KR20130010638A - An electric charging system, a power measuring instrument and a mobile terminal for an electric charging system and a control method thereof - Google Patents

Abstract

PURPOSE: An electricity fee payment system, an electricity metering device for the electricity fee payment system, a mobile communication terminal and a control method are provided to apply differential electricity fees of each time zone without installing an additional communication device for connecting the electricity metering device to an external communication network. CONSTITUTION: An electricity metering device(110) meters the amount of electricity corresponding to each time zone of a consumer. A mobile communication terminal(130) receives information for the amount of electricity corresponding to each time zone from the electricity metering device. The mobile communication terminal transmits the information for the amount of electricity A calculation device(150) generates charging information for the consumer. [Reference numerals] (110) Electricity metering device; (111) Metering module; (113) Storage module; (115) First proximity communication module; (117) First security module; (119) First antenna; (130) Mobile communication terminal; (131) Second proximity communication module; (133) Second security module; (135) Mobile communication module; (137) Second antenna; (150) Calculation device; (151) Communication and authentication processing module; (155) Calculation module; (AA) Power line; (B1,B2,B3) Authentication key; (CC) Application

Description

Power billing system, power metering device for power bill payment system, mobile communication terminal and control method thereof {AN ELECTRIC CHARGING SYSTEM

The following embodiments are related to a power bill payment system, a power meter for a power bill payment system, a mobile communication terminal, and a control method thereof.

Electricity metering devices use a method of charging a person by visiting the site at regular intervals and metering the accumulated power usage. Using this method, not only is the reading of the power consumption cumbersome, but it is difficult to charge the power consumption over time. Therefore, a meter reading method using some remote communication has been developed. However, when using telecommunications, the electricity metering device must be equipped with wired and wireless communication equipment, which requires an additional communication cost.

Most power consumption is concentrated at certain times, for example, from 12 noon to 3 o'clock in the summer or at night in the winter. However, if you charge differently according to the time zone, you can distribute the load in the time zone when the energy is overloaded. However, using the current billing method, an additional large cost is consumed in order to differentially charge the electric power over time.

One embodiment provides a power bill payment system that can be settled by the time difference between the bill to use the power bill payment system, a power meter for the power bill payment system, a mobile communication terminal and a control method thereof.

In addition, an embodiment of the present invention provides a power bill payment system and a power bill payment system capable of charging time-differentially without installing an additional communication device for connecting a power meter to an external communication network to transmit power usage information. An apparatus for measuring power amount, a mobile communication terminal, and a control method thereof are provided.

According to an embodiment, a power bill payment system includes a power amount meter for measuring a power consumption of each time slot of a power consumer; A mobile communication terminal which receives information on the power consumption by time slot and transmits information on the power usage by time slot from the power amount metering device; And a settlement device for generating billing information for the power consumer using the information on the time slot power consumption and the pre-stored time slot fee information.

The amount of electricity metering device may store the information on the amount of power used for each time zone with an encryption code.

The amount of electricity metering device is installed in the power input terminal for measuring the power consumption for each time zone; A storage module for storing information on the power usage of each time zone; A first proximity communication module configured to transmit information on the power usage of each time slot to the mobile communication terminal by proximity communication with the mobile communication terminal; And a first security module including an encryption key unique to a payment device and a security application, and performing mutual authentication between the mobile communication terminals by the encryption key unique to the payment device and a security application.

The first proximity communication module automatically recognizes the mobile communication terminal as the mobile communication terminal approaches the power measuring device, and connects the power measuring device and the mobile communication terminal according to the recognition. Association).

The mobile communication terminal may receive an encryption code from the power amount metering device, and transmit the encryption code to the payment device along with the information on the power usage for each time slot.

The mobile communication terminal performs recognition and association between the power amount metering device and the mobile communication terminal, and obtains information on power consumption for each time period from the power amount metering device by proximity communication with the power amount metering device. A second proximity communication module for receiving; A second security module for performing mutual authentication between the power amount metering device and the mobile communication terminal; And after completion of the mutual authentication, a mobile communication module configured to transmit information on the power usage of each time slot to the payment device through a mobile communication network.

The mobile communication module may receive a verification result of the information on the power usage of each time zone from the payment device.

The payment device may verify the validity of the information on the power usage for each time zone by using the encryption code received from the mobile communication terminal.

The payment device may include: a communication and authentication processing module configured to receive information on the power usage for each time zone and an encryption code from the mobile communication terminal, and verify validity of the information on the power usage for each time zone using the encryption code; A database that stores the rate information for each time zone; And a billing processing module for generating billing information for the power consumer using the information on the power consumption by time slot and the billing information for the time slot, and calculating the power bill for the power consumer based on the billing information. can do.

The settlement processing module may generate statistical information on the power consumer based on the time-based power usage information, and the communication and authentication processing module may transmit the statistical information to the power consumer.

An apparatus for measuring electricity amount for a power bill payment system according to an embodiment may include: a measurement module installed at a power inlet terminal to measure power consumption by time slots of a power consumer; A storage module for storing information on the power usage of each time zone; And a proximity communication module configured to transmit information on the power usage for each time slot to the mobile communication terminal by proximity communication with the mobile communication terminal.

And a security module including an encryption key and a security application unique to the payment device, and performing mutual authentication between the mobile communication terminals by the encryption key and the security application unique to the payment device.

The storage module may store the information on the power usage for each time zone together with an encryption code.

The proximity communication module may further transmit the encryption code to the mobile communication terminal.

The proximity communication module may automatically recognize the mobile communication terminal as the mobile communication terminal approaches the power meter.

The proximity communication module may perform association between the power amount metering device and the mobile communication terminal according to the recognition.

In one embodiment, a mobile communication terminal for a power bill payment system includes a proximity communication module configured to receive information on power consumption for each time zone from the power meter by a proximity communication with a power meter; A security module for performing mutual authentication between the power amount metering device and the mobile communication terminal; And a mobile communication module for transmitting the information on the power usage for each time slot to the payment device through the mobile communication network after completion of the mutual authentication.

