is checked in real time, (2) a step of storing the energy information of the customer stored in the USIM including the real-time meter reading information and the personal information processed in the step (1) , The private information is unidentified by using the randomly generated accessory code information (key, navigation, etc.), and the encrypted private information is transmitted to the apartment management terminal through the encryption process. ) Big data is generated based on the real-time meter reading information and energy meter reading information of each customer inputted from the smart meter through the step It uses the security technology provided by the USIM to generate big data including only the identification code information and transmits energy usage information and big data for each customer to the energy provider terminal through the network communication network (4) the energy provider terminal performs billing processing based on the energy usage information of each customer provided from the apartment management terminal through the step (3), and discloses the big data to the outside, and (5) The energy provider terminal re-identifies the real-time meter reading information and energy meter reading information for each anonymous consumer of Big Data based on the code information of each customer included in the Big Data for each apartment disclosed through step (4) And performing the steps of:

The method of managing big data in the meter automatic meter reading system using the USIM according to an embodiment of the present invention is characterized in that after step (5), (6) the new energy company terminal performs step (5) The restoration process of personalized information can be executed at the end user's terminal through random code and decryption process in the USIM. USIM or smart card pre-distributed to individuals for new energy services such as ESCO, demand response, etc. Through a service agreement with a smartphone, a service provider can utilize real-time meter reading information and energy meter reading information for each customer in connection with personal information. (7) The energy provider terminal determines compensation for energy savings for each customer who has performed energy saving based on the analysis result obtained in (6). And then performing a compensation process for energy saving.

In step (5), before performing the re-identification process of restoring the real-time meter reading information and energy meter reading information for each anonymous consumer of the big data at the energy provider terminal, It is desirable to agree to the collection of information and energy meter information.

In step (3), the acceptance code information included when generating the big data in the apartment management terminal is newly generated in the smart meter at each time when the apartment data is generated in the apartment management terminal and is provided to the apartment management terminal .

In addition, a big data management device in a meter automatic meter reading system using a USIM according to an embodiment of the present invention includes a network communication network for connecting an unspecified number of communication networks, Real-time meter reading information of energy consumption consumed in various facilities provided inside the customer, and energy meter information generated based thereon are electrically connected to each other, and real-time meter reading information and energy meter reading information are stored in USIM, A smart meter for transmitting the randomly generated accessory code information to the apartment management terminal together with the smart meter, and generating the big data on the basis of the real-time meter reading information and the energy meter information of each customer inputted from the smart meter, Anonymize and accept A housing management terminal for generating big data by including only code information, transmitting energy usage information and big data for each customer through a network communication network to an energy provider terminal, and a multi-housing management terminal provided from a multi- , An energy provider terminal that externally exposes big data provided from the apartment management terminal, and the big data for each apartment house disclosed by the energy provider terminal And an energy provider terminal for carrying out a re-identification operation for restoring real-time meter reading information and energy meter reading information for each anonymous host of big data based on the code information for each customer.

At this time, the smart meter stores the energy meter reading information generated based on the real time meter reading information and the real time meter reading information performed by the meter reading unit, A smart meter, and is connected to the housing management terminal and the energy provider terminal. The personal information is used for accessing the personal information of the customer, the acceptance code to be included in the anonymization operation of the big data, A reception code code generator for randomly generating reception code information to be included in generation of the big data at the apartment management terminal, and a real-time meter reading information and energy meter reading information stored in the storage, The personal information of the customer And a storage unit for storing energy meter information generated based on the real time meter reading information and the real time meter reading information performed by the meter reading unit, Control of transmission of real-time meter reading information and energy meter reading information to the management terminal, control of generation and transmission of the respective customer personal information stored in the USIM with the apartment management terminal through the communication unit, And a control unit.

The USIM has developed the Advanced Encryption Standard (AES) -GCM (Advanced Encryption Standard) for the access control of IEC (International Electrotechnical Commission) 62056 DLMS (Device Language Message Specification) / COSEM (Companion Specification for Energy Metering) (Galois / Counter Mode) -128 standard.

The energy provider terminal performs a re-identification operation for restoring real-time meter reading information and energy meter reading information for each anonymous host of the big data based on the acceptance code information included in the big data for each house disclosed by the energy provider terminal Before proceeding, it is desirable to proceed with consent for the collection of the real-time meter reading information and the energy meter reading information from each customer side.

