KR20150099382A - Wireless power providing apparatus, wireless power receiving apparatus, movile terminal, application server, and location based service system using the same, and application therefor - Google Patents

Abstract

The present invention relates to a wireless power providing apparatus, a wireless power receiving apparatus, a mobile terminal, application server, and a location based service system using the same, and an application therefor. A wireless power providing apparatus according to an embodiment of the present invention may include a power providing part which provides wireless power to a wireless power receiving apparatus, and an identification information management part which provides first identification information allocated to the wireless power providing apparatus to other apparatuses.

Description

TECHNICAL FIELD [0001] The present invention relates to a wireless power transmitting apparatus and a receiving apparatus, a mobile terminal, an application server, and a location-based service system and an application thereof using the wireless power transmitting apparatus and the receiving apparatus. THEREFOR}

The present invention relates to a wireless power transmission apparatus and a receiving apparatus, a mobile terminal, an application server, and a location-based service system and application using the same.

With advances in wireless technology, wireless technologies are being developed to provide various functions ranging from data transmission to power transmission. In recent years, wireless power transmission technology capable of charging electronic devices even in non-contact has become a major issue.

Wireless power transfer technology can provide free charging without the physical connection between the mobile terminal and the charging device. Accordingly, various applications and applications of wireless power transmission technology have been made because of convenience of charging and degree of freedom.

However, a general wireless charging technology has a limitation in that it only provides charging only between the wireless power transmitting apparatus and the wireless power receiving apparatus, but can not provide a user-customized service or the like.

Conventional related arts can be understood with reference to Korean Laid-open Patent Publications No. 2013-0082952, Korean Patent No. 10-1262641, Laid-Open Patent Application No. 2011-0195722, and Japanese Laid-Open Patent Application No. 2010-033479.

Korean Patent Publication No. 2013-0082952 Korean Patent No. 10-1262641 U.S. Published Patent Application No. 2011-0195722 Japanese Patent Laid-Open No. 2010-033479

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems of the prior art and it is an object of the present invention to provide a wireless power transmission device and a receiving device capable of providing a location based service of a user using information on a location where wireless power charging is performed, Server, and a location based service system and application using the same.

One technical aspect of the present invention proposes an embodiment of a wireless power transmission device. The wireless power transmission apparatus may include a power transmission unit for providing wireless power to the wireless power reception apparatus and an identification information management unit for providing the first identification information assigned to the wireless power transmission apparatus to the other devices.

Another technical aspect of the present invention proposes an embodiment of a wireless power receiving apparatus. The wireless power receiving apparatus includes: a power receiving unit that receives wireless power provided from a wireless power transmitting apparatus; and a receiving unit that receives first identification information allocated to the wireless power transmitting apparatus from the wireless power transmitting apparatus, And an identification information transfer unit for providing the identification information to the mobile terminal.

Another technical aspect of the present invention proposes an embodiment of a mobile terminal. The mobile terminal includes a charging unit connected to the wireless power receiving apparatus to charge the power and the first identification information allocated to the wireless power transmission apparatus and transmits the second identification information or the first identification information allocated to the mobile terminal And a control unit provided to the application server.

Another technical aspect of the present invention proposes another embodiment of a mobile terminal. The mobile terminal includes a charging unit connected to the wireless power receiving apparatus to charge the electric power and providing first identification information allocated to the mobile terminal to the wireless power transmission apparatus, And a control unit for receiving the associated location service data.

Another technical aspect of the present invention proposes an embodiment of an application server. The application server includes a storage unit for storing first identification information allocated to a wireless power transmission apparatus and location data relating to area information for an area where the wireless power transmission apparatus is located, And a location service provider for determining the location of the mobile terminal receiving power from the power transmission device.

Another technical aspect of the present invention proposes an embodiment of an application. Wherein the application is an application running on a mobile terminal, the application having a function of obtaining first identification information assigned to a wireless power transmission device that provides wireless power, managing second identification information assigned to the mobile terminal, And to provide the identification information or the second identification information to other devices.

Another technical aspect of the present invention proposes an embodiment of a location based service system. The location based service system comprising: a wireless power transmission device for providing wireless power to a wireless power receiving device; a mobile terminal receiving power from the wireless power receiving device; And an application server for providing location-based service data by determining the location of the device as the location of the mobile terminal.

The solution of the above-mentioned problems does not list all the features of the present invention. Various means for solving the problems of the present invention can be understood in detail with reference to specific embodiments of the following detailed description.

According to an embodiment of the present invention, there is an effect that a location-based service of a user can be provided by using information on a location where wireless power is charged.

According to an embodiment of the present invention, the location-based service is provided to the user based on the location of the wireless power charging device, thereby enabling the location to be accurately checked irrespective of the influence of the user's environment.

According to an embodiment of the present invention, location-based services can be provided while providing wireless power charging, so that the service accessibility of a user can be expanded.

1 is a block diagram illustrating a location-based service system according to an embodiment of the present invention.
Figures 2 to 6 are block diagrams illustrating various embodiments of a location based service system.
Figs. 7 to 12 are block diagrams showing various embodiments of a wireless power transmission apparatus. Fig.
13 to 15 are block diagrams showing various embodiments of a wireless power receiving apparatus.
16 is a configuration diagram showing an embodiment of a circuit applicable to a wireless power transmission apparatus and a reception apparatus.
17 to 18 are block diagrams showing various embodiments of a mobile terminal.
19 is a configuration diagram showing an embodiment of an application server.
20 to 23 are flowcharts illustrating various embodiments of an authentication method performed for providing wireless power.
24-26 are flowcharts illustrating various embodiments of a method for providing identification information for location data selection.
27 is a flowchart showing an embodiment of a location service providing method that can be performed in an application server.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings.

However, the embodiments of the present invention can be modified into various other forms, and the scope of the present invention is not limited to the embodiments described below. Further, the embodiments of the present invention are provided to more fully explain the present invention to those skilled in the art.

