KR20140116047A - 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

An electricity fee charging system according to an embodiment of the present invention includes: a power measuring unit for measuring an amount of power used by a power consumer for each time; a mobile communication terminal for receiving information on the amount of used power for each time from the power measuring unit, and transmitting information on the used power for each time; and a calculation unit for generating billing information on the power consumer using information on the amount of used power for each time and fee information for each time which is stored in advance.

Description

TECHNICAL FIELD [0001] The present invention relates to an electric power billing system, a power amount measuring apparatus for a electric bill payment system, a mobile communication terminal, and a control method thereof. BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an electric power billing system,

The following embodiments relate to a power bill settlement system, a power amount measuring apparatus for a power bill settlement system, a mobile communication terminal, and a control method thereof.

The electric power metering devices use a method in which a person visits the site at a predetermined period and charges the accumulated electric power consumption. Using this method, it is not only troublesome to meter the power consumption, but also it is difficult to charge the power consumption by time. Therefore, a meter reading method using some remote communication has been developed. However, in the case of using telecommunication, additional amount of communication cost is required because the electric quantity measuring device must be equipped with wired / wireless communication equipment.

Most of the power consumption is concentrated in certain time zones, for example, from 12 o'clock in the summer to 3 o'clock in the summer or in the evening hours of the winter. However, it is possible to distribute the load during the time when the energy overload occurs when the power charge is differentiated according to the time zone. However, when using the current billing method, additional costs are incurred in order to differentially charge the electricity rate according to the time zone.

One embodiment provides a power bill settlement system, a power amount metering apparatus for a power bill settlement system, a mobile communication terminal, and a control method thereof, wherein the power bill can be settled at a differential rate according to a time zone.

In addition, one embodiment of the present invention provides a power billing system and a power billing system capable of performing time-based differential billing without installing an additional communication device for connecting a watt-hour meter to an external communication network to transmit power consumption information A mobile communication terminal, and a control method thereof.

A power bill settlement system according to an embodiment includes a power amount measuring device for measuring a power consumption of a power consumer by time slot; A mobile communication terminal for receiving information on the amount of power used by the time slot from the power amount measuring device and transmitting information on the amount of power used by the time slot; And a settlement device for generating billing information for the power consumer using information on the amount of power used by the time slot and pricing information for each time slot.

The energy amount measuring apparatus may store information on the power consumption by the time zone together with the encryption code.

The metering module includes a metering module installed at a power inlet and measuring power consumption by the time slot; A storage module for storing information on power consumption by the time slot; A first proximity communication module for transmitting information on power usage by the time slot to the mobile communication terminal by proximity communication with the mobile communication terminal; And a first security module including an encryption key specific to the settlement device and a security application, and performing a mutual authentication between the encryption key unique to the settlement device and the mobile communication terminal by the security application.

The first proximity communication module automatically recognizes the mobile communication terminal as the mobile communication terminal approaches the power amount metering device and automatically detects a connection between the mobile communication terminal and the watt- Association.

The mobile communication terminal may receive the encryption code from the power amount measuring device and transmit the encryption code to the settlement device together with the information on the power consumption by the time slot.

The mobile communication terminal performs recognition and association between the power amount measuring apparatus and the mobile communication terminal and transmits information about the power usage amount by time slot from the power amount measuring apparatus by proximity communication with the power amount measuring apparatus 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 a mobile communication module for transmitting information on the amount of power used by the time slot to the settlement device through the mobile communication network after completion of the mutual authentication.

The mobile communication module can receive the verification result of the information on the power usage amount by the time slot from the settlement device.

The settlement apparatus can verify the legitimacy of the information on the power usage by the time slot using the encryption code received from the mobile communication terminal.

Wherein the settlement apparatus comprises: a communication and authentication processing module for receiving the information on the power usage amount and the encryption code by the time slot from the mobile communication terminal and verifying the legitimacy of the information on the power usage amount by the time slot using the encryption code; A database for storing the charge information for each time slot; And a settlement processing module for generating billing information for the power consumer using the information on the amount of power used by the time slot and the billing information for each time slot and for calculating a power charge for the power consumer based on the billing information can do.

The settlement processing module generates statistical information for the power consumer on the basis of the power usage information for each time slot, and the communication and authentication processing module can transmit the statistical information to the power consumer.

