KR101290757B1 - Apparatus and method for supporting anonymity of data in a Advanced Metering Infrastructure - Google Patents

Abstract

The present invention relates to an apparatus and method for providing anonymity of data in a smart grid environment.
An apparatus according to the present invention includes a communication unit for receiving metered data in a smart grid environment and providing metered data to a power control system; A storage unit for storing the metered data and anonymization level, and storing control data for anonymization; A user input unit which generates and outputs key information corresponding to a key input by a user; A display unit which provides a user with a recognizable form of a character or a figure when setting anonymization level; And a control unit that reads the reading data and the anonymization level when the reading of the reading data is requested, reprocesses the reading data according to the anonymization level, and transmits the reading data through the communication unit.

Description

Apparatus and method for supporting anonymity of data in a Advanced Metering Infrastructure}

The present invention relates to an apparatus and method for providing anonymity of data in a smart grid environment.

With the advancement of technology and economic growth, the production and supply of electric power has become the most important factor in the world, but the efficiency is very low depending on fossil fuel. The use of fossil fuels has increased awareness of environmental degradation, and the interest in smart grid technology incorporating information and communication technology into existing one-way power grid systems has been increasing, especially in advanced countries.

Smart Grid is a next generation intelligent grid that combines information technology (IT) with the existing grid to increase the efficiency of billing and power supply by exchanging real-time information in both directions.

In the smart grid, all the devices that are powered by electricity are connected by wired and wireless networks. Currently, power systems are not available to predict power usage, so they usually have more than 10% reserve power. However, in a smart grid environment, smart meters can be used to efficiently distribute energy by analyzing the energy used in real time.

The core infrastructure of the smart grid is the Advanced Metering Infrastructure (AMI), a remote metering system. It is a system for efficiently managing energy. It consists of a smart meter installed in each home and a meter data management system (MDMS) that collects devices and power in each home. Consumers can reduce energy costs for homes and businesses by managing energy based on real-time energy usage information through AMIs, and efficiently manage overall energy usage.

AMI is a power service informatization infrastructure between end consumers and utilities, and is a smart meter-based core infrastructure system essential for smart grid operation. Unlike conventional AMR (Automated Meter Reading), which simply reads only the measured value, it plays a role of real-time transmission of consumer demand and power price in real time.

Unlike conventional AMR, AMI is able to remote connect / disconnect based on two-way communication and open protocol based on smart meter, and can be infrastructure of prepayment and real time. Various plans such as RTP, Critical Peak Pricing, and Time-of-Use (TOU) are also available. In addition, AMIs are indispensable for demand response mechanisms, and moreover, they are connected to home automation and home networking, and eventually become the smart grid infrastructure.

The existing grid system has a closed structure that cannot be accessed from the external network, so there is no threat to security.

However, as the smart grid environment evolves, access to external networks via wired and wireless devices and smart meters in each home can expose smart meters to various risks such as hacking, malware worms, and viruses. Due to this, there is a problem that may cause loss of consumer's personal information exposure and paralysis of the industrial system.

Therefore, in the smart grid environment, in order to ensure that the transmitted data is not intentionally damaged by someone, a method for ensuring the anonymity of the provided data is urgently required.

Accordingly, an object of the present invention is to provide an apparatus and method for providing anonymity of data transmitted in a smart grid environment.

Another object of the present invention is to provide an apparatus and method for excluding information capable of inferring a user's behavior pattern from user data such as meter reading data to provide anonymity of data transmitted in a smart grid environment.

It is still another object of the present invention to provide an apparatus and method for allowing a user to directly select an anonymity guarantee level of data transmitted in a smart grid environment.

It is still another object of the present invention to provide an apparatus and method capable of preventing an invasion of a user's privacy from hacking of data by ensuring anonymity of data transmitted in a smart grid environment.

As described above, an apparatus according to an embodiment of the present invention, a communication unit for receiving the metered data in the smart grid environment, and provides the metering data to the power control system; A storage unit for storing the metered data and anonymization level information, and storing control data for anonymization; A user input unit which generates and outputs key information corresponding to a key input by the user; A display unit which provides a user with a recognizable form of a character or a figure when setting anonymization level; And a control unit that reads the reading data and the anonymization level when the reading of the reading data is requested, reprocesses the reading data according to the anonymization level, and transmits the reading data through the communication unit.