In the drawings referred to in the present invention, elements having substantially the same configuration and function will be denoted by the same reference numerals, and the shapes and sizes of the elements and the like in the drawings may be exaggerated for clarity.

1 is a block diagram illustrating a location-based service system according to an embodiment of the present invention.

1, a location based service system may include a wireless power transmission device 100, a wireless power receiving device 200, a mobile terminal 300, and an application server 400.

The wireless power transmission apparatus 100 can wirelessly provide power to the wireless power receiving apparatus 200. [

The position of the wireless power transmission apparatus 100 can be fixed. That is, since the wireless power receiving apparatus 200 and the mobile terminal 300 are movable, their positions can not be specified, but the position of the wireless power transmission apparatus 100 can be specified.

Information on the location of the wireless power transmission apparatus 100 may be managed in the application server 400 or the mobile terminal 300 or the like. Hereinafter, an example of managing information on the location of the wireless power transmission apparatus 100 in the application server 400 is described as a basis, but various application examples may exist.

The wireless power receiving apparatus 200 can charge the mobile terminal 300 using the wireless power provided by the wireless power transmitting apparatus 100. [

In the present invention, the wireless power transmission apparatus 100 and the wireless power reception apparatus 200 are not limited to a specific standard. For example, the wireless power transmission apparatus 100 and the wireless power reception apparatus 200 may operate according to a standard (for example, A4WP) in which the short range communication method is set upon wireless charging. For example, the wireless power transmission apparatus 100 and the wireless power reception apparatus 200 may operate according to a standard (e.g., WPC, PMA) in which a local communication scheme does not exist during wireless charging.

The mobile terminal 300 can receive power from the wireless power receiving apparatus 200.

The mobile terminal 300 can receive the location-based service from the application server 400.

The application server 400 may identify the location of the mobile terminal 300 by identifying the wireless power transmission device 100. That is, since the location of the wireless power transmission apparatus 100 can be specified, the application server 400 identifies the wireless power transmission apparatus 100 accessible by the mobile terminal 300, The location of the mobile terminal 300 can be determined.

The application server 400 may provide the mobile terminal 300 or the wireless power transmission apparatus 100 with location services related to the determined location of the mobile terminal 300. [ Or the application server 400 may identify the user of the mobile terminal 300 and provide the user-tailored service to the mobile terminal 300 or the wireless power transmission device 100.

In the following, various embodiments of a location based service system will be described with reference to various drawings. Duplicate or corresponding contents of the various application examples described below are not repeatedly described.

2 is a block diagram illustrating one embodiment of a location based service system.

The wireless power transmission apparatus 100 can wirelessly provide power to the wireless power receiving apparatus 200. [ According to an embodiment, the wireless power transmission apparatus 100 can provide wireless power after authenticating the wireless power receiving apparatus 200 or the mobile terminal 300. [

The wireless power receiving apparatus 200 can receive the wireless power provided by the wireless power transmitting apparatus 100 and use it to charge the mobile terminal 300. [ For example, the wireless power receiving device 200 may be a part of the mobile terminal 300, or it may be a separate device that can be coupled with the mobile terminal 300. [

The mobile terminal 300 can receive power from the wireless power receiving apparatus 200.

The application server 400 may identify the location of the mobile terminal 300 by identifying the wireless power transmission device 100 and may provide location based services using the identified location. The application server 400 may provide location service data to the mobile terminal 300 or to the wireless power transmission device 100, according to an embodiment.

In one embodiment, the application server 400 may provide the customized service data using the user information of the mobile terminal 300. The application server 400 may provide the customized service data to the mobile terminal 300 or to the wireless power transmission device 100.

Here, the location-based service provided by the application server 400 is not particularly limited. For example, the application server 400 may provide advertisements, coupons, and the like associated with the location of the mobile terminal 300 as location based services. As another example, the application server 400 may provide as a location-based service providing discounted or free use of the wireless power transmission device 100 associated with the location.

In addition, the location-based service may include location-independent service data. That is, the user-customized service data may not be related to the user's location, but the user-customized service data may be included in the location service data. Therefore, in the present invention, the location service data may include location-based service data as well as user-customized service data.

Hereinafter, various application examples of the location-based service system according to an embodiment of the present invention will be described with reference to FIG. 3 to FIG.

3 is a block diagram illustrating another embodiment of a location based service system.

The embodiment shown in FIG. 3 relates to an embodiment in which the wireless power transmission apparatus 100 does not have a separate communication network connectable to the external Internet, and does not have a local communication means connectable to the mobile terminal 300 .

In one embodiment, the wireless power transmission device 100 may perform authentication for wireless power charging. For example, if the wireless power receiving device 200 is located in a rechargeable state, e.g., a chargeable distance, with the wireless power transmitting device 100, the wireless power transmitting device 100 may be a wireless power receiving device 200, And can perform authentication for wireless power charging with the terminal 300.

In one embodiment, for authentication, the mobile terminal 300 may provide authentication information of the mobile terminal 300 to the wireless power receiving device 200. For example, if an application for wireless charging is installed in the mobile terminal 300, the application may store the authentication information of the mobile terminal 300 in the memory of the wireless power receiving apparatus 200. The wireless power receiving apparatus 200 may transmit the authentication information of the stored mobile terminal 300 to the wireless power transmitting apparatus 100. [ The wireless power transmission apparatus 100 can authenticate the mobile terminal 300 using the authentication information of the mobile terminal 300 and provide wireless power to the wireless power receiving apparatus 200 when normally authenticated.

In one embodiment, the authentication information of the mobile terminal may include identification information of a wireless communication service provider to which the mobile terminal is subscribed, and the wireless power receiving apparatus 200 may transmit identification information of the mobile terminal 300 ) Of the wireless charging.