A power meter for a power bill payment system according to an embodiment includes a measurement module installed at a power inlet and measuring a power consumption of a power consumer by time slot; A storage module for storing information on power consumption by the time slot; And a proximity communication module for transmitting information on the power consumption by the time slot to the mobile communication terminal by proximity communication with the mobile communication terminal.

And a security module including an encryption key specific to the settlement device and a security application and performing mutual authentication between the encryption key unique to the settlement device and the mobile communication terminal by the security application.

The storage module may store information on the power consumption by the time slot together with the encryption code.

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

The proximity communication module can automatically recognize the mobile communication terminal as the mobile communication terminal approaches the power amount metering device.

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

A mobile communication terminal for a power bill settlement system according to an embodiment includes a proximity communication module for receiving information on power consumption by time slot from the power amount metering device by proximity communication with a power amount metering device; A security module for performing mutual authentication between the energy amount measuring device and the mobile communication terminal; And a mobile communication module for transmitting information on the power consumption by the time slot to the settlement device through the mobile communication network after completion of the mutual authentication.

The proximity communication module can 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 settlement device together with the information on the power consumption by the time slot.

The security module may include an encryption key and a security application specific to the settlement apparatus, and may perform mutual authentication between the energy amount metering apparatus and the mobile communication terminal by an encryption key specific to the settlement apparatus and a security application.

The mobile communication module may further transmit an encryption code to the settlement apparatus and receive the verification result of information on the power usage amount by the time slot from the settlement apparatus.

An application for charging a power bill from a service provider of the power bill settlement system, the application being an application for performing authentication and settlement processing for payment of the power bill, including a security application; and downloading an encryption key specific to the settlement device And installing the security module in the security module.

Wherein the security module verifies the legitimacy of the electric energy metering device by using the ciphertext for authentication for the electric energy metering device as the application is activated, And may be one generated by the power quantity measuring apparatus based on the unique number and the random number of the mobile communication terminal.

Wherein the security module is configured to use the unique number and the random number of the electric power metering device received from the electric power metering device via the proximity communication module to calculate the random number of the mobile communication terminal used for verifying the legitimacy of the mobile communication terminal, Can be generated.

According to an embodiment of the present invention, there is provided a control method of a power bill payment system, comprising: measuring a power consumption of a power consumer by time slot; Receiving information on the power consumption by the time slot from the power amount measuring device and transmitting the information to the settlement device; And generating the charging information for the power consumer using the information about the power usage by the time slot and the pricing information for each time slot stored in advance by the settlement device.

And the energy amount measuring apparatus may store the information on the power consumption by the time zone together with the encryption code.

Wherein the step of measuring the power consumption by the time slot comprises the steps of: measuring the power consumption by the measurement module installed in the power inlet stage; Storing information on the power consumption by the time slot; The first proximity communication module transmitting information on the power usage by the time slot to the mobile communication terminal by proximity communication with the mobile communication terminal; And performing mutual authentication between the first security module and the mobile communication terminal, wherein the first security module may include an encryption key and a security application specific to the settlement device.

Wherein the step of transmitting the information on the power consumption by the time slot includes 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 a connection between the first proximity communication module and the mobile communication terminal according to the recognition.

Wherein the step of transmitting to the settlement apparatus comprises: receiving, by the mobile communication terminal, an encryption code from the power amount metering apparatus; And transmitting, by the mobile communication terminal, the encryption code to the settlement apparatus together with the information on the power consumption by the time slot.

The step of generating charging information for the power consumer may include receiving information on the power consumption by the time slot from the mobile communication terminal; Storing the time zone charge information in a database; The billing information for the power consumer is generated by the settlement processing module using the information on the power consumption by the time slot and the charge information for each time slot; And the settlement processing module may settle the power bill for the power consumer based on the billing information.

The step of calculating the electric power charge for the electric power consumer may further comprise the step of the statistical information for the electric power consumer based on the electric power consumption information for each time slot by the settlement processing module.

A method of controlling a power amount metering apparatus for a power bill settlement system according to an exemplary embodiment of the present invention includes: measuring a power consumption amount of a power consumer by a time slot; The storage module storing the information on the power consumption by the time slot together with the encryption code; The security module performing mutual authentication between the power amount metering device and the mobile communication terminal; And a step in which the proximity communication module transmits the information about the power usage amount and the encryption code to the mobile communication terminal by the proximity communication with the mobile communication terminal.