The proximity communication module may perform recognition and association between the power amount metering device and the mobile communication terminal.

The proximity communication module may further receive an encryption code from the power amount metering device, and transmit the encryption code to the payment device along with the information on the power usage for each time slot.

The security module may include an encryption key unique to a payment device and a security application, and perform mutual authentication between the power meter and the mobile communication terminal by the encryption key and a security application specific to the payment device.

The mobile communication module may further transmit an encryption code to the payment device, and receive a verification result of the information on the power usage for each time slot from the payment device.

Application for payment of power bill from the service provider of the power bill payment system-The application is an application that performs authentication and settlement processing for the power bill payment, and includes a security application-and download the encryption key unique to the settlement device It may further include an installation module to be installed in the security module.

As the application is activated, the security module verifies the legitimacy of the power metering device using the authentication cipher text for the power meter, and the authentication text for the power meter is generated by the security module. The power amount measuring device may be generated based on a unique number and a random number of a mobile communication terminal.

The security module uses the power quantity measuring device to verify the validity of the mobile communication terminal by using a unique number and a random number of the power quantity measuring device received from the power measuring device through the proximity communication module. You can create a passphrase for authentication.

According to one or more embodiments, a control method of a power bill payment system includes: measuring, by a power amount metering device, a power consumption of a power consumer according to time slots; Receiving, by the mobile communication terminal, information on the power usage of each time zone from the power amount metering device and transmitting the received information to the payment device; And generating, by the payment device, billing information for the power consumer by using the information on the power usage by time zone and the pre-stored time zone fee information.

The apparatus for measuring the amount of power may further include storing information on the amount of power used for each time slot together with an encryption code.

The step of measuring the power consumption for each time zone may include: measuring the power usage for each time zone by a measurement module installed at a power inlet; Storing, by the storage module, information on the power usage of each time zone; Transmitting, by a first proximity communication module, information on the power usage of each time slot to the mobile communication terminal by proximity communication with the mobile communication terminal; And performing, by the first security module, mutual authentication between the power meter and the mobile communication terminal, wherein the first security module includes an encryption key and a security application specific to the payment device.

The transmitting of the time-based power consumption information may include automatically recognizing the mobile communication terminal by the first proximity communication module as the mobile communication terminal approaches the power amount metering device; And performing, by the first proximity communication module, an association between the power amount metering device and the mobile communication terminal according to the recognition.

The transmitting to the payment device may include: receiving, by the mobile communication terminal, an encryption code from the power metering device; And transmitting, by the mobile communication terminal, the encryption code to the payment device along with the information on the power usage of each time slot.

The generating of the charging information for the power consumer may include: receiving, by the communication module, information on the power usage of each time slot from the mobile communication terminal; Storing the rate information for each time zone in a database; Generating, by the settlement processing module, charging information for the power consumer by using the information on the power consumption by time zone and the charge information by time zone; And calculating, by the settlement processing module, a power fee for the power consumer based on the charging information.

The calculating of the power rate for the power consumer may further include generating, by the settlement processing module, statistical information about the power consumer based on the power usage information for each time slot.

According to an embodiment, there is provided a method of controlling a power amount metering device for a power bill payment system, the method comprising: measuring, by a measurement module, a power consumption of a power consumer according to time slots; Storing, by the storage module, information on the power usage of each time zone together with an encryption code; A security module performing mutual authentication between the power meter and the mobile communication terminal; And transmitting, by the proximity communication module, information on the power usage for each time zone and an encryption code to the mobile communication terminal by proximity communication with the mobile communication terminal.

The step of transmitting the information on the power consumption for each time zone and the encryption code further comprises the step of the proximity communication module automatically recognizes the mobile communication terminal as the mobile communication terminal approaches the power metering device. can do.

In a control method of a mobile communication terminal for a power bill payment system according to an embodiment, a proximity communication module performs recognition and association between a power amount measuring device and the mobile communication terminal by proximity communication with a power amount measuring device. step; A security module performing mutual authentication between the power meter and the mobile communication terminal; After the mutual authentication is completed, receiving, by the proximity communication module, information on the power usage of each time slot from the power amount metering device; And transmitting, by the mobile communication module, information on the power usage of each time slot to the payment device through a mobile communication network.

Downloading, by an installation module, an encryption key unique to an application and a payment device for power bill payment from a service provider of the power bill payment system; And installing an encryption key unique to the application and the payment device in the security module, wherein the application is an application that performs authentication and settlement processing for the power bill payment, and may include a security application. .

The performing of the mutual authentication may further include verifying, by the security module, the legitimacy of the power metering device by using the authentication cipher text for the power metering device as the application is activated. The power amount metering apparatus may be generated based on a unique number and a random number of the mobile communication terminal generated by the security module.

The performing of the mutual authentication may include: driving, by the application, a security module included in the mobile communication terminal; And performing mutual authentication with the power metering device by using an encryption text for authentication for the mobile communication terminal generated using the encryption key unique to the payment device in the security module.

According to an embodiment of the present disclosure, a power bill payment system capable of performing differential charging for each time zone without installing an additional communication device by using a mobile communication terminal of a user, a power metering device for a power bill payment system, and a mobile communication terminal And a control method thereof.

In addition, according to one embodiment, by charging the electricity consumers with time-differentiated charges, the power consumers are actively saving on electricity bills, while at the same time providing the power providers with the peak hours of power usage distributed to different time zones. It is possible to provide a power bill payment system, a power amount metering device for a power bill payment system, a mobile communication terminal, and a control method thereof.