The energy provider terminal analyzes the energy usage patterns of each customer based on the real-time meter reading information and the energy meter reading information of each customer restored through re-identification work of the big data for each house disclosed by the energy provider terminal, Based on the analysis results, it is desirable to configure the compensation for energy savings for each customer who performs energy saving, and then perform the function of compensating for energy saving.

As described above, according to the method and apparatus for managing big data in the meter automatic meter reading system using the USIM of the present invention, it is possible for energy companies such as demand response and ESCO to collect energy meter information Various energy meter reading information such as energy, water, hot water, accumulated heat amount, and gas on each customer side can be easily checked based on the big data generated and collected. Therefore, every time when collecting energy meter information for each customer, It is possible to easily collect energy meter information for each customer by utilizing big data even without receiving the consent of the customer, and it is possible to easily analyze the energy use pattern of each customer based on this, It is possible to provide benefits in terms of energy savings.

In addition, when collecting housing manager collects energy meter information from a smart meter provided in each customer and generates big data, only code information of each customer generated at random is generated through a USIM electrically connected to the smart meter The personal information on each customer side is anonymized and processed so that the individual information on each customer side is not leaked to the outside.

In addition, when the energy provider uses Big Data to check energy meter information of each customer, re-identification technology that restores energy meter information for each customer based on the code information of each customer included in big data is applied The personal information of each customer can be safely managed.

1 is a view schematically showing a configuration of a general meter automatic meter reading system.
2 is a diagram schematically illustrating a configuration of a big data management apparatus in a meter automatic meter reading system using a USIM according to an embodiment of the present invention.
3 is a detailed view of the configuration of the smart meter of FIG.
4 is a flowchart illustrating an operation procedure of a big data management room in a meter automatic meter reading system using a USIM according to an embodiment of the present invention in detail.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a method and apparatus for managing big data in a meter automatic meter reading system using the USIM of the present invention will be described in detail with reference to the accompanying drawings. The present invention may be embodied in many different forms and is not limited to the embodiments described herein. Like parts are designated with like reference numerals throughout the specification.

2 is a diagram schematically illustrating a configuration of a big data management apparatus in a meter automatic meter reading system using a USIM according to an embodiment of the present invention.

As shown in the figure, the apparatus of the present invention includes a network communication network 100, a smart meter 200, a housing management terminal 300, an energy provider terminal 400, and an energy provider terminal 500.

The network communication network 100 is a variety of known communication networks including wired and wireless Internet. The network communication network 100 connects communication lines between the smart meter 200 and the apartment management terminal 300 to provide real-time meter reading information and energy meter reading information So that data communication is performed.

Also, the network communication network 100 connects the communication lines between the apartment management terminal 300 and the energy provider terminal 400 to provide real-time meter reading information and energy meter reading information for each customer, data related to big data per apartment, So that communication can be performed.

In addition, the network communication network 100 connects the communication network between the energy provider terminal 400 and the energy provider terminal 500 so that data communication related to the big data for each apartment can be performed.

The smart meter 200 is electrically connected to the USIM, which stores real-time meter reading information of energy consumption consumed in various facilities provided inside the customer and energy meter information generated based thereon.

Also, the smart meter 200 transmits the real-time meter reading information and energy meter information used in each customer together with the personal information stored in the USIM and the randomly generated customer code to the apartment management terminal 300 together.

The apartment management terminal 300 is a computer operated by the apartment manager and performs a function of generating big data based on real-time meter reading information and energy meter reading information of each customer input from the smart meter 200. Big data is large-scale data that is generated in a digital environment and is large in size, short in generation period, and includes large-sized data including characters and images as well as numerical data in a form. Big data generated in the apartment management terminal 300 is stored in a smart meter The customer personal information provided from the personal computer 200 is anonymized and includes the customer code information.

Also, the apartment management terminal 300 periodically transmits energy usage information and big data for each customer through the network communication network 100 to the energy provider terminal 400.

The energy provider terminal 400 is a computer operated by an energy supplier such as energy, gas, water, etc. (for example, in the case of energy, water resource corporation in the case of Korea Energy Corporation water service) Billing processing for each customer based on energy usage information for each customer belonging to the common house provided from the management terminal 300 and posting the big data provided from the apartment management terminal 300 on the website To the outside by way of At this time, it is needless to say that it is possible to utilize all publicly known methods such as disclosing the big data by itself in addition to the method performed by the energy supplier side.