In another embodiment, the wireless power receiving apparatus 200 may store authentication information, and the wireless power transmitting apparatus 100 may wirelessly transmit the wireless data to the mobile terminal 300 using the authentication information of the wireless power receiving apparatus 200. [ Authorization of charging can be authorized. For example, the authentication information of the wireless power receiving apparatus 200 may include identification information of a wireless communication service provider to which the mobile terminal has subscribed, and the wireless power receiving apparatus 200 may use wireless network identification information It is possible to judge whether or not electric power is provided.

The wireless power transmission apparatus 100 may provide wireless power to the wireless power receiving apparatus 200 and may provide the wireless power receiving apparatus 200 with the first identification information assigned thereto.

The first identification information of the wireless power transmission apparatus 100 can be used to confirm the position of the wireless power transmission apparatus 100, as described above. In addition, the position of the power transmitting apparatus 100 thus identified can be determined as the position of the mobile terminal 400. [

The wireless power receiving apparatus 200 may provide the first identification information of the wireless power transmission apparatus to the mobile terminal 300 and the mobile terminal 300 may transmit the first identification information of the wireless power transmission apparatus 100 to the application server 300. [ (400).

The application server 400 may use the identification information of the wireless power transmission device 100 to identify the location of the mobile terminal 300 and to provide location service data associated with the identified location to the mobile terminal 300. For example, the application server 400 may provide downloadable content, such as coupons, non-billing authentication information, advertisements, etc., associated with the identified location.

In one embodiment, the mobile terminal 300 may provide the second identification information assigned to it to the application server 400 along with the first identification information. For example, the second identification information may include IMEI, SIM code, telephone number, and the like.

The second identification information assigned to the mobile terminal 300 may be used to determine a customized service. That is, the application server 400 determines the location of the mobile terminal 300 using the first identification information, and determines whether the location service is provided to the mobile terminal 300, the service level, Type and the like can be determined.

In one embodiment, the mobile terminal 300 may provide the information to the application server 400 upon successful completion of wireless power charging. The application server 400 may change or terminate the provision of the service data according to the completion of wireless power charging.

4 is a reference diagram showing another embodiment of a location-based service system.

The embodiment shown in FIG. 4 relates to an embodiment in which the wireless power transmission apparatus 100 is provided with short-range wireless communication means and is capable of direct short-distance communication with the mobile terminal 300.

Referring to FIG. 4, the wireless power transmission apparatus 100 and the mobile terminal 300 can communicate with each other using a short-range wireless communication module (for example, Bluetooth). The wireless power transmission apparatus 100 may provide the mobile terminal 300 with the first identification information assigned thereto by using short-distance wireless communication.

The mobile terminal 300 may provide the first identification information to the application server 400. [

The identification information of the wireless power transmission apparatus 100 is used as positional information as described above. That is, the application server 400 confirms the location of the wireless power transmission apparatus 100 using the first identification information, determines the confirmed location as the location of the mobile terminal 300, and transmits the location service data To the mobile terminal (300) or the wireless power transmission device (100).

In one embodiment, the wireless power transmission device 100 may perform authentication for wireless power charging using the wireless power receiving device 200 or the mobile terminal 300, and when authentication is successful, (100) may provide wireless power to the wireless power receiving device (200). This authentication corresponds to the above description with reference to FIG. 3 and thus is not described redundantly.

5 is a reference diagram showing another embodiment of a location-based service system.

Another embodiment shown in FIG. 5 relates to an embodiment in which the wireless power transmission apparatus 100 is provided with wireless communication means capable of being connected to an external Internet, so that direct communication with the application server 400 is possible.

Referring to FIG. 5, the wireless power transmission apparatus 100 may provide wireless power to the wireless power receiving apparatus 200. According to an embodiment, the wireless power transmission apparatus 100 may perform authentication for wireless power charging.

The wireless power transmission apparatus 100 can provide its first identification information to the application server 400 using the wireless communication network.

According to an embodiment, the wireless power transmission device 100 may provide the application server 400 with the second identification information assigned to the mobile terminal 300 along with its first identification information.

The application server 400 identifies the location of the mobile terminal 300 using the first identification information of the wireless power transmission apparatus 100 and transmits the location-based service using the identified location to the mobile terminal 300 or the wireless power transmission To the device (100).

According to an embodiment, the application server 400 may provide location service data to the wireless power transmission device 100 or the mobile terminal 300.

In one embodiment, the application server 400 may receive the first identification information assigned to the wireless power transmission device 100 from the wireless power transmission device 100 and determine the location service data using the first identification information have. The application server 400 may provide the determined location service data to the wireless power transmission apparatus 100. In this embodiment, the location service may be provided without the second identification information assigned to the mobile terminal 300.

In another embodiment, the application server 400 receives the first identification information assigned to the wireless power transmission apparatus 100 from the wireless power transmission apparatus 100 and the second identification information assigned to the mobile terminal 300 can do. The application server 400 can identify the location using the first identification information, and further determine the location service data using the second identification information. The application server 400 may provide the determined location service data to the mobile terminal 300 or the wireless power transmission apparatus 100.

6 is a reference diagram showing another embodiment of a location-based service system.

6, the wireless power transmission apparatus 100 includes both a wireless communication unit and a short-range communication unit that can be connected to an external Internet, and includes an application server 400 and a mobile terminal 300 To an embodiment capable of direct direct communication.

Referring to FIG. 6, the wireless power transmission apparatus 100 may provide wireless power to the wireless power receiving apparatus 200. [ According to an embodiment, the wireless power transmission apparatus 100 may perform authentication for wireless power charging.

The wireless power transmission apparatus 100 can acquire second identification information assigned to the mobile terminal 300 directly from the mobile terminal 300 using short-distance wireless communication.

The wireless power transmission apparatus 100 can provide the first identification information and the second identification information assigned to the wireless power transmission apparatus 100 to the application server 400. [

The application server 400 may determine the location service data using the first identification information and the second identification information and provide the determined location service data to the wireless power transmission apparatus 100 or the mobile terminal 300. [

2 to 6, various embodiments of the location-based service system that provides the location service using the identification information allocated to the wireless power transmission apparatus 100 have been described.