The anonymization level may include a level that does not require any anonymity, a level from which data from which statistical data can be inferred, or a level including the type and number of loads used, and a type and number of loads used. Level, at least two or more of the levels transmitting only a simple cumulative power value.

Here, the controller may display settable levels when the change of anonymity level is requested from the user input unit, and set the set level as the meter reading data transmission level when one of the displayed levels is selected.

In addition, the transmission request of the transmission data may be at least one of a predetermined unit of time or a request from the power control system.

According to an embodiment of the present invention, a remote meter reading system including a smart meter for detecting the amount of power of the power terminal device and at least one power terminal device of each home, for guaranteeing anonymity transmission of the meter data A method comprising the steps of: reading the metering data and anonymization level of the metering data when transmission of metering data is requested; Reprocessing the metering data to the anonymization level; And transmitting the reprocessed meter reading data through a predetermined network.

In addition, the anonymization level is a level that does not require any anonymity at all, a level that removes data that can infer statistical data, or a level including the type and number of loads used, a level that removes the type and number of loads used, It may include at least two or more of the levels for transmitting only a simple cumulative power value.

As well as displaying the settable levels when a change in anonymity level is requested; And resetting the set level to the meter reading data transmission level when one of the displayed levels is selected.

In addition, the transmission request of the transmission data may be at least one of a predetermined unit of time or a request from the power control system.

According to the present invention, anonymity may be guaranteed in data transmitted in a smart grid environment, thereby ensuring user privacy even if a hacking occurs. In addition, by allowing the user to set the level of data transmitted according to the user's taste, it is possible to block in advance the portion of the privacy violation.

1 is a system conceptual diagram for ensuring the anonymity of transmission data in a remote meter reading system in a smart grid environment according to an embodiment of the present invention.
2 is a block diagram of a common functional block for registration and authentication in a power terminal device;
3 is a functional block diagram of a smart meter.
4 is a functional block diagram of a meter data management device.
5 is a functional block diagram of an anonymous management server according to the present invention.
6 is a control flowchart for transmitting data by securing the anonymity of the metering data in the anonymity providing server according to an exemplary embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description and the accompanying drawings, detailed description of well-known functions or constructions that may obscure the subject matter of the present invention will be omitted. It should be noted that the same constituent elements are denoted by the same reference numerals as possible throughout the drawings.

The terms and words used in the present specification and claims should not be construed as limited to ordinary or dictionary meanings and the inventor is not limited to the meaning of the terms in order to describe his invention in the best way. It should be interpreted as meaning and concept consistent with the technical idea of the present invention. Therefore, the embodiments described in the present specification and the configurations shown in the drawings are merely the most preferred embodiments of the present invention, and not all of the technical ideas of the present invention are described. Therefore, It is to be understood that equivalents and modifications are possible.

1 is a conceptual diagram illustrating a system for ensuring anonymity of data in a remote meter reading system under a smart grid environment according to an exemplary embodiment of the present invention.

Referring to FIG. 1, a remote meter reading system in a smart grid environment according to an embodiment of the present invention includes at least one power terminal device 100, a smart meter 200, and a meter data management device 300 in each home. And the anonymity management server 400, a wireless / internet network 10, and a power control system 500 for communicating with the anonymity management server 400. Here, the wireless / internet network 10 may be any network among a wireless network and a wired network or a network in which wired and wireless are mixed, and need not necessarily be an internet network.

Meanwhile, the anonymity management server 400 shown in FIG. 1 may be configured to be included in the smart meter 200 as needed, or may be configured to be included in the meter data management apparatus 300. In addition, as shown in Figure 1 may be configured to have a separate anonymity management server 400, the location of the anonymous management server 400 may be different from that shown in FIG. For example, the location of the anonymity management server 400 may be located between the smart meter 200 and the meter data management device 300. As such, the anonymity management server 400 is configured to be included in the smart meter 200 or included in the meter data management apparatus 300 or the anonymity management server 400 is provided separately, but the smart meter 200 and the meter are included. The location of the anonymity management server 400, such as located between the data management device 300 or between the meter data management device 300 and the wireless network / Internet network 10, the overall design of the system Can be optionally changed according to.

