KR101762975B1 - Subscriber Identification Module for Electronic metering energy in SmartGrid, and System and Method of Electronic measuring using thereof - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a system and an apparatus for protecting power metering values transmitted and received between a user and a power supplier from external attacks as well as by user per measurement of power usage. To this end, an electronic power metering system of the present invention for measuring power usage by user includes an identifier for identifying a user who wants to use power through at least one power device, A subscriber identity module for storing the amount of power consumed; And a management server for allowing the at least one power device to use power for the user when the user is identified through comparison between the identifier of the subscriber identity module and the identifier information for each user stored in the identifier storage.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a subscriber identity module for an electronic power meter based on a smart card and an electronic power metering system and method using the subscriber identity module,

The present invention relates to a system and method for enabling authentication and user-specific power metering for a subscriber in a smart grid system, and more particularly, the present invention relates to a system and method for enabling power metering not only for a user but also between a user and a power supplier And more particularly, to a system and apparatus for protecting power measurement values against external attacks.

At the heart of the smart grid is the use of information and communication technologies to rationalize consumer energy use and promote the use of renewable energy. For this purpose, the security certification measures for securing the privacy of consumers are a prerequisite, and in particular, security of the entry point of the power grid is important to maintain stability of the power grid.

Problems to be expected in the conventional electronic power metering infrastructure include deliberate information corruption through unauthorized access to an external meter, retransmission after illegal forgery and falsification of collected metering information, personal information through grasping power usage through real- Infringement, and illegal equipment changes in electronic watt-hour meters including unauthorized SW changes. Currently, security functions for smart meters are being considered in the smart grid environment, but there are many limitations such as high cost, replacement and security system in realistic technology development.

On the consumer side, information about power usage is unauthorized, and personal information about power usage pattern and abuse of crime may be caused, such as privacy invasion and impersonation. Also, there is a need for a system capable of resolving disputes based on the power meter data entirely dependent on the power rate determination. Therefore, there is insufficient authentication and security system between devices such as IHD (In Home Display), smart meter, external communication system which require data related to electricity rates, information can be leaked, and electricity can be used without permission through external outlet and plug have.

In this connection, Korean Patent Registration No. 1065595, entitled " Method and System for Providing Power Charged Based on Electronic Authentication Card, "exists.

It is an object of the present invention to provide an electronic power metering system for measuring the amount of power used by each user rather than measuring the amount of power used by each existing site. It is also an object of the present invention to prevent exposure of a measured amount of power to an attacker using an encryption technique in the communication between the server and the user of the measured power amount.

In order to solve the above problems, an electronic power metering system of the present invention for measuring the amount of power used by a user is an electronic power metering system for measuring the amount of power used by each user, A subscriber authentication module including an identifier for identifying the at least one power device and storing the amount of power consumed or supplied through the at least one power device; And a management server for allowing the at least one power device to use power for the user if the user is identified through comparison between the identifier of the subscriber identity module and the identifier information for each user stored in the identifier storage, The module may be formed as a portable module based on a smart card using a Chip Operation System (COS), and the subscriber identity module may include a voltage and a current for a variable supply voltage portion in an IC portion included in the smart card, So that the power value used when the at least one power device consumes or supplies power can be measured.

In addition, when the user utilizes power from at least one power device, the used power usage is measured and encrypted in the subscriber identity module, the encrypted power usage is transmitted to the management server, and the management server periodically And stored in a power usage storage.

In addition, the subscriber identity module may be formed as a sub-meter embedded in each of the at least one power device, so that the respective amounts of power measured by the at least one power device can be collected and stored through the sub- do.

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Further, the subscriber identity module may include an identifier including an identifier; A measuring unit for measuring an amount of electric power consumed or supplied by at least one power device; An encryption unit for encrypting the measured power measurement value from the measurement unit for security; And a communication unit for transmitting the encrypted power measurement value to the management server.

Also, the management server may include an authentication unit for comparing the identifier of the subscriber identity module with the identifier information for each user stored in the identifier storage to determine a user consuming or supplying power through the at least one power device; And a decryption unit for performing decryption of the encrypted power usage amount and reading the measured power usage amount.

Further, the subscriber identity module uses at least one of DES, AES, and RSA / ECC when encrypting the used power consumption.

In addition, the identifier storage further includes a black list, which is a list of users whose power supply should be cut off from at least one power device, so that when the user is determined to be a user included in the black list at the time of user authentication, So that power can not be supplied from at least one power device.