2 to 6, embodiments using the first identification information assigned to the wireless power transmission apparatus 100 or the second identification information assigned to the mobile terminal 300 are described.

Further, it is apparent that the third identification information allocated to the wireless power receiving apparatus 200 may further be used in the above-described various embodiments. That is, it is possible to perform authentication using the third identification information assigned to the wireless power receiving apparatus 200, mutual authentication, or the like.

For example, the wireless power transmission apparatus 100 provides the first identification information and the third identification information to the application server 400, and the mobile terminal 300 transmits the second identification information and the third identification information to the application server 400 400). The application server 400 can identify the wireless power transmission apparatus 100 associated with the mobile terminal 300 using the third identification information. In addition, the application server 400 may determine the location of the mobile terminal 300 using the first identification information. Alternatively, the application server 400 may authenticate the mobile terminal 300 using the second identification information, or may verify the user-customized information of the mobile terminal 300.

Hereinafter, various embodiments of the respective devices will be described with reference to Figs. 7 to 19. Fig.

Figures 7-12 are diagrams of various embodiments of a wireless power transmission device.

7 is a configuration diagram showing an embodiment of a wireless power transmission apparatus.

Referring to FIG. 7, the wireless power transmission apparatus 100 may include a power transmission unit 110 and an identification information management unit 120.

The power transmitting unit 110 may provide wireless power to the wireless power receiving apparatus 200.

The identification information management unit 120 may provide the first identification information assigned to the wireless power transmission apparatus 100 to other devices. According to the embodiment, the identification information management unit 120 can directly or indirectly provide the first identification information to the wireless power transmission apparatus 200, the mobile terminal 300, or the application server 400. [

Here, the first identification information may be associated with the area information for the area where the wireless power transmission apparatus 100 is located. For example, the application server 400 may store first identification information and location information of the wireless power transmission apparatus 100 in association with each other. This is because the wireless power transmission apparatus 100 can be fixed in a specific area, so that the wireless power transmission apparatus 100 can be used to confirm the location of the mobile terminal 300 using the location information of the wireless power transmission apparatus 100.

8 is a configuration diagram showing another embodiment of the wireless power transmission apparatus.

The embodiment shown in FIG. 8 may provide the first identification information assigned to the wireless power transmission apparatus 100 to another device using the wireless power communication scheme. That is, the identification information management unit 120 may provide the first identification information assigned to the wireless power transmission apparatus 100 to the power transmission unit 110, and the power transmission unit 110 may transmit the identification information to the wireless power communication apparatus 100 The first identification information may be applied to the standard.

For example, the power transmission unit 110 may use the first identification information as a unique identifier of the wireless power communication standard. 9 is a reference diagram showing a configuration of a packet used for setting a protocol for wireless power transmission in a power transmitting apparatus, and this example will be described with further reference to Fig.

In FIG. 9, the Manufacturer Code may be a manufacturer code, and the Basic Device Identifier may be a unique identifier of the corresponding device. That is, since the unique identifier of the corresponding device, that is, the power transmitting apparatus 100, is required in the packet used for the wireless power transmission protocol, the packet assigned to the wireless power transmitting apparatus 100 1 identification information to the wireless power transmission apparatus 200. [

10 is a configuration diagram showing another embodiment of the wireless power transmission apparatus.

Referring to FIG. 10, the wireless power transmission apparatus 100 may further include a short range wireless communication unit 130.

The short-range wireless communication unit 130 may perform short-range wireless communication using a communication method such as NFC, Bluetooth, Wi-Fi, or Zigbee.

The short range wireless communication unit 130 may provide the first identification information of the wireless power transmission apparatus 100 provided in the identification information management unit 120 to an external device such as the wireless power receiving apparatus 200 or the mobile terminal 300 .

In one embodiment, the short-range wireless communication unit 130 may receive second identification information assigned to the mobile terminal 200. That is, the short-range wireless communication unit 130 receives the second identification information allocated to the mobile terminal 100 from the mobile terminal 100 or the wireless power receiving apparatus 200 and provides the second identification information to the identification information management unit 120 .

11 is a configuration diagram showing another embodiment of a wireless power transmission apparatus. One embodiment shown in FIG. 11 relates to an embodiment that performs certain authentication for wireless power provisioning.

Referring to FIG. 11, the wireless power transmission apparatus 100 may include a power transmission unit 110, an identification information management unit 120, and a charge control unit 140. According to an embodiment, the wireless power transmission apparatus 100 may further include a short range wireless communication unit 140.

The charging control unit 140 can authenticate the authority for wireless charging of the wireless power receiving apparatus 200. [

In one embodiment, the charge controller 140 may perform authentication using at least one of the carrier information, the terminal information, the user information, and the residual power information of the mobile terminal 300 connected to the wireless power receiving apparatus 200 .

For example, the charging control unit 140 can set the communication company information capable of wireless charging, and can verify the wireless charging state by checking the communication company information of the mobile terminal 300. For example, the charging controller 140 can determine whether the wireless power is provided by checking the remaining power of the mobile terminal.

The identification information managing unit 120 may transmit the first identification information of the wireless power transmitting apparatus 100 to the wireless power receiving apparatus 200 or To the mobile terminal (300). That is, the wireless power transmission apparatus 100 may provide a location-based service when authorization for wireless charging is recognized.

12 is a configuration diagram showing another embodiment of the wireless power transmission apparatus. The embodiment shown in FIG. 12 relates to an embodiment in which the wireless power transmission apparatus 100 can perform communication with the application server 400 using the communication unit 150.