1 is a block diagram of a power bill payment system including a power amount metering device, a mobile communication terminal, and a payment device, according to an exemplary embodiment.
2 is a view for explaining the overall operation of the power bill payment system according to an embodiment.
3 is a diagram for describing an operation performed when mutual authentication is performed between a power amount metering device and a mobile communication terminal included in a power bill payment system according to an exemplary embodiment.
4 is a block diagram of a mobile communication terminal for a power bill payment system according to an embodiment.
5 is a block diagram of a power amount metering device for a power bill payment system according to an exemplary embodiment.
6 is a flowchart illustrating a method of controlling a power amount metering device for a power bill payment system according to an exemplary embodiment.
7 is a flowchart illustrating a control method of a mobile communication terminal for a power bill payment system according to an embodiment.
8 is a diagram illustrating a case of charging an electric vehicle using a power bill payment system according to an embodiment.
FIG. 9 is a diagram for describing a user interface (UI) displayed on a screen of a mobile communication terminal when a power bill is paid by using near field communication (NFC) in a power bill payment system according to an embodiment. .
FIG. 10 is a diagram for describing a user interface (UI) displayed on a screen of a mobile communication terminal when a power bill is paid using short-range communication in a power bill payment system according to an embodiment.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. However, the present invention is not limited to or limited by the embodiments. Also, like reference numerals in the drawings denote like elements.

1 is a block diagram of a power bill payment system according to an embodiment.

The electric power bill payment system 100 includes an electric power meter 110, a mobile communication terminal 130, and a payment device 150.

Recently, the mobile communication terminal 130 has evolved to use various other functions away from the existing phone function. Already in almost all areas of the country where the mobile communication network is established, if only the mobile communication terminal 130 is provided, the situation is possible to communicate with the outside at any time. Therefore, if any device can communicate with the mobile communication terminal, it can communicate with the outside using this as a gateway. Therefore, in this embodiment, the mobile communication terminal is utilized as a gateway of the power amount measuring device 110 with this in mind.

The electricity amount measuring device 110 has a proximity wireless communication function, and measures and stores power consumption for each time slot of a power consumer.

When the mobile communication terminal 130 having the proximity wireless communication function is close at the time of the power bill payment, the power amount measuring device 110 transmits power consumption time information of the power consumer to the mobile communication terminal 130 by the proximity wireless communication. do.

The mobile communication terminal 130 receives the information on the power consumption for each time zone and an encryption code from the power meter 100, and the mobile communication terminal 130 encrypts the power consumption information for each time period of the power consumer through a wireless network. With the settlement device 150 may be transmitted. The encryption code may be used by the settlement device 150 to verify the justification of the information on the power usage for each time zone received from the electricity amount metering device 110 via the mobile communication terminal 130.

However, in order to perform such an operation, an authentication procedure for verifying legitimacy between devices is required.

To this end, it may include a security module (117, 133) of each of the power meter 110 and the mobile communication terminal 130. Each security module includes an encryption key and a security application unique to the settlement device 150, and may mutually authenticate each other by the encryption key and the security application unique to the settlement device. The encryption key unique to the payment device 150 may be a key for authentication of the power bill payment service provider.

In addition, the security modules 117 and 133 of each of the power amount metering device 110 and the mobile communication terminal 130 may include a security device capable of generating an authentication cipher text used for mutual authentication.

In particular, the mobile communication terminal 130 may include a universal subscriber identity module (USIM), which is a security device in which a subscriber's identity is stored. Therefore, when the mobile communication terminal 130 and the power meter 110 is in close proximity to each other, the applications installed in the mobile communication terminal 130 is executed to exchange the cipher text with each other through proximity wireless communication to perform mutual authentication. .

A method of performing mutual authentication between the electric power meter 110 and the mobile communication terminal 130 will be described in detail with reference to FIG. 3.

When the information on the power consumption of the power consumer for each time slot is received from the mobile communication terminal 130, the payment device 150 calculates the charging information for each time zone by using the time-specific charge information stored in the database. Therefore, the power amount meter 110 does not need to store time-based rate information.

The settlement device 150 may charge the electricity consumer differentially depending on the time of consumption of power, or may charge the same at an equal rate.

In order to perform the above-described operation, the power meter 110, the mobile communication terminal 130, and the settlement device 150 included in the power bill payment system 100 may include the following components.

The power meter 110 may include a measurement module 111, a storage module 113, a first proximity communication module 115, a first security module 117, and a first antenna 119.

The measurement module 111 may be installed at the power input terminal to measure power consumption for each time period at regular intervals. Here, the power consumption by time zone does not necessarily mean an hour unit, and may mean power usage by various time zones in units of 30 minutes, 15 minutes, 10 minutes, 1 minute, or 1 second.

The storage module 113 may store information on power usage for each time zone. In addition, the storage module 113 may store information after encrypting the information on the power usage by time slots through the encryption code generated by the first security module 117. The storage module 113 may store the information on the power usage for each time zone together with the encryption code.

The first proximity communication module 115 may transmit information on the amount of power used for each time zone and an encryption code to the mobile communication terminal 130 by proximity communication with the mobile communication terminal 130.

The first proximity communication module 115 automatically recognizes the mobile communication terminal 130 as the mobile communication terminal 130 approaches the power amount meter 150, and performs mobile communication with the power amount meter according to the recognition. Association between terminals may be performed.

The first proximity communication module 115 may include not only a proximity communication function but also a short range communication function. Therefore, although NFC (Near Field Communication) is used to automatically recognize the mobile communication terminal 130, the NFC (Neutral (NFC) is used to transmit and receive data such as information on power consumption for each time zone with the mobile communication terminal 130. In addition to near field communication, short-range communication such as Bluetooth, Zigbee, Wi-Fi, and infrared communication (IrDA) may be used.

The first security module 117 may include an encryption key and a security application unique to the payment device 150, and perform mutual authentication between the mobile communication terminals by the encryption key and the security application specific to the payment device 150. In this case, the encryption key unique to the payment apparatus 150 may be a key for authentication of the power bill payment service provider. The security application is a normal security application that is commonly installed in each device constituting the power bill payment system and may be the same as the security application included in the second security module 133 of the mobile communication terminal 130 have.

The first antenna 119 is used with the first proximity communication module 115 to connect with the mobile communication terminal 130 or another proximity wireless communication device and to transmit and receive data.