According to an aspect of the present invention, there is provided a subscriber identity module, which can be formed as a portable module based on a smart card using a Chip Operation System (COS), comprising: An identification unit including an identifier for identifying a user who wants to use the terminal; A measuring unit for measuring an amount of power consumed or supplied by the at least one power device; An encryption unit for encrypting the measured power measurement value from the measurement unit for security; And a communication unit for transmitting the encrypted power measurement value to the management server, wherein the measurement unit measures the voltage and current for the variable supply voltage portion in the IC unit included in the smart card, Of the electric power consumed by the power device can be measured.

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According to an aspect of the present invention, there is provided an electronic power metering method comprising: comparing an identifier stored in a subscriber identity module with user-specific identifier information stored in an identifier storage, thereby obtaining a user who consumes or supplies power in at least one power device Identifying; Measuring the amount of power consumed or supplied by the at least one power device when power is consumed or supplied at the at least one power device; Encrypting the measured amount of power; And transmitting the encrypted measured amount of power to the power consumption storage, wherein the subscriber authentication module may be configured as a portable module based on a smart card using COS, and the at least one power device Measuring the amount of power consumed or supplied comprises the step of the subscriber identity module measuring the voltage and current for the variable supply voltage portion in the IC portion included in the smart card to infer the power so that the at least one power device The power value used when consuming or supplying power can be measured.

In addition, the step of measuring the amount of power consumed or supplied by the power device may be performed by the subscriber identity module as a sub-meter embedded in each of the at least one power device, And collecting and storing the amount of power.

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Further, the identifier storage further includes a black list, which is a list of users whose power supply should be cut off from at least one power device, so that when the user is authenticated, And blocking the user from receiving power from the at least one power device.

According to the electronic power metering system and method of the present invention, when the electric power supplying company charges the electric power consuming consumer, the electric power user charges the electric power user for the user . Also, when the amount of power measured by the electronic power metering system and method is communicated between the consumer and the business, it is effective to be protected from external attack.

Further, according to the electronic power metering system and method of the present invention, there is an effect that the user can grasp the amount of power consumed in each power device.

1 is a block diagram of an electronic power metering system in accordance with an embodiment of the present invention.
2 is a diagram showing an embodiment in which a subscriber identity module included in the electronic power metering system of the present invention can be applied;
3 is a block diagram of a subscriber identity module included in the electronic power metering system of the present invention.
4 is a block diagram of a management server included in the electronic power metering system of the present invention.
5 is a flow diagram of an electronic power metering method in accordance with an embodiment of the present invention.

The present invention will now be described in detail with reference to the accompanying drawings. Hereinafter, a repeated description, a known function that may obscure the gist of the present invention, and a detailed description of the configuration will be omitted. Embodiments of the present invention are provided to more fully describe the present invention to those skilled in the art. Accordingly, the shapes and sizes of the elements in the drawings and the like can be exaggerated for clarity.

Hereinafter, an electronic power metering system according to an embodiment of the present invention will be described with reference to FIGS. 1 to 4. FIG.

1 is a block diagram of an electronic power metering system 100 in accordance with an embodiment of the present invention. 1, the electronic power metering system 100 of the present invention includes a subscriber authentication module 110, a gateway 120, a management server 130, a power usage storage 140, and an identifier storage 150 . Hereinafter, the above configuration will be described in more detail.

The subscriber identity module 110 is a module used for user-specific power measurement rather than a conventional power meter, and includes an identifier for identifying a power user through at least one power device. This identifier is stored in the identification unit 111 included in the subscriber identity module 110 as shown in FIG. These identifiers are used to individually identify users who consume power by a power supplier, and have unique ID values. The subscriber identity module 110 also includes a metering unit 112 that can measure the amount of power used from the power device, as discussed below with reference to Figures 2 and 3. In this way, the subscriber identity module 110 can measure the amount of power used from the power device, so that some of the functions performed in the existing smart meter can be used separately, or when the user wants to know the amount of power consumption for each power device And can be used as an application. In addition, the subscriber identity module 110 may further include a storage (not shown) capable of storing the above-mentioned power meter. Such a subscriber identity module 110 may have the form of a smart card as shown in FIG.

2, an example of a smart card is shown for each international standard. Here, ID-000 corresponds to a commonly used U-SIM card, and ID-1 corresponds to an IC card such as a credit card. In the right part of the drawing, an enlarged view of the IC part included in the smart card is shown. The IC portion is composed of C1 to C8. Where C1 is the supply voltage required to drive the IC chip, C2 is the reset, C3 is the clock, C5 is the ground, C6 is the variable supply voltage, C7 is the interface for data input and output, and C4 and C8 are the USB terminals It is a part that is not. Since the configurations of C1 to C8 are obvious to those skilled in the art, a detailed description thereof will be omitted. Here, C6 is not currently used as well known, as it can cause problems with ISO standards.