The step of transmitting the information on the power usage by time slot and the encryption code may further include automatically recognizing the mobile communication terminal by the proximity communication module as the mobile communication terminal approaches the power amount metering device can do.

A method for controlling a mobile communication terminal for a power bill settlement system according to an embodiment includes performing a proximity communication module for performing proximity communication with a power amount metering device to recognize and associate the power amount metering device with the mobile communication terminal step; The security module performing mutual authentication between the power amount metering device and the mobile communication terminal; After the completion of the mutual authentication, the proximity communication module receives the information on the power consumption by the time slot from the power amount metering device; And a step in which the mobile communication module transmits information on the amount of power used by the time slot to the settlement device through the mobile communication network.

Downloading an encryption key specific to an application and a settlement device for charging a power bill from a service provider of the power bill settlement system; And installing an encryption key specific to the application and the settlement device in the security module, wherein the application is an application for performing authentication and settlement processing for payment of the electric power bill, and may include a security application .

The step of performing the mutual authentication further includes a step of the security module verifying the legitimacy of the electric power metering device by using the cipher text for authentication for the electric energy amount measuring device as the application is activated, May be generated by the power quantity measuring apparatus based on the unique number and the random number of the mobile communication terminal generated in the security module.

The step of performing the mutual authentication may include: driving the security module included in the mobile communication terminal by the application; And performing mutual authentication with the watt-hour metering device using the cipher text for authentication generated for the mobile communication terminal by using the encryption key specific to the settlement device in the security module.

According to an embodiment of the present invention, a power bill settlement system, a power amount measuring apparatus for a power bill settlement system, a mobile communication terminal And a control method thereof.

In addition, according to an embodiment, a power consumer can actively save electric power by imposing a differential charge on a time basis for a power consumer, and at the same time, providing a result of inducing the power supplier to distribute peak power consumption at different time zones A power meter for a power billing system, a mobile communication terminal, and a control method thereof.

1 is a block diagram of a power bill settlement system including a power amount measuring apparatus, a mobile communication terminal, and a settlement apparatus according to an embodiment.
2 is a diagram for explaining an overall operation of a power bill settlement system according to an embodiment.
3 is a view for explaining an operation performed in a mutual authentication between a power amount measuring apparatus included in a power bill settlement system according to an embodiment and a mobile communication terminal.
4 is a block diagram of a mobile communication terminal for a power bill settlement system according to an embodiment.
5 is a block diagram of a power meter for a power billing system according to an embodiment.
FIG. 6 is a flowchart illustrating a method of controlling a power amount measuring apparatus for a power bill settlement system according to an embodiment.
7 is a flowchart illustrating a method of controlling a mobile communication terminal for a power bill settlement system according to an embodiment.
8 is a view for explaining a case of charging an electric vehicle using a power bill settlement system according to an embodiment.
9 is a diagram for explaining a user interface (UI) appearing on a screen of a mobile communication terminal when a power bill is paid using Near Field Communication (NFC) in a power bill settlement system according to an embodiment .
FIG. 10 is a diagram for explaining a user interface (UI) displayed on a screen of a mobile communication terminal when a power bill is paid using a short distance communication in a power bill settlement system according to an embodiment.

Hereinafter, embodiments according to 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. In addition, the same reference numerals shown in the drawings denote the same members.

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

The electric bill settlement system 100 includes a power amount measuring apparatus 110, a mobile communication terminal 130 and a settlement apparatus 150.

Recently, the mobile communication terminal 130 is evolving from a conventional telephone function to use various other functions. Since the mobile communication network is already installed in almost all regions in Korea, if the mobile communication terminal 130 is provided, it is possible to communicate with the outside at any time. Therefore, if any device can communicate with the mobile communication terminal, it can be used as a gateway to perform communication with the outside. Accordingly, in one embodiment, the mobile communication terminal is utilized as a gateway of the amount-of-electricity measuring apparatus 110 by focusing on this point.

The power quantity measuring apparatus 110 has a proximity wireless communication function and measures and stores the power consumption by the power consumer in the time zone.