Next, the power control system 500 is a collective term for a system that performs control such as power supply and charging to customers based on information provided from the anonymity management server 400.

Each power terminal 100 basically has a configuration for authentication and registration, the functional block configuration is the same for all. However, other parts vary depending on the role of the power terminal 100 used. For example, functional objects therein may be different because the purpose of use as a load is different, such as a toaster or an electric rice cooker or a microwave oven. Here, only the same configuration for registration and authentication of the power terminal device 100 will be described with reference to FIG. 2.

2 is a block diagram of a common functional block for registration and authentication in a power terminal device. Referring to FIG. 2, the smart meter 200 communicates with the wired / wireless device to perform mutual authentication, and includes a communication unit 110, a control unit 120, a storage unit 130, and an output unit 140. Can be configured. Here, the power terminal device 100 may be a power consumption device or power generation devices used in each home.

The communication unit 110 is for transmitting and receiving data with the smart meter 200, may use a wired method or a wireless method, and is not limited to any particular method in a wired / wireless method, and with other terminal devices through various communication methods. Can send and receive data. In addition, the communication unit 110 may transmit and receive data using one or more communication methods, and for this purpose, the communication unit 110 may include a plurality of communication modules that transmit and receive data according to different communication methods.

The controller 120 performs overall control for communication and mutual authentication with the smart meter 200, and performs a login step when using the device after initial registration and registration of the power terminal device 100. Through this process, the power terminal device 100 performs mutual authentication with the smart meter 200. Since mutual authentication through the initial registration and login process can be made in various ways, it will not be described herein further.

The storage unit 130 stores programs and data necessary for the operation of the power terminal device 100, and in particular, may store information necessary for registration and information necessary for authentication. The storage unit 130 is an optical recording medium such as a magnetic media such as a hard disk, a floppy disk, and a magnetic tape, a compact disk read only memory (CD-ROM), and a digital video disk (DVD). Magnetic-optical media such as floppy disks, and ROM, random access memory (RAM), and flash memory.

The output unit 140 is a means for providing a user recognition of the operation result or state of the power terminal device 100. For example, the output unit 140 may include a display unit for visually outputting a screen or a speaker for outputting an audible sound. It may include.

Next, a functional block configuration of the smart meter 200 will be briefly described with reference to FIG. 3. 3 is a functional block diagram of a smart meter.

The smart meter 200 is an electronic electricity meter that can read the power usage in real time to find out the time-based charges. The smart meter 200 stores the power charge information and the measured power consumption in real time, and communicates with the meter data management device 300. Perform data communication on power rate information and real-time power usage information.

This will be described with reference to Figure 3 the functional block configuration of the smart meter 200. 3 is a functional block diagram of a smart meter.

Referring to FIG. 3, the smart meter 200 is a device for performing mutual authentication with the power terminal device 100 or the meter data management device 300, and includes a communication unit 210, a control unit 220, and a power meter reading unit ( 230, the storage unit 240 and the output unit 250 may be configured.

The communication unit 210 is for transmitting and receiving data with the smart meter 200 and the meter data management apparatus 300, and may use a wired method or a wireless method, and is not limited to any particular method in a wired / wireless method, and various It is possible to transmit and receive data with another terminal device through a communication method. In addition, the communication unit 110 may transmit and receive data using one or more communication methods, and for this purpose, the communication unit 210 may include a plurality of communication modules that transmit and receive data according to different communication methods.

The control unit 220 performs overall control for communication and mutual authentication of the power terminal device 100 and the meter data management device 300, performs mutual authentication through a registration step and a login step, and performs a power terminal of each home. Control to read power in real time of the device 100 is performed. In addition, when the smart meter 200 performs the function of the anonymity management server 400 of FIG. 1, the controller 220 may be configured to perform the function of the anonymity management server 400. As such, when performing the function of the anonymity management server 400, the configuration of FIG. 5 to be described below is additionally required. In other words, the display unit and the user input unit are additionally required. The operation of the anonymity management server 400 will be described in more detail later with reference to FIG. 6.