12, the wireless power transmission apparatus 100 may include a power transmission unit 110, an identification information management unit 120, a charge control unit 140, a communication unit 150, and a service data management unit 160. Although not shown, according to an embodiment, the wireless power transmission apparatus 100 may further include a short-range wireless communication unit.

The communication unit 150 is connectable with the application server. The communication unit 150 may be connected to the application server using a wired or wireless network. The communication unit 150 may receive the information about the mobile terminal 300 or the location service data for providing the location based service from the application server 400. [

The charging control unit 140 can perform authentication in cooperation with the application server 400. [ For example, the charging control unit 140 may determine the right to charge the wireless receiving apparatus 200, the providing time, or the like by using the authentication information provided from the application server 400.

The service data management unit 160 may receive location service data associated with the area where the wireless power transmission apparatus 100 is located from the application server 400. [ The service data management unit 160 may provide the received location service data to the mobile terminal 300 using the near field wireless communication module or display it using a predetermined display means or the like. For this purpose, the wireless power transmission apparatus 100 may include a predetermined display means.

The identification information management unit 120 may obtain the second identification information for the mobile terminal and may provide the second identification information for the acquired mobile terminal to the application server. According to the embodiment, the identification information management unit 120 may provide the application server 400 with the second identification information for the mobile terminal together with the first identification information allocated to the wireless power transmission apparatus 100. [

Figs. 13 to 15 are diagrams related to various embodiments of a wireless power receiving apparatus. Fig.

13 is a configuration diagram showing an embodiment of a wireless power receiving apparatus.

The wireless power receiving apparatus 200 may include a power receiving unit 210 and an identification information transmitting unit 220.

The power receiving unit 210 may receive the wireless power provided by the wireless power transmitting apparatus 100. The power receiving unit 210 may be electrically connected to the mobile terminal 300 and may provide power to the mobile terminal 300 using the received radio power.

The identification information transmitting unit 220 may transmit the identification information between the wireless power transmitting apparatus 100 and the mobile terminal 300. [

In one embodiment, the identification information transferring unit 220 receives the first identification information allocated to the wireless power transmission apparatus from the wireless power transmission apparatus 100 and provides the first identification information to the mobile terminal 300 .

In one embodiment, the identification information transmitting unit 220 receives the second identification information allocated to the mobile terminal 300 from the mobile terminal 300 and provides the second identification information to the wireless power transmitting apparatus 100 can do.

14 is a configuration diagram showing another embodiment of the wireless power receiving apparatus. The embodiment of FIG. 14 relates to an embodiment for obtaining the first identification information of the wireless power transmission apparatus 100 using the wireless power reception scheme.

Referring to FIG. 13, the wireless power receiving apparatus 200 may provide wireless power according to a specific wireless power providing scheme, and the wireless power providing scheme may operate according to a predetermined sending and receiving protocol. 8, a unique identifier for identifying the wireless power transmission apparatus 100 may be used as the transmission / reception protocol for wireless power transmission, and the identification information transmission unit 220 may transmit the wireless power transmission As the first identification information, the unique identifier of the wireless power transmitting apparatus 100 for the wireless power transmitting apparatus 100. [

15 is a configuration diagram showing another embodiment of the wireless power receiving apparatus. In the embodiment of FIG. 15, the wireless power receiving apparatus 200 may further include a short range wireless communication unit 230.

The identification information transmitting unit 220 may receive the first identification information from the wireless power transmission apparatus 100 using the short range wireless communication unit 230. [ The identification information transmitting unit 220 may provide the received first identification information to the mobile terminal 300.

The identification information transmitting unit 220 can acquire the second identification information allocated to the mobile terminal from the mobile terminal 300 through the short range wireless communication unit 230 or using another communication means. The identification information transmitting unit 220 may provide the acquired second identification information to the wireless power transmitting apparatus 100. [

16 is a block diagram showing an embodiment of a circuit applicable to a wireless power transmission apparatus and a reception apparatus.

The wireless power transmission apparatus 100 may include a converter 101, a driver 102, a coil 103, and a controller 105. According to an embodiment, the wireless power transmission device 100 may further include a sensor 104 or a short range wireless communication module 106. [

The converter 101 can convert the power inputted from the outside. The converted voltage may be amplified by the driver 102 and applied to the coil 103. The coils 103 of the wireless power transmission apparatus 100 can provide wireless power in cooperation with the coils 201 of the wireless power receiving apparatus 200. [

The sensor 104 can sense the state of the coil 103. [ Controller 105 may adjust driver 102 to regulate the provision of wireless power.

The short-range wireless communication module 106 may interwork with the short-range wireless communication module 205 of the wireless power receiving apparatus 200 to wirelessly transmit and receive predetermined data.

The wireless power receiving apparatus 200 may include a coil 201, a rectifier 202, a converter 203, and a controller 104. According to an embodiment, the wireless power receiving apparatus 200 may further include a short range wireless communication module 106.

The coil 201 may receive the radio power provided from the coil 103 of the wireless power transmission apparatus 100. The received wireless power can be rectified by the rectifier 202, converted by the converter 203 and provided to the mobile terminal. The controller 104 may control these components.

7 to 15 may be implemented in units of circuits, each of which is incorporated or separated according to the embodiment. For example, the identification information management unit 120, the charge control unit 140, and the service data management unit 160 of the wireless power transmission apparatus 100 may be implemented as one integrated circuit corresponding to the controller 105. [ Or each may be implemented as a separate integrated circuit, or some of the functions may be implemented as software.

17-18 are diagrams of various embodiments of a mobile terminal.

17 is a configuration diagram showing an embodiment of a mobile terminal.

Referring to FIG. 17, the mobile terminal 300 may include a charging unit 310, a power storage unit 320, and a control unit 330.

The charging unit 310 may be connected to the wireless power receiving apparatus 200 to charge the power. The charging unit 310 may store the power provided from the wireless power receiving apparatus 200 in the power storage unit 320. [

The control unit 330 may obtain the first identification information allocated to the wireless power transmission apparatus 100 and may provide the application server 400 with the second identification information or the first identification information allocated to the mobile terminal. Here, as described above, the first identification information may be associated with the area information for the area where the wireless power transmission device is located.