When the mobile communication terminal 130 having the proximity wireless communication function approaches the electric power billing settlement apparatus, the electric energy quantity measuring apparatus 110 transmits the electric power consumption information of the electric power consumer by time zone to the mobile communication terminal 130 by the proximity wireless communication do.

The mobile communication terminal 130 receives the information on the power consumption by time slot and the encryption code from the power consumption metering device 110. The mobile communication terminal 130 transmits the power consumption information of the power consumer by time slot to the encryption code To the settlement apparatus 150 together with the settlement amount. The encryption code can be used to verify the legitimacy of the information on the amount of power consumption by the time slot received from the amount-of-electricity measuring apparatus 110 by the settlement apparatus 150 via the mobile communication terminal 130. [

However, in order to perform such an operation, an authentication procedure is required to confirm the legitimacy of each device.

For this, the security module 117, 133 of each of the power amount measuring apparatus 110 and the mobile communication terminal 130 may be included. Each security module includes an encryption key and security application specific to the settlement apparatus 150, and can perform mutual authentication with each other by a security application and an encryption key specific to the settlement apparatus. The encryption key unique to the settlement apparatus 150 may be an authentication key of the power billing service provider.

In addition, the security modules 117 and 133 of each of the energy amount measuring apparatus 110 and the mobile communication terminal 130 may include a security device capable of generating a ciphertext for authentication 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 the identity of the subscriber is stored. Accordingly, when the mobile communication terminal 130 and the electric power metering device 110 are close to each other, an application installed in the mobile communication terminal 130 is executed and mutual authentication is performed by exchanging ciphertexts through proximity wireless communication .

A method for performing mutual authentication between the amount-of-electricity measuring apparatus 110 and the mobile communication terminal 130 will be described in detail with reference to FIG.

When the information on the power consumption by the power consumption of the power consumer is received from the mobile communication terminal 130, the settlement apparatus 150 calculates the billing information for each time period by using the billing information for each time period stored in the database or the like. Therefore, the electricity amount measuring apparatus 110 does not need to store the time zone charge information.

The settlement apparatus 150 may charge the electric power consumer differentially according to the power consumption time zone, or charge the electric power consumer at the same rate.

The power amount measuring apparatus 110, the mobile communication terminal 130, and the settlement apparatus 150 included in the electric bill settlement system 100 may include the following components, respectively.

The energy amount measuring apparatus 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 is installed at the power input end and can measure the power consumption per time period at regular intervals. Here, the power consumption by time slot does not necessarily mean 1 hour unit, but it can mean power consumption 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 consumption by time slot. In addition, the storage module 113 may encrypt and process information on the power usage by time slot using the encryption code generated by the first security module 117, and then store the information. The storage module 113 may store information on the power consumption by time slot together with the encryption code.

The first proximity communication module 115 may transmit the information on the power usage amount and the encryption code to the mobile communication terminal 130 by the time of close 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 electric power metering device 150 and automatically recognizes the mobile communication terminal 130, It is possible to perform association between terminals.

The first proximity communication module 115 may include a proximity communication function as well as a proximity communication function. In order to automatically recognize the mobile communication terminal 130, NFC (Near Field Communication) is used. However, in order to transmit and receive data such as information on the power consumption by the mobile communication terminal 130 and time zone, Near Field Communication), as well as Bluetooth (Bloothus), Zigbee, WiFi, and infrared communication (IrDA).

The first security module 117 may include an encryption key and security application specific to the settlement apparatus 150, and may perform mutual authentication between the encryption key and the mobile communication terminal by a secure application. At this time, the encryption key unique to the settlement apparatus 150 may be an authentication key of the electric bill settlement 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 to transmit and receive data and connection with the mobile communication terminal 130 or another proximity wireless communication device together with the first proximity communication module 115.

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 receives the encryption code together with the information on the amount of power used by the time amount from the energy amount measuring apparatus 110, and transmits the encrypted code to the settlement apparatus 150.

The second proximity communication module 131 receives information on the amount of power used by the time amount from the amount of electricity metering device 110 by proximity communication with the amount of electricity metering device 110 and transmits the information on the amount of power consumed by the time amount of the electricity amount measurement device 110 to the mobile communication terminal 130 ), And can perform Association and Association.

The second security module 133 may perform mutual authentication between the energy amount measuring apparatus 110 and the mobile communication terminal 130.