Meanwhile, the controller 220 performs overall control for communication and mutual authentication with the meter data management device 300, performs mutual authentication through a registration step and a login step, and reads the power in real time from the power meter reading unit 230. The meter data management apparatus 300 transmits one power data. Here, the registration step is performed once when the smart meter 200 is initially registered, and after that, the registration step is not performed at all authentication and data transmission.

The power meter reading unit 230 reads the amount of power of the power terminal device 100 of each home and transmits the metered power amount information to the control unit 220.

The storage unit 240 stores programs and data necessary for the operation of the smart meter 200, and in particular, stores registration information and authentication information necessary for mutual authentication with the power terminal device 100. In addition, the storage unit 240 may further store information necessary for the smart meter 200 when performing the function of the anonymous management server 400 of FIG. 1 according to the present invention.

In addition, the storage unit 240 stores registration information and authentication information necessary for mutual authentication with the meter data management apparatus 300, and stores power data read by the power terminal device 100 of each home. The storage unit 240 may include an optical recording medium such as a magnetic media such as a hard disk, a floppy disk, and a magnetic tape, a compact disk read only memory (CD-ROM), and a digital video disk (DVD). Magnetic-optical media such as floppy disks, and ROM, random access memory (RAM), and flash memory.

The output unit 250 is a means for providing a user's recognition of the operation result or state of the smart meter 200. For example, the output unit 250 includes a display unit for visually outputting a screen or a speaker for outputting an audible sound. can do. In addition, the output unit 250 may display the amount of power measured by the power terminal device 100 of each home.

Next, a functional block configuration of the meter data management apparatus 300 will be briefly described with reference to FIG. 4. 4 is a functional block diagram of the meter data management apparatus 300.

The meter data management apparatus 300 performs mutual authentication by communicating with the smart meter 200, receives and manages the metered power data from the smart meter 200, and encrypts the meter data metered according to the present invention in a network. Send it through.

Referring to FIG. 4, the meter data management apparatus 300 may include a communication unit 310, a control unit 320, a storage unit 330, and an output unit 340. The meter data management apparatus 300 may be a kind of server device included in a meter data management system (MDMS).

The communication unit 310 is for transmitting and receiving data with the smart meter 200, and may use a wired method or a wireless method, and is not limited to any specific method even in a wired / wireless method, and communicates with other terminal devices through various communication methods. Can send and receive data. In addition, the communication unit 310 may transmit and receive data using one or more communication methods. For this purpose, the communication unit 310 may include a plurality of communication modules that transmit and receive data according to different communication methods, respectively.

The control unit 320 performs overall control for communication and mutual authentication with the smart meter 200, performs mutual authentication through a registration step and a login step, and the power terminal device of each home read by the smart meter 200. Manage power data of 100. In addition, when the meter data management apparatus 300 performs the operation of the anonymity management server 400 shown in FIG. 1 according to another embodiment of the present invention, the control unit 320 may operate the operation of the anonymity management server 400. It can also be configured to do so. As such, when performing the function of the anonymity management server 400, the configuration of FIG. 5 to be described below is additionally required. In other words, the display unit and the user input unit are additionally required. The operation of the anonymity management server 400 will be described in more detail with reference to FIGS. 5 and 6 to be described later.

The storage unit 330 stores programs and data necessary for the operation of the meter data management apparatus 300, stores registration information and authentication information necessary for mutual authentication with the smart meter 200, and stores the smart meter 200. Save the power amount data received from). In particular, the storage unit 330 may store data corresponding thereto when the meter data management apparatus 300 performs an operation of the anonymity management server 400 shown in FIG. 1.

The storage unit 150 is an optical recording medium such as a magnetic media such as a hard disk, a floppy disk, and a magnetic tape, a compact disk read only memory (CD-ROM), and a digital video disk (DVD). Magnetic-optical media such as floppy disks, and ROM, random access memory (RAM), and flash memory.