The control unit 330 may receive location service data associated with the area where the mobile terminal 300 is located from the application server 400. [

18 is a configuration diagram showing another embodiment of the mobile terminal.

The embodiment shown in Fig. 18 relates to an embodiment for receiving location service data from a wireless power transmission apparatus 100. Fig.

Specifically, the control unit 330 may provide the wireless power transmission apparatus 100 with the identification information assigned to the mobile terminal 300. The wireless power transmission device 100 may provide such identification information to the application server 400 and may receive location service data associated with the area in which the mobile terminal is located. The control unit 300 can receive location service data from the wireless power transmission apparatus 100. [

Although not shown in FIGS. 17 and 18, the mobile terminal 300 can directly or indirectly communicate with the wireless power transmission apparatus 100 or the application server 400 using a short-range wireless communication module or a wireless communication module.

The above-described configuration for the mobile terminal may be implemented as an application executable in the mobile terminal.

In one embodiment, an application is an application that can be run on a mobile terminal, the method comprising: acquiring first identification information assigned to a wireless power transmission device that provides wireless power; managing second identification information assigned to the mobile terminal; And a function of providing the first identification information or the second identification information to the other device.

In one embodiment, the application may further perform the function of receiving and displaying location service data associated with the location of the mobile terminal.

19 is a configuration diagram showing an embodiment of an application server.

Referring to FIG. 19, the application server 400 may include a storage unit 410 and a location service provider 420. Although not shown, the application server 400 may include a communication unit connectable to the mobile terminal 300 or the wireless power transmission apparatus 100.

The storage unit 410 may store the first identification information allocated to the wireless power transmission apparatus and the location data associated with the area information for the area where the wireless power transmission apparatus is located.

In one embodiment, the storage 410 may store user information for a user of the mobile terminal. For example, the storage unit 410 may store identification information of a mobile terminal and user information on the identification information in association with each other.

The location service provider 420 may use the location data to determine the location of the mobile terminal receiving power from the wireless power transmission device.

In one embodiment, the location service provider 420 identifies the first identification information assigned to the wireless power transmission device and the second identification information assigned to the mobile terminal, and notifies the location where the wireless power transmission device is located to the mobile terminal It can be judged as a position.

In one embodiment, the location service provider 420 may provide location service data associated with the determined location of the mobile terminal to the mobile terminal or wireless power transmission device.

In one embodiment, location service provider 420 may identify the mobile terminal and determine service data using user information associated with the identified mobile terminal. For example, the user information may include user service use information, service preference information, communication company information, user class information, and the like. The location service provider 420 may use the user information to determine the type, , And whether or not to charge money.

Various embodiments of the location-based service system and various embodiments of the respective apparatuses constituting the location-based service system have been described above.

Hereinafter, a location-based service method performed between each device of the location-based service system will be described in detail.

20 to 23 are flowcharts illustrating various embodiments of an authentication method performed for providing wireless power.

20 shows an embodiment of an authentication method. As shown in the figure, the wireless power transmission apparatus 100 can receive authentication data from the wireless power receiving apparatus 200 (S110). Here, the authentication data may be an identifier assigned to the wireless power receiving apparatus 200, or authentication data provided to the wireless power receiving apparatus 200 at the mobile terminal. Alternatively, the authentication data may be separate authentication data such as a personal barcode stored in the mobile terminal.

The wireless power transmission apparatus 100 can authenticate the wireless charging authority using the authentication data (S120). The wireless charging authority may be a broad concept including, for example, whether the wireless charging object is a charging target, whether charging is performed during wireless charging, whether there is a predetermined restriction on wireless charging, and the like.

The wireless power transmission apparatus 100 may provide wireless power when the wireless power receiving apparatus 200 is properly authenticated (S210). The wireless power receiving apparatus 200 may provide power to the mobile terminal 300 using the received wireless power (S220).

21 and 22 show another embodiment of the authentication method. The authentication method shown in Figs. 21 and 22 relates to a method for performing authentication using the mobile terminal 300. [ However, the procedures (S210 to S220) after the authentication is performed may correspond to those described in Fig.

The wireless power transmission apparatus 100 may request authentication data to the mobile terminal 300 (S110). For this purpose, the wireless power transmission apparatus 100 can perform direct communication with the mobile terminal 300 using a short-range wireless communication scheme or the like.

The mobile terminal 300 may provide authentication data to the wireless power transmission device 100.

21, the mobile terminal 300 may provide authentication data to the wireless power receiving device 200 and the wireless power receiving device 200 may provide it to the wireless power transmitting device 100. For example, have. Here, the wireless power transmission apparatus 100 and the wireless power reception apparatus 200 can transmit and receive authentication data according to a predetermined wireless power protocol.

22, the mobile terminal 300 may provide authentication data to the wireless power transmission device 100. In this embodiment, For example, the mobile terminal 300 and the wireless power transmission apparatus 100 can perform direct communication using a short-range wireless communication scheme.

Fig. 23 shows another embodiment of the authentication method. The authentication method shown in FIG. 23 relates to a method of performing authentication using the application server 400. [ However, the procedures (S210 to S220) after the authentication is performed are the same as described above.

20 to 22, the wireless power transmission apparatus 100 can perform authentication for the mobile terminal 300 by itself using the authentication information. For example, the wireless power transmission apparatus 100 may include authentication means for verifying authentication information to perform authentication.

In one embodiment, the wireless power transmission device 100 may communicate with the application server 400 to perform authentication for the mobile terminal 300.