Therefore, according to the present invention, a voltage and current are measured on the unused C6 to derive power, and a circuit for converting the measured power value to digital is inserted to measure power in the power device in addition to the original function of the smart card I can do it. These smart cards perform communication using the standard protocol of IEC 7816. In addition, when the subscriber identity module 110 is used as a smart card, the smart card may have the advantage of security. That is, the advantage of the smart card is that it is the safest . Such smart cards include, for example, an attacking type (e.g., SPA / DPA attack) that analyzes key values through a type of power consumption, a type that decomposes a chip element to analyze memory / data paths, Or a clock signal to generate an error, and to respond to various types of attack such as acquiring a key value at this time, a type causing a malfunction, an attack type in which an element is disconnected, or an arbitrary element is reconnected. That is, indirectly or directly measured data can be securely stored in the power device through the smart card capable of measuring the power of the power device, thereby preventing intentional damage due to an external attack. In addition, an advantage of forming the subscriber identity module 110 as a portable module based on a smart card is high portability. Accordingly, when power is consumed in the power device, the subscriber identity module 110 can be inserted into or contact with the power device to simplify user authentication, and the power consumed by the power device can be measured. Also, according to an embodiment of the present invention, a Java Card COS (Chip Operation System), which is an open operating system, is used for such a smart card. Therefore, standardized application development through security API and the same function and performance can be guaranteed in various modules. In addition, a plurality of applications can be executed according to the capacity of the memory, so that it is easy to develop additional services, and various applications can be safely updated through various communications such as PLC and Zigbee, if necessary. In addition, a framework for secure download and application management protocols such as OTA (Over The Air) technology can be provided.

Although the subscriber identity module 110 has been described as a smart card-based example, the subscriber identity module 110 is not limited to this type, and may be a first power device 11 to a third power device It should be understood that the first sub-meter 110a to the third sub-meter 110c inserted into the device 13 may be embedded. The first to third submeters 110a to 110c may be used for measuring the amount of power used in each of the first to third power devices 11 to 13. Thus, the user can know how much power is used in each of the first to third power devices 11 to 13. A description thereof will be made below with reference to FIG. Although the first to third power devices 11 to 13 used throughout the specification are referred to as devices that consume power, it is also possible to use devices such as distributed power generation devices, And may include devices that consume the aforementioned power, for example, smart appliances or electric vehicle charging stations. Therefore, it should further be understood that in a device consuming power among the power devices, the sub-module measures the amount of power used and the sub-module can measure the amount of power supplied to the device.

1, the subscriber identity module 110 is connected to the first to third sub-meters 110a to 110c incorporated in the first to third power devices 11 to 13. The first sub meter 110a to the third sub meter 110c are in a state where the subscriber identity module 110 is built in the power device as described above. In this example, the amounts of power consumed or supplied by the first to third power devices 11 to 13 are measured in the first to third sub-meters 110a to 110c, The subscriber identity module 110 transmits the first power device 11 to the third power device 13 measured by the first sub meter 110a to the third sub meter 110c, It is possible to collect the amount of power consumed or supplied. If the subscriber is not included in the first to third power devices 11 to 13, the first to third power devices 11 to 13 ) Can measure the amount of electricity consumed or supplied. The collected measurement values are encrypted through the encryption unit 113 (see FIG. 3). The encryption scheme to be performed here may use at least one of a conventional encryption scheme, for example, DES, AES, and RSA / ECC. However, this encryption technique is not limited to this, and it should be understood that encryption can be performed through a cryptographic technique to be known in the future. The encrypted measurement values may be stored periodically or in the power usage storage via the gateway 120 according to the settings of the operator. Through the encryption unit 113, the data transmitted and received between the user and the service provider can be kept secure even if the data passes through the intermediate node.

3, the subscriber identity module 110 transmits the encrypted power measurement value including the communication unit 140 to the management server 130 via the gateway 120, and the management server 130 And causes the encrypted power measurement value to be stored in the power usage storage 140.