The energy provider terminal 500 exchanges energy use facilities on behalf of the energy users lacking in the demand response, ESCO (technology and financing capability, and performs loan financing support and operation management for a business guaranteeing the saving effect generated here , Which is an energy conservation company specialized in energy conservation, etc.), it is a communication terminal such as a smart phone. Based on the code information of each customer included in the big data for each apartment, Real-time meter reading information and energy meter reading information are restored. For example, based on the customer code information, it is confirmed which data of the customer the specific data of the big data is. Accordingly, it is not necessary for the energy provider to collect various energy meter information such as energy, water, hot water, calorific value, and gas directly from the smart meter 200 installed in each customer, It is easy to collect energy meter information by customer.

At this time, the energy provider terminal 500 re-identifies the real-time meter reading information and the energy meter reading information for each anonymous host of the big data based on the acceptance code information included in the big data for each house disclosed by the energy supplier Before proceeding, consent for collecting real-time meter reading information and energy meter reading information from each customer side can be made. Of course, this procedure can be skipped if consent from each customer is not required.

In addition, the energy provider terminal 500 analyzes the energy usage pattern of each customer based on the real-time meter reading information and the energy meter information for each customer, which are restored through re-identification of the big data for each apartment disclosed by the energy supplier Based on the results of the analysis, it is possible to further compensate for energy savings after confirming the compensation for energy savings for each customer who has performed energy savings.

3 is a diagram showing the configuration of the smart meter 200 of FIG. 2 in more detail.

The smart meter 200 of the present invention includes a meter reading unit 210, a storage unit 220, a USIM 230, a customer code generation unit 240, a communication unit 250, and a control unit 260 .

Based on the control of the control unit 260, the meter reading unit 210 checks in real time the amount of energy used in various facilities provided in the customer.

The storage unit 220 stores energy meter information generated based on real time meter reading information and real time meter reading information performed by the meter reading unit 210 and stores software for driving the smart meter 200. [

The USIM 230 is electrically connected to the smart meter 200 and based on the customer side personal information to be used according to the communication connection with the apartment management terminal 300 and the energy provider terminal 400 and the energy usage information of each customer And the acceptance code information to be included in the anonymization operation of the generated big data is stored.

At this time, the USIM 230 is preferably implemented according to the AES-GCM-128 standard for access control and data communication security of the IEC 62056 DLMS / COSEM of the International Electrotechnical Commission (IEC) applied to the smart meter 200 .

The customer code generating unit 240 randomly generates the customer code information with reference to the information stored in the USIM 230 based on the control of the controller 260 when generating the big data in the apartment management terminal 300 .

The communication unit 250 receives the real-time meter reading information and the energy meter information stored in the storage unit 220 based on the control of the controller 260, the individual personal information stored in the USIM 230, And transmits the customer code information to the apartment management terminal 300.

The control unit 260 collectively controls the storage of the energy meter information generated based on the real-time meter reading information and the real-time meter reading information performed by the meter reading unit 210 in the storage unit 220. The controller 230 controls the transmission of the real-time meter reading information and the energy meter reading information to the apartment building management terminal 300 through the communication unit 250 and controls the transmission of the real-time meter reading information and energy meter reading information stored in the USIM 230 to the apartment building management terminal 300 through the communication unit 250 And controls generation and transmission of the customer code information in the customer personal information and customer code generation unit 240.

Next, an embodiment of a method of managing big data in the automatic meter reading system using the USIM according to the present invention will be described in detail with reference to FIG. At this time, each step according to the method of the present invention may be changed in the use environment or the order by a person skilled in the art.

4 is a flowchart illustrating an operation procedure of a big data management method in a meter automatic meter reading system using a USIM according to an embodiment of the present invention in detail.

First, the smart meter 200 provided in a customer measures the amount of energy consumed in each facility installed in the customer in real time, and the energy meter information including the real-time meter reading information and the load profile generated based on the information is transmitted to a smart meter 200 in the USIM 230 electrically connected thereto (S100).

Then, the smart meter 200 transmits the real-time meter reading information and the energy meter information processed in step S100 to the apartment management terminal 300 together with the individual personal information stored in the USIM 230 and the randomly generated customer code information S200).