After completing the mutual authentication, the mobile communication module 135 can transmit information on the power consumption by time to the settlement apparatus 150 through the mobile communication network. Also, the mobile communication module 135 can receive the verification result of the information on the power consumption by time slot from the settlement device 150. [

The second antenna 137, along with the second proximity communication module 131, may be used to connect and transmit data with the metering device 110 or other proximity wireless communication device.

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

The communication and authentication processing module 151 receives the information on the power consumption by time slot and the encryption code from the mobile communication terminal 130 and verifies the legitimacy of the information on the power consumption by the time slot using the encryption code, And transmit the result to the mobile communication terminal 130.

In addition, the communication and authentication processing module 151 can transmit the corresponding information to the database (DB) 153 when the time-based charge information is received from the power supplier.

The database (DB) 153 may store the time zone charge information. The database 153 may store the time-based charge information received from the power supplier, or may store the charge information by time slot in advance, and may also store the updated information when the charge information by time slot is changed. The database 153 may also store the result of the settlement in the settlement processing module 155.

The settlement processing module 155 may generate billing information for the power consumer using the information on the power usage by time slot and the billing information for each time slot, and may settle the power charges for the power consumer based on the billing information. At this time, the settlement processing module 155 may register the credit card information of the power consumer in advance and then perform the settlement using the registered information, or may perform the settlement using the telephone number of the registered power consumer.

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

Accordingly, the power consumer can grasp the power consumption patterns of his / her own time period and the accumulated total usage amount for a certain period through the statistical information fed back to him / her. The statistical information can be provided in various types of graphs so that the power consumer can more easily grasp the power consumption patterns of his own time zones and the accumulated total usage amount for a certain period of time.

2 is a diagram for explaining an overall operation of a power bill settlement system according to an embodiment.

As described above, the power bill settlement system may include a power amount measuring apparatus 201, a mobile communication terminal 203, and a settlement apparatus 205.

The power quantity measuring apparatus 201 has a proximity wireless communication function and measures the power consumption of the power consumer by the time slot 210 and then encrypts and stores information on the power consumption by the time slot together with the encryption code 215.

The electric power consumer receives an application for authentication and settlement processing from the service provider of the electric bill payment system to the mobile communication terminal 203 possessed by the electric power amount measuring apparatus 201 for use, Service can be provided.

To this end, the mobile communication terminal 203 downloads an application for payment of a power bill and an encryption key specific to the settlement device from a service provider of the electric bill payment system, and installs the encryption key in its own 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 installed in the mobile communication terminal 203 may also be installed 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 of the embodiment, and the mobile communication terminal 203 may be connected to the electric power metering device 201 It can be done anytime before.

The amount of electricity metering device 201 recognizes the mobile communication terminal automatically as the mobile communication terminal 203 approaches the mobile communication terminal 203 near the mobile communication terminal 203, Association 230 may be performed.

After association is performed, the energy amount measuring apparatus 201 and the mobile communication terminal 203 can perform mutual authentication (235). A concrete method of performing mutual authentication between the amount-of-electricity measuring apparatus 201 and the mobile communication terminal 203 will be described with reference to FIG.

If the mutual authentication is successful at step 235, the energy amount measuring apparatus 201 may transmit the information on the power consumption by time slot and the encryption code to the mobile communication terminal 203 (240). If the mutual authentication fails at 235, the electric energy quantity measuring apparatus 201 and the mobile communication terminal 203 can cancel the association and terminate the operation for the electric power bill settlement. At this time, on the screen of the mobile communication terminal 203, a warning indicating that the mutual authentication has failed (for example, "unauthenticated device" or a warning as indicated by 913 in FIG. 9) may appear.

The mobile communication terminal 203 may transmit the information on the power consumption by time slot received from the power amount measuring device and the encryption code to the settlement apparatus 205 (245).

The settlement apparatus 205 can verify the legitimacy of the information received from the mobile communication terminal 203 (i.e., the information on the power usage amount by time slot) using the encryption code (250).

At this time, the settlement apparatus 205 can encrypt the received information on the power consumption by time slot using an encryption key specific to the settlement apparatus, compare the received information with the received encryption code, and verify the legitimacy of the information.