The management server 130 largely performs two functions as described below. The first function of the management server 130 is to authenticate the user based on the identifier stored in the subscriber identity module 110. [ This authentication is performed through the authentication unit 131 included in the management server 130 (see FIG. 4). The authentication performed by the authentication unit 131 is performed by comparing the identifier of each user issued by the power supplier stored in the identifier storage 150 with the identifier of the user stored in the subscriber authentication module 110. Here, the identifier storage 150 may further include a black list, which is a list of users whose power supply from at least one power device should be shut off. Here, the user stored in the black list means a user whose power supply should be cut off, for example, due to non-payment of charge. When the identifier stored in the subscriber identity module 110 is determined to be an identifier stored in the black list in the authentication procedure, the power supply is interrupted so that the user having the identifier can not receive power from at least one power device. Therefore, after a user who wants to use the power is identified through at least one of the first to third power devices 11 to 13, the power for the first to third power devices 11 to 13 Use is permitted. This makes it possible to measure the amount of power of the user based on the existing address based power measurement.

Also, a second function of the management server 130 may decrypt the encrypted metric stored in the power usage storage 140. This is done from the decryption unit 132 included in the management server 130. By decrypting the encrypted power measurement value performed by the decryption unit 132, the user-specific power measurement value can be securely transmitted from the external attack between the user and the power supplier. Here, the power consumption storage is a storage in which measurement values for power consumption per user are stored.

The electronic power metering method of the present invention will be described below with reference to FIG. For simplicity of description, redundant contents of the contents described in the electronic measuring apparatus 100 described above with reference to Figs. 1 to 4 are omitted.

First, a user identification step (S110) is performed. In step S110, as described with reference to FIGS. 1 to 4, the identifier stored in the subscriber identity module of the user to consume power through at least one power device is compared with the identifier information per user stored in the identifier store. Through the comparison, it is possible to determine whether or not the user having the subscriber identity module is a normal user. This identifier store also includes a blacklist, which is a list in which the power supply should be shut off, as described above, so that it is determined whether a user who wants to consume power through at least one power device is included in this blacklist S120) is performed. If the user is included in the black list, the control is transferred to step S160. If the user is not included in the black list, the control is transferred to step S130.

Step S130 is a step performed when the user is not included in the black list, as described above, and the user is supplied with electric power through the power device. At this time, the power consumption is measured through the subscriber identity module of the user, and the measured power consumption is encrypted (S140). In the case where the first to third sub-meters are included in the first power device to the third power device, as shown in FIG. 1, in step S140, the measurement is performed in the first to third sub- It is possible to collect and store the amounts of power of the first to third power devices. Also, as mentioned above, the subscriber authentication module may be formed as a portable module based on a smart card using a Java card COS, or may exist in a form embedded in a power device. Here, the smart card includes a circuit for measuring the current and voltage values consumed when the first power device to the third power device consume power according to an embodiment of the present invention and calculating the actual consumed power value . Therefore, it is possible to grasp the actual power measurement values consumed in the first to third power devices through the smart card. Also, as mentioned above, at least one of well-known techniques, for example, DES, AES, and RSA / ECC, may be used, but not limited to, It should be understood that the invention may also be applied.

In step S150, the encrypted measured power value is periodically transmitted to the power consumption storage via the gateway. Through the step S150, the management server shown in FIG. 1 can read the measurement power value stored in the power consumption storage, so that the power supplier can grasp the power measurement value consumed by the user.

As described above, an optimal embodiment has been disclosed in the drawings and specification. However, those skilled in the art will recognize that the subscriber identity module according to one embodiment of the present invention and the electronic metering system and method using such subscriber identity module can be variously applied. For example, a key management system that distinguishes data for billing and energy management (EMS) and all related information that occurs in the home can be constructed using EM-SIM to create a user-specific security system. Selective access control and transmission of data is possible and can be managed by an individual. In addition, as an extension function of the subscriber identity module, when a subscriber authentication module issues a hash value, a checksum, an electronic signature, etc. of the SW code assigned at the approval of the watt-hour meter type as a statutory meter, these are stored, By comparing the value stored in the subscriber identity module with the value stored in the subscriber identity module, it is possible to essentially block the illegal change of the meter. In addition, as mentioned above, by changing the system based on the user rather than by the electricity meter based on the address, it becomes possible to appropriately manage the payment and the illegal use for each user, Accordingly, it is possible to give a variety of fare usage benefits such as various fare policies, mileage, and membership to the customer. In addition, since black list management by credit becomes possible, it is possible that various parts can be eliminated in overcharge.

Although specific terms have been used throughout the specification, it is understood that they have been used only for the purpose of illustrating the invention and not for limiting the scope of the invention as set forth in the claims or the claims. Therefore, those skilled in the art will appreciate that various modifications and equivalent embodiments are possible without departing from the scope of the present invention. Accordingly, the true scope of the present invention should be determined by the technical idea of the appended claims.