In operation S300, the apartment management terminal 300 generates big data on the basis of the real-time meter reading information and the energy meter reading information of each customer input from the smart meter 200 provided on each customer side in operation S200. That is, the apartment management terminal 300 is to anonymize the private information provided from the smart meter 200, and generate big data by including only the customer code information.

At this time, the acceptance code information included when generating the big data in the apartment management terminal 300 through the step S300 is newly generated in the smart meter 200 at each time when the apartment management terminal 300 generates the big data And can be provided to the apartment management terminal 300.

After generating the big data in step S300, the apartment management terminal 300 transmits the energy usage information and the big data for each customer to the energy provider terminal 400 through the network communication network 100 (S400).

The energy provider terminal 400 performs billing processing for each customer based on energy usage information for each customer provided from the apartment management terminal 300 through S400 and releases the big data to the outside (S500).

After the big data of the apartment house is disclosed to the outside, the energy provider terminal 500 displays the real data of each of the anonymous private data of the big data based on the code information of each owner included in the big data for each apartment, Information and energy meter reading information is restored (S600). That is, based on the customer code information included in the big data, it is confirmed which data is the specific data that is anonymized in the big data.

At this time, the energy provider terminal 500 transmits the real-time meter reading information and energy from the respective customers before performing the re-identification operation to restore the real-time meter reading information and energy meter reading information for each anonymous host of the big data through step S600 The process of agreeing to the collection of the meter reading information can be performed first. Of course, if the consent of each customer is not required, the procedure of obtaining consent may be omitted.

After the re-identification of the big data is performed in step S600, the energy provider terminal 500 determines whether or not it is possible to identify the individual customers based on the real-time meter reading information and the energy meter reading information for each customer restored through the re- The energy usage pattern is analyzed (S700).

In step S800, the energy provider terminal 500 determines compensation for energy savings for each customer who has performed energy savings based on the analysis result obtained in step S700, and then proceeds to compensate for the energy savings.

As described above, according to the present invention, whenever an energy provider collects energy meter information for each customer, the energy meter information can be easily collected by using the big data generated by the apartment manager without receiving the consent of each customer Based on this, it is possible to easily analyze the energy usage pattern of each customer, and it is possible to provide energy savings benefit to each customer who has performed energy saving.

On the other hand, in the smart meter 200, the USIM 230 encrypts information related to various types of custody by using a predetermined cipher code, encrypts the cipher code using a pre-stored private key, And transmits it to the authorized energy provider terminal 400. The provider terminal 400 decrypts the encrypted password by using the public key stored in advance and then uses the decrypted public key to decrypt the non- Lt; / RTI >

It will be apparent to those skilled in the art that various modifications may be made to the invention without departing from the spirit and scope of the invention as defined in the following claims And changes may be made without departing from the spirit and scope of the invention.

100: Network communication network
200: Smart meter
210:
220:
230: USIM
240: a customer code generation unit
250:
260:
300: Apartment house management terminal
400: Energy supplier terminal
500: Energy business terminal

Claims (9)