The mobile communication terminal 130 may include a second proximity communication module 131, a second security module 133, a mobile communication module 135, and a second antenna 137.

The mobile communication terminal 130 may receive an encryption code together with information on power consumption for each time zone from the power amount metering device 110 and transmit the encryption code to the settlement device 150.

The second proximity communication module 131 receives information on power consumption for each time zone from the electricity amount meter 110 by proximity communication with the electricity amount meter 110, and measures the electricity amount meter 110 and the mobile communication terminal 130. Recognition and association between

The second security module 133 may perform mutual authentication between the power amount metering device 110 and the mobile communication terminal 130.

After completion of the mutual authentication, the mobile communication module 135 may transmit information on power consumption for each time zone to the payment device 150 through the mobile communication network. In addition, the mobile communication module 135 may receive a verification result of the information on the power usage for each time zone from the payment device 150.

The second antenna 137 may be used together with the second proximity communication module 131 to connect and transmit / receive data with the power meter 110 or another proximity wireless communication device.

The settlement device 150 may include a communication and authentication processing module 151, a settlement processing module 155, and a database (DB) 153.

The communication and authentication processing module 151 receives the information on the time usage and the encryption code from the mobile communication terminal 130, verifies the validity of the information on the time usage using the encryption code, and then The result may be transmitted to the mobile communication terminal 130.

In addition, when time-based rate information is received from the power provider, the communication and authentication processing module 151 may transfer the information to the database (DB) 153.

The database 153 may store time zone fee information. The database 153 may store time zone price information received from a power provider, or store time zone price information in advance, and may store updated information when the time zone price information is changed. The database 153 may also store the result calculated by the settlement processing module 155.

The settlement processing module 155 may generate billing information for the power consumer using the information on the time slot power consumption and the time slot fee information, and may calculate the power bill for the power consumer based on the billing information. In this case, the settlement processing module 155 may pre-register the credit card information of the power consumer, and may perform payment using the registered information, or may perform the payment using the phone number of the previously registered power consumer.

In addition, the settlement processing module 155 may generate statistical information about the power consumer based on the time-based power usage information. In this case, the communication and authentication processing module 151 may transmit statistical information about the power consumer generated by the settlement processing module 155 to the power consumer.

Therefore, the power consumer can grasp the power consumption pattern of each time zone and the accumulated total usage for a certain period of time through statistical information fed back to the user. The statistical information may be provided in various types of graphs so that the power consumer may more easily grasp the power consumption pattern of each time zone and the accumulated total usage for a certain period of time.

2 is a view for explaining the overall operation of the power bill payment system according to an embodiment.

As described above, the power bill payment system may include an electric power meter 201, a mobile communication terminal 203, and a payment device 205.

The electric power meter 201 may have a proximity wireless communication function, measure 210 the time consumption of the power consumer by electricity, and then encrypt and store information about the time consumption of the power together with the encryption code (215).

The power consumer receives and mounts an application for authentication and settlement processing from the service provider of the power bill payment system in the mobile communication terminal 203 possessing the power meter device 201 through the power bill payment system. You can get services.

To this end, the mobile communication terminal 203 may download the application for the power bill payment and the encryption key unique to the payment device from the service provider of the power bill payment system and install it in its security module (220). At this time, the application may be an application that performs authentication and settlement processing for power bill settlement. The security module mounted in the mobile communication terminal 203 may also be equipped with a security application.

At this time, the process of downloading the application by the mobile communication terminal 203 is not necessarily limited to the order in one embodiment, the mobile communication terminal 203 is close to the power amount meter 201 in order to perform the power bill payment. It can be done at any time before doing so.

The electric power meter 201 automatically recognizes the mobile communication terminal as the mobile communication terminal 203 approaches 225 to itself, and between the electric power meter 201 and the mobile communication terminal 203. Association may be performed (230).

After the association is performed, the power meter 201 and the mobile communication terminal 203 may perform mutual authentication (235). A detailed method of performing mutual authentication between the electric power meter 201 and the mobile communication terminal 203 will be described with reference to FIG. 3.

If mutual authentication succeeds in step 235, the power amount metering device 201 may transmit information on the amount of power used for each time zone and an encryption code to the mobile communication terminal 203 (240). If mutual authentication fails at 235, the electric power metering device 201 and the mobile communication terminal 203 may release an association between each other and terminate the operation for power bill payment. At this time, a warning (for example, "an unauthenticated device" or a warning such as 913 of FIG. 9) indicating that mutual authentication has failed may appear on the screen of the mobile communication terminal 203.

The mobile communication terminal 203 may transmit information on the amount of power used for each time zone and the encryption code received from the power amount metering device to the payment device 205 (245).

The settlement device 205 may verify the legitimacy of the information received from the mobile communication terminal 203 (that is, the information on the power usage by time zone) using the encryption code (250).

In this case, the payment device 205 may encrypt the received information about the time slot power consumption using an encryption key unique to the payment device, and compare the information with the received encryption code to verify the validity of the information.

The settlement device 205 may transmit the verification result of 250 to the mobile communication terminal 203 (255).

Thereafter, the settlement device 205 may generate charge information for the power consumer using information on the time-based power usage and pre-stored time-based charge information 260, and settle the charge for the power consumer ( 265).

The settlement device 205 may notify the settled fee to the mobile communication terminal 203 (270).

In this case, the settlement device 205 may also generate statistical information about the power user based on the time-based power usage information, and may also notify the statistical information when the settlement fee is notified.

3 is a diagram for describing an operation performed when mutual authentication is performed between a power amount metering device and a mobile communication terminal included in a power bill payment system according to an exemplary embodiment.

As described above, an authentication procedure is required to confirm the legitimacy between the devices that perform the power bill payment. In FIG. 2, mutual authentication 235 between the electric power metering device 201 and the mobile communication terminal 203 may be performed by the following method.