100: Electronic power meter system 110: Subscriber identity module
120: gateway 130: management server
140: power consumption storage 150: identifier storage

Claims (17)

An electronic power metering system for measuring power usage by a user,
A subscriber identity module that includes an identifier for identifying a user who wants to use power through at least one power device and stores an amount of power consumed or supplied through the at least one power device; And
And a management server for allowing the at least one power device to use power for the user when the user is identified through comparison between the identifier of the subscriber identity module and the identifier information per user stored in the identifier storage,
The subscriber identity module may be formed as a portable module based on a smart card using a COS (Chip Operation System)
Wherein the subscriber identity module measures a power value used when the at least one power device consumes or supplies power by measuring a voltage and a current with respect to a variable supply voltage portion in an IC portion included in the smart card, Wherein said electronic power metering system comprises: The method according to claim 1,
Wherein when the user utilizes power from the at least one power device, the used power usage is measured and encrypted in the subscriber identity module, the encrypted power usage is transmitted to the management server, And the power consumption is stored in the power consumption storage periodically. The method according to claim 1,
The subscriber identity module,
Characterized in that the at least one power device can be formed as a sub-meter embedded in each of the at least one power devices, whereby each of the measured amounts of power in the at least one power device can be collected and stored via the sub- Power metering system. delete delete The method according to claim 1,
The subscriber identity module,
An identification unit including the identifier;
A measuring unit for measuring an amount of power consumed or supplied by the at least one power device;
An encryption unit for encrypting the measured power measurement value from the measurement unit for security; And
And transmits the encrypted power measurement value to the management server. 3. The method of claim 2,
The management server includes:
An authentication unit that compares the identifier of the subscriber identity module with user-specific identifier information stored in the identifier storage to determine a user who consumes or supplies power through the at least one power device; And
And a decryption unit operable to decrypt the encrypted power usage amount and to read the measured power usage amount. 3. The method of claim 2,
The subscriber identity module,
Characterized in that at least one of DES, AES and RSA / ECC is used when encrypting the used power usage. The method according to claim 1,
Wherein the identifier store comprises:
Wherein the management server further includes a black list that is a list of users whose power supply should be shut off from the at least one power device. When the management server determines that the user is included in the black list, Is prevented from receiving power from the at least one power device. ≪ Desc / Clms Page number 16 > 1. A subscriber identity module that can be formed as a portable module based on a smart card using a Chip Operation System (COS)
An identification unit including an identifier for identifying a user who wants to use power through at least one power device;
A measuring unit for measuring an amount of power consumed or supplied by the at least one power device;
An encryption unit for encrypting the measured power measurement value from the measurement unit for security; And
And a communication unit for transmitting the encrypted power measurement value to the management server,
The measuring unit may measure the power value used when the at least one power device consumes or supplies power by measuring the voltage and current with respect to the variable supply voltage portion in the IC unit included in the smart card Characterized by a subscriber identity module. delete Identifying a user who wants to consume or supply power in at least one power device by comparing the identifier stored in the subscriber identity module with the identifier information per user stored in the identifier repository;
Measuring the amount of power consumed or supplied by the at least one power device when power is consumed or supplied at the at least one power device;
Encrypting the measured amount of power; And
And periodically transmitting the encrypted measured amount of power to a power usage storage,
The subscriber identity module may be formed as a portable module based on a smart card using COS,
Wherein the step of measuring the amount of power consumed or supplied to the at least one power device comprises the steps of: measuring the voltage and current for the variable supply voltage portion in the IC portion included in the smart card, And measuring a power value used when one power device consumes or supplies power. 13. The method of claim 12,
Wherein measuring the amount of power consumed or supplied by the at least one power device comprises:
The subscriber identity module may be formed of a sub-meter embedded in each of the at least one power device such that collecting and storing the respective amount of power measured in the at least one power device via the sub-meter Wherein the electronic power metering method comprises the steps of: delete delete 13. The method of claim 12,
Wherein the step of encrypting the measured amount of power comprises:
Wherein at least one of DES, AES, and RSA / ECC is used when encrypting the measured amount of power. 13. The method of claim 12,
Wherein the identifier store comprises:
The method of claim 1, further comprising a blacklist that is a list of users whose power supply should be shut off from the at least one power device, wherein when the user is authenticated, And blocking the user from receiving power from the at least one power device. ≪ Desc / Clms Page number 13 >

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