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

Thereafter, the settlement apparatus 205 may generate 260 the billing information for the power consumer using the information on the amount of power used by the time slot and the billing information for each time slot, and settle the bill for the power consumer ( 265).

The settlement apparatus 205 may notify the charged rate to the mobile communication terminal 203 (270).

At this time, the settlement apparatus 205 may also generate statistical information for the power user based on the power usage information for each time slot, and may also notify statistical information at the time of notification of the set fare.

3 is a view for explaining an operation performed in a mutual authentication between a power amount measuring apparatus included in a power bill settlement system according to an embodiment and a mobile communication terminal.

As described above, an authentication procedure is required to verify the legitimacy between devices that perform power bill settlement. In FIG. 2, the mutual authentication 235 between the energy amount measuring apparatus 201 and the mobile communication terminal 203 can be performed in the following manner.

When the first proximity communication module of the electric energy quantity measuring apparatus 301 and the second proximity communication module of the mobile communication terminal 303 recognize each other and the connection is established, the mobile communication terminal 303 transmits The downloaded application for power bill settlement is executed. An application for power bill settlement is an application that performs authentication and settlement processing for power bill settlement, and may include a security application.

When the application for power bill settlement is executed, the mobile communication terminal 303 generates (310) a unique number and a random number value of the mobile communication terminal 303 through the security application installed in the second security module, To the power amount measuring apparatus 301 (315). At this time, the second security module may include a security device such as a USIM.

The energy amount measuring apparatus 301 generates (320) a ciphertext for authentication based on the unique number and the random number of the mobile communication terminal 303 through the first security module.

Thereafter, the electric power quantity measuring apparatus 301 generates (325) a unique number and a random number value of itself (the electric power quantity measuring apparatus 301) and transmits them to the mobile communication terminal 303 together with the authentication ciphertext generated at 320 (330).

The mobile communication terminal 303 transmits the received ciphertext for authentication to a security device such as a USIM included in the second security module to verify the validity of the power amount measuring device (335). The mobile communication terminal 303 determines whether the verification is successful (340).

If the verification is successful in step 340, the mobile communication terminal 303 generates a ciphertext for authentication using the unique number and the random number of the power amount metering device received from the power amount measuring device 301 in the second security module (345) . The mobile communication terminal 303 transmits the cipher text for authentication generated in step 345 to the power amount measuring apparatus 301 (350). On the other hand, if the verification at 340 is unsuccessful, the mobile communication terminal 303 may return to the initial process for terminating the operation or performing the mutual authentication.

The energy amount measuring apparatus 301 transmits the received cipher text for authentication to the first security module and verifies the validity of the mobile communication terminal 303 (355).

The power amount measuring apparatus 301 determines whether the verification of the mobile communication terminal 303 is successful at step 360. If the verification is successful at step 370, the mutual authentication with the mobile communication terminal 303 is completed.

On the other hand, if the verification at 360 is unsuccessful, the power meter device 301 may return to the initial process for terminating the operation or performing the mutual authentication.

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

The mobile communication terminal 400 for the electric 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 the amount of power used by time from the amount of electricity metering device by proximity communication with the amount of electricity metering device.

The proximity communication module 410 can perform recognition and association between the energy amount measuring device and the mobile communication terminal.

The proximity communication module 410 may further receive the encryption code from the energy amount measuring device and transmit the encryption code to the settlement device together with information on the power consumption per time period.

The security module 430 performs mutual authentication between the energy amount measuring device and the mobile communication terminal.

The security module 430 includes an encryption key and a security application specific to the settlement device and can perform mutual authentication between the encryption key unique to the settlement device and the energy amount metering device and the mobile communication terminal by the security application.

As the application installed in the security module 430 is activated by the installation module 470, the security module 430 can verify the validity of the energy amount metering device by using the ciphertext for authentication for the energy amount metering device.

At this time, the authentication ciphertext for the energy amount measuring apparatus may be generated by the power amount measuring apparatus based on the unique number and the random number value of the mobile communication terminal generated by the security module 430.

The security module 430 can generate the authentication ciphertext for the mobile communication terminal by using the unique number and the random number of the electric power metering device received from the electric power metering device through the proximity communication module. The authentication ciphertext for the mobile communication terminal can be used to verify the legitimacy of the mobile communication terminal.