When the first proximity communication module of the power amount metering device 301 and the second proximity communication module of the mobile communication terminal 303 recognize each other and a connection is established, the mobile communication terminal 303 receives information from the service provider of the power bill payment system. The application for billing the downloaded power bill is executed. The application for power bill payment is an application that performs authentication and settlement processing for power bill payment, and may include a security application.

When the application for the power bill payment is executed, the mobile communication terminal 303 generates 310 a unique number and a random number of the mobile communication terminal 303 through a security application installed in the second security module, and then determines the value. The power is transmitted to the power meter 301 (315). In this case, the second security module may include a security device such as a USIM.

The power meter 301 generates 320 an encrypted cipher text for authentication through the first security module based on the unique number and the random number of the mobile communication terminal 303.

Thereafter, the power amount metering device 301 generates (325) a unique number and a random number value of itself (the power metering device 301) and transmits them to the mobile communication terminal 303 together with the cipher text generated at 320. (330).

The mobile communication terminal 303 transfers the received cipher text for authentication to a security device such as a USIM included in the second security module to verify the legitimacy of the power meter. The mobile communication terminal 303 determines whether the verification is successful (340).

If the verification succeeds in step 340, the mobile communication terminal 303 generates, in the second security module, a ciphertext for authentication using a unique number and a random number of the power amount measuring device received from the power amount measuring device 301 (345). . The mobile communication terminal 303 transmits the authentication cipher text generated in step 345 to the power meter 301 (350). On the other hand, if the verification at 340 is not successful, the mobile communication terminal 303 may return to the initial process for ending the operation or performing mutual authentication.

The power meter 301 verifies the validity of the mobile communication terminal 303 by transmitting the received cipher text for authentication to the first security module (355).

The power meter 301 determines whether verification of the mobile communication terminal 303 is successful (360), and if verification is successful, completes mutual authentication with the mobile communication terminal 303 (370).

On the other hand, if the verification in 360 is not successful, the power meter 301 may end the operation or return to the initial process for performing mutual authentication.

4 is a block diagram of a mobile communication terminal for a power bill payment system according to an embodiment.

The mobile communication terminal 400 for the power bill payment system may include a proximity communication module 410, a security module 430, a mobile communication module 450, and an installation module 470.

The proximity communication module 410 receives information on power consumption for each time zone from the power amount meter by proximity communication with the power amount meter.

The proximity communication module 410 may perform recognition and association between the power meter and the mobile communication terminal.

The proximity communication module 410 may further receive an encryption code from the power amount metering device, and transmit the encryption code to the payment device along with information on the power usage for each time slot.

The security module 430 performs mutual authentication between the electric power metering device and the mobile communication terminal.

The security module 430 may include an encryption key and a security application specific to the payment device, and perform mutual authentication between the power meter and the mobile communication terminal by the encryption key and the security application specific to the payment device.

As the application installed in the security module 430 is activated by the installation module 470, the security module 430 may verify the legitimacy of the power metering device using an authentication cipher text for the power metering device.

At this time, the authentication cipher text for the power meter may be generated by the power meter based on the unique number and the random number of the mobile communication terminal generated by the security module 430.

The security module 430 may generate a cipher text for authentication for the mobile communication terminal by using a unique number and a random number of the power amount measuring device received from the power amount measuring device through the proximity communication module. The authentication cipher text for the mobile communication terminal may be used by the power meter to verify the validity of the mobile communication terminal.

After completion of the mutual authentication, the mobile communication module 450 transmits information on power consumption for each time zone to the payment device through the mobile communication network.

The mobile communication module 450 may further transmit an encryption code to the payment device, and receive a verification result of the information on the power consumption for each time slot from the payment device.

The installation module 470 may download an application for the power bill payment and an encryption key unique to the payment device from the service provider of the power bill payment system and install it in the security module. Here, the application is an application that performs authentication and settlement processing for power bill payment, and may include a security application.

5 is a block diagram of a power amount metering device for a power bill payment system according to an exemplary embodiment.

The power amount metering apparatus 500 for the power bill payment system may include a measurement module 510, a storage module 530, a proximity communication module 550, and a security module 570.

The measurement module 510 may be installed at the power input terminal to measure the time consumption of power by the power consumer.

The storage module 530 may store information about power consumption by time of the power consumer.

The storage module 530 may store the information on the power usage for each time zone together with the encryption code.

The proximity communication module 550 may transmit the information on the power consumption by time zone and the encryption code to the mobile communication terminal by the proximity communication with the mobile communication terminal.

The proximity communication module 550 may automatically recognize the mobile communication terminal as the mobile communication terminal approaches the power meter.

The proximity communication module 550 may perform an association between the power amount metering device and the mobile communication terminal as the mobile communication terminal automatically recognizes the mobile communication terminal.

The security module 570 may include an encryption key unique to the payment device and a security application, and perform mutual authentication between the mobile communication terminals by the encryption key unique to the payment device and the security application.

6 is a flowchart illustrating a method of controlling a power amount metering device for a power bill payment system according to an exemplary embodiment.

When the measurement module of the electricity amount metering device measures the power consumption by the power consumer for each time slot (601), the storage module stores information about the power usage for each time zone with the encryption code (603).

Thereafter, the electric power metering device automatically recognizes the mobile communication terminal as the mobile communication terminal as the proximity of the electric power metering device (605).

The security module performs mutual authentication between the power meter and the mobile communication terminal (607).

In operation 609, the proximity communication module transmits information on the power consumption by time slot and the encryption code to the mobile communication terminal by the proximity communication with the mobile communication terminal.

7 is a flowchart illustrating a control method of a mobile communication terminal for a power bill payment system according to an embodiment.

The installation module of the mobile communication terminal may download an application for power bill payment and an encryption key unique to a payment device from a service provider of a power bill payment system. Thereafter, the installation module may install an encryption key unique to the application and the payment device in the security module (701).

In this case, the application to be installed is an application that performs authentication and settlement processing for power bill payment, and may include a security application.

The proximity communication module performs recognition and association between the power meter and the mobile communication terminal by proximity communication with the power meter.