The output unit 340 is a means for providing a user to recognize the operation result or state of the meter data management apparatus 300, for example, a display unit for visually output through the screen, a speaker for outputting an audible sound, etc. It may include.

Next, the functional block configuration of the anonymity management server 400 will be briefly described with reference to FIG. 5. 5 is a functional block diagram of an anonymous management server according to the present invention.

The communication unit 410 is for performing communication with the meter data management apparatus 300 and the wireless network / internet network 10 and may use a wired method or a wireless method. In addition, the communication unit 410 is not limited to any particular method even in a wired / wireless manner, and may transmit and receive data with another system or another node through various communication methods. In addition, the communication unit 410 may transmit and receive data using one or more communication methods, and for this purpose, the communication unit 410 may include a plurality of communication modules that transmit and receive data according to different communication methods.

The control unit 420 controls the overall operation of the anonymity providing server 400, in particular filtering of user information or statistical information of the user in order to provide anonymity for the data provided from the meter data management apparatus 300. Control the operation of reprocessing data so that only it can be provided.

The storage unit 430 stores programs and data necessary for the operation of the anonymity providing server 400, and in particular, filtering or / and anonymity guarantee for providing anonymity in accordance with the present invention sets a level data statistical program, etc. Can be saved.

The storage unit 430 may be an optical recording medium such as a magnetic media such as a hard disk, a floppy disk, and a magnetic tape, a compact disk read only memory (CD-ROM), or a digital video disk (DVD). Magnetic-optical media such as floppy disks, and ROM, random access memory (RAM), and flash memory.

In addition, the display unit 440 may include a speaker for displaying an alarm to the user with a screen and a sound for allowing the user to check the anonymity guarantee level setting process. In addition, other forms of providing information to the user may be added.

The user input unit 450 includes keys necessary for setting the anonymity level by the user, and generates and provides a signal corresponding to the key input by the user to the controller 420.

6 is a control flowchart for transmitting data by securing the anonymity of the metering data in the anonymity providing server according to an exemplary embodiment of the present invention.

6 includes two flowcharts. First, it includes a flow that allows the user to set the anonymity level of the meter reading data, and a process of reprocessing and transmitting the data according to the set anonymity level.

First, let's look at the process of setting the anonymity level of the meter reading data. Meanwhile, in the following description, anonymity providing server is separately provided as shown in FIG. 1 for convenience of description, and the configuration will be described on the assumption that the configuration follows the configuration of FIG. 5.

The controller 420 maintains the standby state in step S600. The waiting state refers to a state in which a time point at which transmission of the read data is required or waiting for an event for newly setting anonymity level of transmission data or the like. While maintaining the standby state, the controller 420 proceeds to step S602 and checks whether anonymity level setting of the transmission data is requested. If the anonymity level setting of the test result transmission data in step S602 is required, the control unit 420 proceeds to step S604, otherwise proceeds to step S610.

First, in step 6104, the controller 420 displays data for each level of anonymity, that is, anonymity level, on the display unit 440. For example, it may include a level that does not require any anonymity at all, a level that transmits only data in the form of data that can be inferred from statistical data, or a type that includes or removes the types and numbers of loads used by customers. Various levels may be configured in the form of a form or a form in which only a simple cumulative power value is transmitted, and the levels for each level may be displayed on the display unit 440. In this case, the controller 420 may display the level for each level on the display unit 440 and control the display unit 440 to display additional information according to each level. For example, depending on the level of information provided, these may be different benefits from the power provider, or they may be at risk depending on the level, or both may be provided.

Therefore, the user can review this information comprehensively and determine the level required for power meter reading.

In operation S606, the controller 420 checks whether a specific level is selected among data for each level displayed on the display unit 440. If a specific level is selected, the controller 420 proceeds to step S608 and otherwise continues to step S604.

In step S608, the control unit 420 stores the data anonymity level data selected by the user in the storage unit 430, and then proceeds to step S600.