Specifically, the wireless power transmission apparatus 100 may request authentication data from the application server 400 (S110). The wireless power transmitting apparatus 100 can authenticate the mobile terminal 300 or the wireless power receiving apparatus 200 using the authentication data provided by the application server 400. [

As described above, the authentication data may include information on additional information, for example, whether the authentication is possible, the authentication time, and the like, in addition to the authentication capability, and the application server 400 transmits the additional information to the wireless power transmission device 100 to provide wireless power in a variety of embodiments.

24-26 are flowcharts illustrating various embodiments of a method for providing identification information for location data selection.

24, when the wireless charging authority is authenticated, the wireless power transmission apparatus 100 transmits the first identification (ID) assigned to the wireless power transmission apparatus 100 through the wireless power reception apparatus 200 and the mobile terminal 300 Information can be provided to the application server 400. However, it is apparent that the authentication step may be omitted according to the embodiment.

The communication method between the wireless power transmission apparatus 100 and the wireless power reception apparatus 200 or the communication method between the wireless power reception apparatus 200 and the mobile terminal 300 may be variously applied as described above. For example, various methods such as using a protocol for wireless power transmission or using a short-range wireless communication method can be applied.

The application server 400 may determine the location of the mobile terminal 300 using the first identification information of the power transmitting apparatus 100 (S340). That is, it is possible to confirm the position where the power transmitting apparatus 100 is installed by using the first identification information of the power transmitting apparatus 100, and to determine the confirmed position as the position of the mobile terminal 300.

The application server 400 may select and provide the location service data associated with the identified location to the mobile terminal 300 at step S361 or provide the location service data to the wireless power transmission device 100 at step S362.

According to an embodiment, the application server 400 may further use the user information of the mobile terminal 300 to select the location service data. That is, it is possible to determine the type, quality, and permission of the location service data according to the user's class or authority. For example, location service data may include coupons, free charge rights, and the like. Alternatively, location service data may be provided only if it meets certain conditions, such as viewing a provided advertisement.

25, the wireless power transmission device 100 may provide the mobile terminal 300 with first identification information of the wireless power transmission device 100 and the mobile terminal 300 may provide it to the application server 400 ). According to the embodiment, the mobile terminal 300 may provide the application server 400 with the second identification information assigned thereto.

In the embodiment of Fig. 26, the wireless power transmission apparatus 100 may directly provide the application server 400 with the first identification information of the wireless power transmission apparatus 100. [ According to the embodiment, the wireless power transmission apparatus 100 acquires the second identification information allocated to the mobile terminal 300 from the mobile terminal 300, and transmits the acquired second identification information and the first identification information together with the application server 300. [ (400).

27 is a flowchart showing an embodiment of a location service providing method that can be performed in an application server.

The application server 400 can confirm the first identification information allocated to the wireless power transmission apparatus (S2710).

The application server 400 can confirm the second identification information allocated to the mobile terminal (S2720).

The application server 400 may determine the location of the mobile terminal using the first identification information or the first and second identification information (S2730).

The application server 400 selects the location service data associated with the determined location of the mobile terminal (S2740), and provides the selected location service data to the mobile terminal or the wireless power transmission device (S2750).