The security module performs mutual authentication between the power meter and the mobile communication terminal.

When the application drives the security module included in the mobile communication terminal at the time of performing mutual authentication (705), the security module performs mutual authentication with the power metering device by using an encryption text for authentication for the mobile communication terminal (707). In this case, the authentication cipher text for the mobile communication terminal may be generated using an encryption key unique to the payment device.

In addition, as the application is activated at the time of performing mutual authentication, the security module may verify the legitimacy of the electric power metering device by using an authentication cipher text for the electric power metering device. The authentication cipher text for the power meter may be generated by the power meter based on a unique number and a random number of the mobile communication terminal generated by the security module.

After completion of the mutual authentication at 707, when the proximity communication module receives the information on the power consumption by time from the power meter (709), the mobile communication module informs the settlement device about the power usage by time by the mobile communication network. Transmit (711).

8 is a diagram illustrating a case of charging an electric vehicle using a power bill payment system according to an embodiment.

In order to charge an electric vehicle using a power bill payment system, an electric vehicle 810, a power meter 830 installed in a charger (more specifically, an RF pad of a charger), a mobile communication terminal 850, and a settlement device 870 are provided. Is needed.

First, a user (ie, a power consumer) may download an encryption key unique to an application and a payment device for power bill payment to the mobile communication terminal 850 to charge the electric vehicle 810. The mobile communication terminal 850 is a mobile communication terminal having a Near Field Communication (NFC) function. At this time, the application for the power bill payment is an application for using the charger, the encryption key unique to the payment device may be a key for authentication.

When the user approaches the mobile communication terminal 850 within 10 cm of the power meter 830 of the charger to charge the electric vehicle 810, an application for charging use installed in the mobile communication terminal 850 is automatically executed. do. The power meter 830 and the mobile communication terminal 850 perform mutual authentication by transmitting and receiving a cipher text through an authentication key.

When the mutual authentication is completed, the charger is ready to charge by unlocking the charging port, connecting the cable, and charging.

When the user determines that the charger is ready for charging, he connects the cable to the charger and the vehicle.

When the charger determines that the connector is connected to the vehicle, the charger locks the charging port and supplies power to the electric vehicle 810.

When the user approaches the charger close to the charger to terminate the charging, the charging application of the mobile communication terminal 850 is executed, the charging application mutually authenticates the authentication system and the charger by transmitting and receiving a cipher text, If authentication is successful, it can transmit power usage information, stop powering, and unlock the charger to unplug the cable.

The settlement device (or payment system) 870 may generate billing information based on the time-based power rate table based on the power usage information received from the charger, and may transmit the electronic receipt to the user's mobile communication terminal 850 after payment. .

The user may receive an electronic receipt from the payment device 870 through the mobile communication terminal 850.

As described above, the power bill payment system according to an embodiment may be applied to all devices requiring real-time payment of power bills, such as a charger of an electric vehicle.

FIG. 9 is a diagram for describing a user interface (UI) displayed on a screen of a mobile communication terminal when a power bill is paid by using near field communication (NFC) in a power bill payment system according to an embodiment. .

The user performs a mutual authentication by transmitting and receiving a cipher text between the power meter and the mobile terminal by bringing the mobile terminal close to the power meter.

The mobile terminal determines 903 whether mutual authentication is successful, and if the mutual authentication is successful, the mobile communication terminal may provide a screen for inquiring whether to receive power usage information (905). On the other hand, if mutual authentication fails, a screen such as 913 appears on the screen of the mobile communication terminal.

If the user selects to receive the power usage information at 905, the mobile communication terminal is provided with a screen instructing to approach (or tag) the mobile communication terminal to the power metering device (907). If the user cancels the reception of the power usage information at 907, a screen such as 911 is displayed on the screen of the mobile communication terminal.

On the other hand, if the user approaches (or tags) the mobile communication terminal to the power amount meter according to the instruction in 907, the mobile communication terminal receives power usage information from the power amount meter. In this case, a screen such as 909 is displayed on the screen of the mobile communication terminal. When the reception of the power consumption information is completed from the power meter, the screen such as 915 is displayed on the mobile communication terminal.

If the user selects 'detailed inquiry' about today's usage on the screen of 915, the mobile terminal displays a screen about power usage history for each time zone (917).

In addition, when the user selects 'detailed inquiry' about the unpaid usage amount on the screen of 915, a screen about the time-based power usage history from the previous payment time to the present time appears (919).

When the user selects 'inquiry' about the fee on the screen of 915, the mobile communication terminal transmits usage information to the payment device (or a payment server, etc.) (921) and displays a payment progress screen for the fee (923). ). When the user selects a bill payment on the payment progress screen of 923, the power bill is settled through the user's previously stored credit card information or the mobile terminal number. After the payment is completed, a phrase such as 925 appears on the user's mobile communication terminal.

FIG. 10 is a diagram for describing a user interface (UI) displayed on a screen of a mobile communication terminal when a power bill is paid using short-range communication in a power bill payment system according to an embodiment.

In the case of paying a power bill using short-range communication such as Bluetooth, Zigbee, or infrared communication in the power bill payment system, the power installed in the mobile communication terminal instead of approaching (or tagging) the mobile communication terminal to the power metering device. An application for billing may be executed to search for a power meter.

Thereafter, when the amount of electricity metering device is selected, mutual authentication between the mobile communication terminal and the amount of electricity metering device may be performed by transmitting / receiving an encrypted text (1001).

The mobile communication terminal may determine whether the mutual authentication is successful (1003), and if the mutual authentication is successful, it may provide a screen for inquiring whether to receive the power usage information (1005). On the other hand, if mutual authentication fails, a screen such as 1011 appears on the screen of the mobile communication terminal. However, unlike FIG. 9, when the user selects to receive power usage information at 1005, the user does not need to approach (or tag) the mobile communication terminal to the power meter. Information may be received (1107). Since the following operation is the same as the operation of 909 to 925 of FIG. 9, the description of the corresponding part will be referred to.