After completion of the mutual authentication, the mobile communication module 450 transmits information on the power consumption by time to the settlement device through the mobile communication network.

The mobile communication module 450 may further transmit an encryption code to the settlement device and receive the verification result of the information on the power consumption by time slot from the settlement device.

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

5 is a block diagram of a power meter for a power billing system according to an embodiment.

The power meter 500 for a power billing system may include a metering module 510, a storage module 530, a proximity communication module 550, and a security module 570.

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

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

The storage module 530 may store information on power usage by time zone together with an encryption code.

The proximity communication module 550 may transmit the information on the power usage amount and the encryption code to the mobile communication terminal by the time of close communication with the mobile communication terminal.

The proximity communication module 550 can automatically recognize the mobile communication terminal as the mobile communication terminal approaches the electric power metering device.

The proximity communication module 550 can automatically recognize the mobile communication terminal and can perform an association between the power amount measurement device and the mobile communication terminal.

The security module 570 includes an encryption key and a security application specific to the settlement device, and can perform mutual authentication between the encryption key unique to the settlement device and the mobile communication terminal by the security application.

FIG. 6 is a flowchart illustrating a method of controlling a power amount measuring apparatus for a power bill settlement system according to an embodiment.

When the measurement module of the power quantity measuring apparatus measures the power consumption of the power consumer by the time slot (601), the storage module stores information on the power consumption by the time slot together with the enciphered code (603).

Thereafter, the proximity communication module recognizes the mobile communication terminal automatically (605) as the mobile communication terminal approaches the power amount metering device.

The security module performs mutual authentication between the energy amount measuring device and the mobile communication terminal (607).

The proximity communication module transmits the information on the power usage by time slot and the encryption code to the mobile communication terminal through proximity communication with the mobile communication terminal (609).

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

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

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

The proximity communication module performs association and recognition (703) between the energy amount measuring device and the mobile communication terminal by close communication with the energy amount measuring device.

The security module performs mutual authentication between the energy amount measuring device and the mobile communication terminal.

When the application activates the security module included in the mobile communication terminal at the time of performing the mutual authentication (705), the security module performs mutual authentication with the power amount metering device using the cipher text for authentication for the mobile communication terminal (707). At this time, the authentication ciphertext for the mobile communication terminal may be generated using an encryption key specific to the settlement device.

In addition, as the application is activated at the time of performing the mutual authentication, the security module can verify the validity of the power amount metering device by using the ciphertext for authentication for the power amount metering device. The authentication ciphertext for the energy amount measuring apparatus may be generated by the power amount measuring apparatus based on the unique number and the random number value of the mobile communication terminal generated by the security module.

After the completion of the mutual authentication in step 707, if the proximity communication module receives the information on the power usage amount by time slot from the power amount metering device (709), the mobile communication module transmits information on the power usage amount by time slot to the settlement device through the mobile communication network (711).

8 is a view for explaining a case of charging an electric vehicle using a power bill settlement system according to an embodiment.

The electric vehicle 810, the electric power quantity measuring device 830, the mobile communication terminal 850, and the settling device 870 provided in the charger (more specifically, the RF pad of the charger) .

First, a user (that is, a power consumer) can download an application for payment of a power bill and an encryption key specific to the settlement device to the mobile communication terminal 850 for charging the electric vehicle 810. The mobile communication terminal 850 is a mobile communication terminal having an NFC (Near Field Communication) function. At this time, the application for payment of the electric bill may be an application for use of the charger, and the encryption key specific to the payment apparatus may be the authentication key.

When the user moves the mobile communication terminal 850 to within 10 cm of the electric power amount measuring device 830 of the charger in order to charge the electric vehicle 810, the application for charging use installed in the mobile communication terminal 850 is automatically executed do. Then, the energy amount measuring apparatus 830 and the mobile communication terminal 850 perform mutual authentication by transmitting and receiving the ciphertext through the authentication key.

When the mutual authentication is completed, the charger unlocks the charging port and enters the charging ready state in which the cable can be connected and the charging can proceed.

The user connects the cable to the charger and the vehicle when it is confirmed that the charger is ready for charging.

The charger locks the charging port and supplies electric power to the electric vehicle 810 when it is confirmed that the connector is connected to the vehicle.