(1) In the smart meter, the energy consumption amount consumed in each facility installed in the customer is measured in real time, and the real-time meter reading information and the energy meter reading information generated based thereon are transmitted to a universal subscriber identification module (USIM) Storing,
(2) The smart meter transmits the real-time meter reading information and the energy meter information processed in the step (1) together with the private personal information stored in the USIM and the randomly generated consumer code information to the apartment management terminal together,
(3) The apartment management terminal generates big data based on the real-time meter reading information and the energy meter reading information of each customer inputted from the smart meter through the step (2), the personal information of the consumer is anonymized, Generating big data by transmitting only the energy data to the energy provider terminal, transmitting energy usage information and big data for each customer through the network communication network to the energy provider terminal,
(4) The energy provider terminal performs billing processing based on energy usage information for each customer provided from the apartment management terminal through the step (3), and discloses the big data to the outside, and
(5) The energy provider terminal reconstructs the anonymized real-time meter reading information and energy meter reading information of the big data based on the code information of each customer included in the big data for each apartment disclosed in the step (4) Performing a re-identifying operation
And a large data management method in a meter automatic meter reading system using a USIM. The method according to claim 1,
(6) The energy service terminal analyzes energy usage patterns for respective customers based on the real-time meter reading information and energy meter reading information for each customer restored through the re-identification of the big data through the step (5) Step, and
(7) The energy service terminal confirms the compensation for energy savings for each customer who has performed the energy saving based on the analysis result obtained in the step (6), and then proceeds to compensate for the energy saving
The method of claim 1, further comprising the steps of: The method according to claim 1,
Before performing the re-identification operation for restoring the anonymized real-time meter reading information and the energy meter reading information of the big data in the energy provider terminal through the step (5)
And the energy provider terminal proceeds with consent for collecting the real-time meter reading information and the energy meter reading information from each of the customers, and the big-data management method in the meter automatic meter reading system using the USIM. The method according to claim 1,
The acceptance code information included when generating the big data in the apartment management terminal through the step (3)
Wherein the smart meter is newly generated and provided to the apartment management terminal every time the big data is generated at the apartment management terminal, and the big data management method in the meter automatic meter reading system using the USIM. A network communication network for connecting an unspecified number of communication networks to allow mutual data communication related to big data for each apartment house,
And real time meter reading information of energy consumption consumed in various facilities provided inside the customer and energy meter reading information generated based thereon are electrically connected to a USIM (Universal Subscriber Identify Module) A smart meter that transmits randomly generated access code information to the apartment management terminal,
Generating big data on the basis of real-time meter reading information and energy meter reading information of each customer input from the smart meter, generating private data by only answering personal information provided from the smart meter and including only the customer code information, A housing management terminal for transmitting energy usage information and big data for each customer to the energy supplier terminal,
A billing process is performed based on energy usage information for each customer belonging to a common house provided from the apartment management terminal through the network communication network, and energy for exposing the big data provided from the apartment management terminal to the outside Supplier terminals, and
An energy provider that performs a re-identification operation for restoring real-time meter reading information and energy meter reading information for each anonymous host of the big data based on the code information for each customer included in the big data for each apartment disclosed by the energy provider terminal terminal
And a large data management device in a meter automatic meter reading system using a USIM. 6. The method of claim 5,
The smart meter includes:
A meter reading unit for real-time meter reading of energy usage used in various facilities provided in a customer,
A storage unit storing energy meter information generated based on the real time meter reading information and real time meter reading information performed by the meter reading unit and storing software for driving the smart meter,
A USIM, which is electrically connected to the smart meter and stores personal information on a customer side to be used when communicating with the apartment management terminal and the energy provider terminal, and accessory code information to be included in anonymizing operation of the big data,
An acceptance code generating unit for randomly generating acceptance code information to be included in generating the big data in the apartment management terminal,
A communication unit for transmitting the real-time meter reading information and the energy meter reading information stored in the storage unit, the individual personal information stored in the USIM, and the acceptance code information generated in the acceptance code generating unit to the apartment management terminal
Real-time meter reading information and energy meter reading information with the apartment management terminal through the communication unit, and a control unit for collectively controlling the energy meter reading information generated based on real-time meter reading information and real-time meter reading information performed by the meter reading unit, And a control unit for controlling the generation and transmission of the individual caveat personal information stored in the USIM with the caretaker house management terminal and the caveat code information in the caveat code generation unit through the communication unit,
And a large data management device in a meter automatic meter reading system using a USIM. The method according to claim 6,
The USIM comprises:
AES (Advanced Encryption Standard) -GCM (Galois / ALC) for access control and data communication security of IEC (International Electrotechnical Commission) 62056 DLMS (Device Language Message Specification) / COSEM (Companion Specification for Energy Metering) Counter Mode) -128 standard. The Big Data Management Device in the automatic meter reading system using a USIM. 6. The method of claim 5,
The energy provider terminal,
Prior to performing a re-identification operation for restoring real-time meter reading information and energy meter reading information for each anonymized customer of the big data on the basis of the customer code information included in the big data for each apartment disclosed by the energy provider terminal,
And the agreement of collection of the real-time meter reading information and the energy meter reading information from each of the customers is proceeded. 6. The method of claim 5,
The energy provider terminal,
The energy usage pattern for each customer is analyzed based on the real-time meter reading information and the energy meter reading information for each customer restored through the re-identification work of the big data for each apartment disclosed by the energy provider terminal,
Based on the results of the analysis, the compensation for the energy savings is determined for each customer who has performed the energy saving, and then the compensation for the energy saving is further performed. Further, in the automatic meter reading system using the USIM, Data management device.

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