The above-described methods may be implemented in the form of program instructions that can be executed through various computer means and recorded on a computer-readable medium. The computer readable medium may include program instructions, data files, data structures, etc. alone or in combination. The program instructions recorded on the medium may be those specially designed and constructed for the present invention or may be available to those skilled in the art of computer software. Examples of computer-readable media include magnetic media such as hard disks, floppy disks and magnetic tape; optical media such as CD-ROMs and DVDs; magnetic media such as floppy disks; Magneto-optical media, and hardware devices specifically configured to store and execute program instructions such as ROM, RAM, flash memory, and the like. Examples of program instructions include machine language code such as those produced by a compiler, as well as high-level language code that can be executed by a computer using an interpreter or the like. The hardware devices described above may be configured to operate as one or more software modules to perform the operations of the present invention, and vice versa.

As described above, the present invention has been described by way of limited embodiments and drawings, but the present invention is not limited to the above embodiments, and various modifications and variations will be made to those skilled in the art to which the present invention pertains. This is possible.

Therefore, the scope of the present invention should not be construed as being limited to the embodiments described, but should be determined by equivalents to the appended claims, as well as the appended claims.

100: power bill payment system
110: power meter
130: mobile communication terminal
150: payment device

Claims (38)

In the electricity bill payment system,
A power amount measuring device for measuring power consumption by time slot of the power consumer;
A mobile communication terminal which receives information on the power consumption by time slot and transmits information on the power usage by time slot from the power amount metering device; And
Settlement device for generating the billing information for the power consumer using the information on the power consumption by time zone and the pre-stored time zone charge information
Power bill payment system comprising a. The method of claim 1,
The amount of electricity metering device
The power bill payment system for storing the information on the power consumption for each time zone with an encryption code. The method of claim 1,
The amount of electricity metering device
A measurement module installed at a power inlet to measure power usage for each time slot;
A storage module for storing information on the power usage of each time zone;
A first proximity communication module configured to transmit information on the power usage of each time slot to the mobile communication terminal by proximity communication with the mobile communication terminal; And
A first security module including an encryption key unique to a payment device and a security application, and performing mutual authentication between the mobile communication terminals by the encryption key unique to the payment device and a security application;
Power bill payment system comprising a. The method of claim 3,
The first proximity communication module
A power fee for automatically recognizing the mobile communication terminal as the mobile communication terminal approaches the power amount measuring device and performing an association between the power amount measuring device and the mobile communication terminal according to the recognition. Payment system. The method of claim 1,
The mobile communication terminal
Receiving an encryption code from the power amount metering device, and transmits the encryption code to the payment device with the information on the power usage for each time zone. The method of claim 1,
The mobile communication terminal
A second proximity that performs recognition and association between the power amount metering device and the mobile communication terminal and receives information on the power usage for each time slot from the power amount metering device by proximity communication with the power amount metering device; Communication module;
A second security module for performing mutual authentication between the power amount metering device and the mobile communication terminal; And
After completion of the mutual authentication, a mobile communication module for transmitting information on the power consumption for each time zone to the payment device through a mobile communication network
Power bill payment system comprising a. The method according to claim 6,
The mobile communication module
The power bill payment system for receiving a verification result of the information on the power usage for each time zone from the payment device. The method of claim 1,
The payment device is
The power bill payment system for verifying the validity of the information on the power consumption for each time zone by using the encryption code received from the mobile communication terminal. The method of claim 1,
The payment device is
A communication and authentication processing module for receiving information on the power consumption by time zone and an encryption code from the mobile communication terminal, and validating the information on the power usage by time zone by using the encryption code;
A database that stores the rate information for each time zone; And
Settlement processing module for generating the charging information for the power consumer using the information on the power consumption by time zone and the time-based charge information, and calculates the power charge for the power consumer based on the charging information
Power bill payment system comprising a. 10. The method of claim 9,
The settlement processing module
Generating statistical information on the power consumer based on the time-based power usage information;
The communication and authentication processing module
The power bill payment system for transmitting the statistical information to the power consumer. In the electric power metering device for a power bill payment system,
A measurement module installed at the power inlet to measure power consumption of each time slot of the power consumer;
A storage module for storing information on the power usage of each time zone; And
Proximity communication module for transmitting information on the power consumption for each time zone to the mobile communication terminal by the proximity communication with the mobile communication terminal
Power metering device for a power bill payment system comprising a. The method of claim 11,
A security module including an encryption key unique to a payment device and a security application, and performing mutual authentication between the mobile communication terminals by the encryption key unique to the payment device and a security application;
Power amount metering device for a power bill payment system further comprising. The method of claim 11,
The storage module
The amount of electricity metering device for a power bill payment system for storing the information on the power consumption for each time zone with an encryption code. The method of claim 13,
The proximity communication module
A power amount metering device for a power bill payment system that further transmits the encryption code to the mobile communication terminal. The method of claim 11,
The proximity communication module
And a power amount payment system for automatically recognizing the mobile communication terminal automatically as the mobile communication terminal approaches the power measurement device. 16. The method of claim 15,
The proximity communication module
And a power amount measurement system for a power rate payment system that performs association between the power amount measurement device and the mobile communication terminal according to the recognition. In the mobile communication terminal for a power bill payment system,
A proximity communication module configured to receive information on power consumption for each time zone from the power amount meter by proximity communication with the power amount meter;
A security module for performing mutual authentication between the power amount metering device and the mobile communication terminal; And
After completion of the mutual authentication, the mobile communication module for transmitting the information on the power consumption for each time zone to the payment device through the mobile communication network
Mobile communication terminal for a power bill payment system comprising a. 18. The method of claim 17,
The proximity communication module
A mobile communication terminal for a power bill payment system for performing the recognition and association between the power amount metering device and the mobile communication terminal. 18. The method of claim 17,
The proximity communication module
And receiving an encryption code from the power amount metering device, and transmitting the encryption code to the payment device along with the information on the power usage for each time slot. 18. The method of claim 17,