The charging application of the mobile communication terminal 850 is executed when the user moves the mobile communication terminal 850 closer to the charger to terminate charging and the charging application mutually authenticates the authentication system and the charger through the transmission and reception of the ciphertext, If the authentication is successful, it transmits the power usage information, stops the power supply, and unlocks the charger to disconnect the cable.

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

The user can receive the electronic receipt from the settlement apparatus 870 through the mobile communication terminal 850. [

As described above, the power bill settlement system according to one embodiment can be applied to all devices requiring real-time settlement of electric power charges such as chargers of electric vehicles.

9 is a diagram for explaining a user interface (UI) appearing on a screen of a mobile communication terminal when a power bill is paid using Near Field Communication (NFC) in a power bill settlement system according to an embodiment .

The user approves the mutual authentication through the transmission and reception of the cipher text between the energy amount measuring apparatus and the mobile communication terminal by bringing the mobile communication terminal close to the electric power quantity measuring apparatus (901).

The mobile communication terminal determines whether the mutual authentication is successful (903). If the mutual authentication is successful, the mobile communication terminal can provide a screen to inquire whether to receive the 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 consumption information at 905, the mobile communication terminal is provided with a screen for instructing the mobile communication terminal to close (or tag) the power consumption measuring device (907). When the user cancels reception of the power consumption information at 907, a screen such as 911 appears on the screen of the mobile communication terminal.

On the other hand, if the user approached (or tagged) the mobile communication terminal with the power amount measuring device in 907, the mobile communication terminal receives the power usage amount information from the power amount measuring device. At this time, a screen such as 909 appears on the screen of the mobile communication terminal. When the reception of the electric power consumption amount information from the electric energy amount measuring apparatus is completed, a screen such as 915 appears in the mobile communication terminal.

If the user selects 'Detailed inquiry' for today's usage on the screen of 915, a screen for power usage details by day of the week is displayed on the mobile communication terminal (917).

In addition, if the user selects 'detailed inquiry' for the pending usage amount on the screen 915, a screen for the power usage details for the time period from the previous payment time to the current time is displayed (919).

If the user selects 'inquiry' for the rate on the screen 915, the mobile communication terminal transmits the usage amount information to the settlement device (or the payment server) (921) and displays a payment progress screen for the fee (923 ). When the user selects the payment for payment in the payment progress screen of 923, the electric bill is paid through the user's credit card information or mobile communication terminal number stored in advance. After the settlement is completed, a phrase such as 925 is displayed on the user's mobile communication terminal.

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

In the case where the electric bill payment system uses electric power such as Bluetooth, Zigbee, infrared communication, or the like to charge the electric power charges, electric power installed in the mobile communication terminal, instead of proximity (or tag) It is possible to execute an application for bill payment and search for a watt-hour meter.

Thereafter, when the electric energy quantity measuring device is selected, mutual authentication between the mobile communication terminal and the electric energy quantity measuring device can be performed through the transmission and reception of the cipher text (1001).

The mobile communication terminal determines whether the mutual authentication is successful (1003). If the mutual authentication is successful, the mobile communication terminal can provide a screen to inquire 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. Unlike in FIG. 9, if the user selects to receive the power consumption information at 1005, the user does not have to close (or tag) the mobile communication terminal with the power consumption measuring device, Information (1107). The following operation is the same as the operation of 909 to 925 in Fig. 9, so that the description of the relevant portion 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, and the like, 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.

While the invention has been shown and described with reference to certain preferred embodiments thereof, it will be understood by those of ordinary skill in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. 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: Electricity bill payment system
110: Electricity quantity measuring device
130: mobile communication terminal
150: Settling device

Claims (1)

In a power bill settlement system,
Electric car charger;
A power amount measuring device connected to the electric vehicle charger and measuring a power consumption amount of a power consumer by time slot;
A mobile communication terminal for receiving information on the amount of power usage by the time slot from the power amount measuring device through short distance communication and transmitting information on the amount of power usage by the time slot; And
A billing information generating unit for generating billing information for the power consumer using the information on the power consumption by the time slot and the pricing information for each time slot,
Lt; / RTI >
Wherein the electric vehicle charger is in a state ready for charging when the electric power metering device completes authentication with the mobile communication terminal,
Wherein the mobile communication terminal performs power bill settlement based on the billing information
Electricity bill payment system.

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