In operation S610, the controller 420 checks whether transmission of the read data is necessary. The transmission of the metered data may be sent at predetermined intervals or when there is a request from the power control system 500. In addition, when the predetermined cycle is described as an example, it may be a set period of a specific time or a week or 30 days or a month.

The control unit 420 proceeds to step S612 if it is necessary to transmit the test result data in step S610, and otherwise proceeds to step S600.

In step S612, the control unit 420 reads the meter reading data stored in the storage unit 430, and simultaneously reads the data transmission level data stored in steps S604 to S608. If there is no level previously selected by the user, the level set as the reference level value may be the data transmission level. The preset reference level value may be set at the time of manufacture of the product, so no limitation is made here.

The control unit 420 reads the metering data in step S612 and converts the metering data into level-specific data according to the set reference level. In other words, the data is reprocessed into a type of data corresponding to the level set by the user. Through this, anonymity of the metering data can be processed according to the user's request, and anonymity can be guaranteed to prevent the user's privacy from being violated by unnecessary hacking.

Thereafter, the control unit 420 transmits the meter reading data converted in step S614 to the power control system 500 through the communication unit 410.

The present invention relates to an apparatus and method for ensuring the anonymity of meter data in a smart grid environment, and to a system thereof. In particular, the present invention can prevent the user's information from being exposed by hacking or phishing that can easily occur in a smart grid environment. Technology to provide a server device for providing anonymity.

Therefore, since the technology to protect the user's information in an environment where the user's information can be easily exposed, such as a smart grid environment, there is an industrial applicability because not only the possibility of sales but also the degree that can be clearly implemented in reality.

100: power terminal device 110: communication module
120: control module 130: storage module
140: output module 200: smart meter
210: communication module 220: control module
230: storage module 240: power meter reading module
250: output module 300: meter data management device
310: communication module 320: control module
330: storage module 340: output module
400: anonymity management server 410: communication module
420: control module 430: storage module
440: display module 450: user input module
500: power control system

Claims (8)

A communication unit configured to receive meter reading data in a smart grid environment and to provide the meter reading data to a power control system;
A storage unit which stores the metering data and anonymization level, and stores control data for anonymization;
A user input unit which generates and outputs key information corresponding to a key input by a user;
A display unit for providing a character or a figure to a user in the form of anonymization level; And
And a controller configured to read the metering data and the anonymization level when the transmission of the metering data is requested, and to reprocess the metering data according to the anonymization level and transmit it through the communication unit. Device that provides anonymity of data. The method of claim 1,
The level of anonymization is a level that does not require any anonymity at all, a level that eliminates data from which statistical data can be inferred, or a level including types and numbers of loads used, a level that removes types and numbers of loads used, and a simple level. And at least two or more of levels for transmitting only a cumulative power value. The apparatus of claim 1,
When a change of anonymization level is requested from the user input unit, the settable levels are displayed on the display unit, and when one of the displayed levels is selected, the set level is reset to an anonymization level to be applied when the meter data is transmitted. A device that provides anonymity of data in a remote meter reading system. The method of claim 1,
The apparatus for providing anonymity of data in the remote meter reading system, wherein the request for transmitting the meter reading data is generated by at least one of a predetermined period unit or a request from a power control system. Claims [1] A method for guaranteeing and transmitting anonymity of reading data in a remote reading system including at least one power terminal device and a smart meter detecting a power amount of each power terminal device.
Reading the metering data and a preset anonymization level when the metering data is requested to be transmitted;
Reprocessing the metering data to the anonymization level; And
And transmitting the reprocessed meter reading data through a network. The method of claim 5,
The level of anonymization is a level that does not require any anonymity at all, a level that eliminates data from which statistical data can be inferred, or a level including types and numbers of loads used, a level that removes types and numbers of loads used, and a simple level. And at least two or more of levels transmitting only cumulative power values. The method of claim 5,
Displaying configurable levels when a change in anonymization level is requested; And
And resetting the selected level to an anonymization level to be applied upon transmission of the metering data when one of the displayed levels is selected. The method of claim 5,
The method of providing anonymity of the data in the remote meter reading system, characterized in that the request for transmission of the meter reading data is generated by at least one of a predetermined time period or a request from a power control system.

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