The security module
A mobile communication terminal for a power bill payment system including an encryption key unique to a payment device and a security application, and performing mutual authentication between the power meter and the mobile communication terminal by the encryption key and a security application unique to the payment device. . 18. The method of claim 17,
The mobile communication module
And transmitting an encryption code to the payment device, and receiving a verification result of the information on power usage for each time slot from the payment device. 18. The method of claim 17,
Application for payment of power bill from the service provider of the power bill payment system-The application is an application that performs authentication and settlement processing for the power bill payment, and includes a security application-and download the encryption key unique to the settlement device An installation module installed in the security module
A mobile communication terminal for a power bill payment system further comprising. The method of claim 22,
The security module
As the application is activated, validity of the power metering device is verified by using an encrypted cipher text for the power metering device,
Authentication cipher text for the power meter
And a power amount metering device generated based on a unique number and a random number of the mobile communication terminal generated by the security module. 18. The method of claim 17,
The security module
For authentication for the mobile communication terminal used by the power amount measuring device to verify the legitimacy of the mobile communication terminal, using the unique number and random number value of the power amount measuring device received from the power metering device through the proximity communication module. A mobile communication terminal for a power bill payment system for generating a cipher text. In the control method of the power bill payment system,
Measuring, by the power amount metering device, the amount of power consumed by the time slot of the power consumer;
Receiving, by the mobile communication terminal, information on the power usage of each time zone from the power amount metering device and transmitting the received information to the payment device; And
Generating, by the payment device, charging information for the power consumer by using the information on the power usage by time zone and the pre-stored time-based charge information;
Control method of the power bill payment system comprising a. 26. The method of claim 25,
Storing, by the power amount metering device, information on power usage for each time slot together with an encryption code
The control method of the power bill payment system further comprising. 26. The method of claim 25,
Measuring the power consumption for each time zone is
Measuring, by a measurement module installed at a power inlet, power consumption for each time slot;
Storing, by the storage module, information on the power usage of each time zone;
Transmitting, by a first proximity communication module, information on the power usage of each time slot to the mobile communication terminal by proximity communication with the mobile communication terminal; And
A first security module performing mutual authentication between the power amount metering device and the mobile communication terminal
Including,
The first security module
Control method of the power bill payment system including the encryption key and security applications unique to the payment device. 28. The method of claim 27,
The step of transmitting information on the power usage by time zone is
As the mobile communication terminal approaches the power meter, the first proximity communication module automatically recognizes the mobile communication terminal; And
Performing, by the first proximity communication module, an association between the power amount metering device and the mobile communication terminal according to the recognition;
Control method of the power bill payment system comprising a. 26. The method of claim 25,
The step of transmitting to the settlement device
Receiving, by the mobile communication terminal, an encryption code from the power metering device; And
Transmitting, by the mobile communication terminal, the encryption code to the payment device together with the information on the power usage for each time zone;
Control method of the power bill payment system comprising a. 26. The method of claim 25,
Generating charging information for the power consumer
Receiving, by the communication module, information on the power usage of each time zone from the mobile communication terminal;
Storing the rate information for each time zone in a database;
Generating, by the settlement processing module, charging information for the power consumer by using the information on the power consumption by time zone and the charge information by time zone; And
Calculating, by the settlement processing module, a power fee for the power consumer based on the charging information;
Control method of the power bill payment system comprising a. 31. The method of claim 30,
The step of calculating the power bill for the power consumer is
Generating, by the settlement processing module, statistical information about the power consumer based on the power usage information for each time slot;
The control method of the power bill payment system further comprising. In the control method of the electric power metering device for a power bill payment system,
Measuring, by the measurement module, the time consumption of power of the power consumer;
Storing, by the storage module, information on the power usage of each time zone together with an encryption code;
A security module performing mutual authentication between the power meter and the mobile communication terminal; And
Transmitting, by the proximity communication module, information on the power consumption for each time slot and an encryption code to the mobile communication terminal by proximity communication with the mobile communication terminal;
Control method of a power amount metering device for a power bill payment system comprising a. 33. The method of claim 32,
The step of transmitting the information on the power consumption for each time zone and the encryption code is
Automatically detecting, by the proximity communication module, the mobile communication terminal as the mobile communication terminal approaches the power metering device;
Control method of a power amount metering device for a power bill payment system further comprising. In the control method of a mobile communication terminal for a power bill payment system,
Performing, by the proximity communication module, recognition and association between the electricity amount meter and the mobile communication terminal by proximity communication with the electricity amount meter;
A security module performing mutual authentication between the power meter and the mobile communication terminal;
After the mutual authentication is completed, receiving, by the proximity communication module, information on the power usage of each time slot from the power amount metering device; And
Transmitting, by the mobile communication module, information on the power usage of each time slot to the payment device through a mobile communication network;
Control method of a mobile communication terminal for a power bill payment system comprising a. 35. The method of claim 34,
Downloading, by an installation module, an encryption key unique to an application and a payment device for power bill payment from a service provider of the power bill payment system; And
Installing an encryption key unique to the application and the payment device in the security module
Further comprising:
The application is
The control method of the mobile communication terminal for the power bill payment system, which is an application for performing the authentication and settlement process for the power bill payment, comprising a security application. 36. The method of claim 35,
Performing the mutual authentication is
As the application is activated, the security module verifies the legitimacy of the power metering device using an authentication cipher text for the power metering device;
Further comprising:
The ciphertext for authentication
And a method for generating a power amount based on the unique number and the random number of the mobile communication terminal generated by the security module. 36. The method of claim 35,
Performing the mutual authentication is
Driving, by the application, a security module included in the mobile communication terminal; And
Performing mutual authentication with the power metering device by using an encryption text for authentication for the mobile communication terminal generated using the encryption key unique to the payment device in the security module;
Control method of a mobile communication terminal for a power bill payment system comprising a. 38. A computer-readable recording medium having recorded thereon a program for executing the method of any one of claims 25-37.

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