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory and are not intended to limit the invention to the particular forms disclosed. It will be understood by those skilled 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.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings.
However, the embodiments of the present invention can be modified into various other forms, and the scope of the present invention is not limited to the embodiments described below. Further, the embodiments of the present invention are provided to more fully explain the present invention to those skilled in the art.
In the drawings referred to in the present invention, elements having substantially the same configuration and function will be denoted by the same reference numerals, and the shapes and sizes of the elements and the like in the drawings may be exaggerated for clarity.
1 is a block diagram illustrating a location-based service system according to an embodiment of the present invention.
1, a location based service system may include a wireless power transmission device 100, a wireless power receiving device 200, a mobile terminal 300, and an application server 400.
The wireless power transmission apparatus 100 can wirelessly provide power to the wireless power receiving apparatus 200. [
The position of the wireless power transmission apparatus 100 can be fixed. That is, since the wireless power receiving apparatus 200 and the mobile terminal 300 are movable, their positions can not be specified, but the position of the wireless power transmission apparatus 100 can be specified.
Information on the location of the wireless power transmission apparatus 100 may be managed in the application server 400 or the mobile terminal 300 or the like. Hereinafter, an example of managing information on the location of the wireless power transmission apparatus 100 in the application server 400 is described as a basis, but various application examples may exist.
The wireless power receiving apparatus 200 can charge the mobile terminal 300 using the wireless power provided by the wireless power transmitting apparatus 100. [
In the present invention, the wireless power transmission apparatus 100 and the wireless power reception apparatus 200 are not limited to a specific standard. For example, the wireless power transmission apparatus 100 and the wireless power reception apparatus 200 may operate according to a standard (for example, A4WP) in which the short range communication method is set upon wireless charging. For example, the wireless power transmission apparatus 100 and the wireless power reception apparatus 200 may operate according to a standard (e.g., WPC, PMA) in which a local communication scheme does not exist during wireless charging.
The mobile terminal 300 can receive power from the wireless power receiving apparatus 200.
The mobile terminal 300 can receive the location-based service from the application server 400.
The application server 400 may identify the location of the mobile terminal 300 by identifying the wireless power transmission device 100. That is, since the location of the wireless power transmission apparatus 100 can be specified, the application server 400 identifies the wireless power transmission apparatus 100 accessible by the mobile terminal 300, The location of the mobile terminal 300 can be determined.
The application server 400 may provide the mobile terminal 300 or the wireless power transmission apparatus 100 with location services related to the determined location of the mobile terminal 300. [ Or the application server 400 may identify the user of the mobile terminal 300 and provide the user-tailored service to the mobile terminal 300 or the wireless power transmission device 100.
In the following, various embodiments of a location based service system will be described with reference to various drawings. Duplicate or corresponding contents of the various application examples described below are not repeatedly described.
2 is a block diagram illustrating one embodiment of a location based service system.
The wireless power transmission apparatus 100 can wirelessly provide power to the wireless power receiving apparatus 200. [ According to an embodiment, the wireless power transmission apparatus 100 can provide wireless power after authenticating the wireless power receiving apparatus 200 or the mobile terminal 300. [
The wireless power receiving apparatus 200 can receive the wireless power provided by the wireless power transmitting apparatus 100 and use it to charge the mobile terminal 300. [ For example, the wireless power receiving device 200 may be a part of the mobile terminal 300, or it may be a separate device that can be coupled with the mobile terminal 300. [
The mobile terminal 300 can receive power from the wireless power receiving apparatus 200.
The application server 400 may identify the location of the mobile terminal 300 by identifying the wireless power transmission device 100 and may provide location based services using the identified location. The application server 400 may provide location service data to the mobile terminal 300 or to the wireless power transmission device 100, according to an embodiment.
In one embodiment, the application server 400 may provide the customized service data using the user information of the mobile terminal 300. The application server 400 may provide the customized service data to the mobile terminal 300 or to the wireless power transmission device 100.
Here, the location-based service provided by the application server 400 is not particularly limited. For example, the application server 400 may provide advertisements, coupons, and the like associated with the location of the mobile terminal 300 as location based services. As another example, the application server 400 may provide as a location-based service providing discounted or free use of the wireless power transmission device 100 associated with the location.
In addition, the location-based service may include location-independent service data. That is, the user-customized service data may not be related to the user's location, but the user-customized service data may be included in the location service data. Therefore, in the present invention, the location service data may include location-based service data as well as user-customized service data.
Hereinafter, various application examples of the location-based service system according to an embodiment of the present invention will be described with reference to FIG. 3 to FIG.
3 is a block diagram illustrating another embodiment of a location based service system.
The embodiment shown in FIG. 3 relates to an embodiment in which the wireless power transmission apparatus 100 does not have a separate communication network connectable to the external Internet, and does not have a local communication means connectable to the mobile terminal 300 .
In one embodiment, the wireless power transmission device 100 may perform authentication for wireless power charging. For example, if the wireless power receiving device 200 is located in a rechargeable state, e.g., a chargeable distance, with the wireless power transmitting device 100, the wireless power transmitting device 100 may be a wireless power receiving device 200, And can perform authentication for wireless power charging with the terminal 300.
In one embodiment, for authentication, the mobile terminal 300 may provide authentication information of the mobile terminal 300 to the wireless power receiving device 200. For example, if an application for wireless charging is installed in the mobile terminal 300, the application may store the authentication information of the mobile terminal 300 in the memory of the wireless power receiving apparatus 200. The wireless power receiving apparatus 200 may transmit the authentication information of the stored mobile terminal 300 to the wireless power transmitting apparatus 100. [ The wireless power transmission apparatus 100 can authenticate the mobile terminal 300 using the authentication information of the mobile terminal 300 and provide wireless power to the wireless power receiving apparatus 200 when normally authenticated.
In one embodiment, the authentication information of the mobile terminal may include identification information of a wireless communication service provider to which the mobile terminal is subscribed, and the wireless power receiving apparatus 200 may transmit identification information of the mobile terminal 300 ) Of the wireless charging.
In another embodiment, the wireless power receiving apparatus 200 may store authentication information, and the wireless power transmitting apparatus 100 may wirelessly transmit the wireless data to the mobile terminal 300 using the authentication information of the wireless power receiving apparatus 200. [ Authorization of charging can be authorized. For example, the authentication information of the wireless power receiving apparatus 200 may include identification information of a wireless communication service provider to which the mobile terminal has subscribed, and the wireless power receiving apparatus 200 may use wireless network identification information It is possible to judge whether or not electric power is provided.
The wireless power transmission apparatus 100 may provide wireless power to the wireless power receiving apparatus 200 and may provide the wireless power receiving apparatus 200 with the first identification information assigned thereto.
The first identification information of the wireless power transmission apparatus 100 can be used to confirm the position of the wireless power transmission apparatus 100, as described above. In addition, the position of the power transmitting apparatus 100 thus identified can be determined as the position of the mobile terminal 400. [
The wireless power receiving apparatus 200 may provide the first identification information of the wireless power transmission apparatus to the mobile terminal 300 and the mobile terminal 300 may transmit the first identification information of the wireless power transmission apparatus 100 to the application server 300. [ (400).
The application server 400 may use the identification information of the wireless power transmission device 100 to identify the location of the mobile terminal 300 and to provide location service data associated with the identified location to the mobile terminal 300. For example, the application server 400 may provide downloadable content, such as coupons, non-billing authentication information, advertisements, etc., associated with the identified location.
In one embodiment, the mobile terminal 300 may provide the second identification information assigned to it to the application server 400 along with the first identification information. For example, the second identification information may include IMEI, SIM code, telephone number, and the like.
The second identification information assigned to the mobile terminal 300 may be used to determine a customized service. That is, the application server 400 determines the location of the mobile terminal 300 using the first identification information, and determines whether the location service is provided to the mobile terminal 300, the service level, Type and the like can be determined.
In one embodiment, the mobile terminal 300 may provide the information to the application server 400 upon successful completion of wireless power charging. The application server 400 may change or terminate the provision of the service data according to the completion of wireless power charging.
4 is a reference diagram showing another embodiment of a location-based service system.
The embodiment shown in FIG. 4 relates to an embodiment in which the wireless power transmission apparatus 100 is provided with short-range wireless communication means and is capable of direct short-distance communication with the mobile terminal 300.
Referring to FIG. 4, the wireless power transmission apparatus 100 and the mobile terminal 300 can communicate with each other using a short-range wireless communication module (for example, Bluetooth). The wireless power transmission apparatus 100 may provide the mobile terminal 300 with the first identification information assigned thereto by using short-distance wireless communication.
The mobile terminal 300 may provide the first identification information to the application server 400. [
The identification information of the wireless power transmission apparatus 100 is used as positional information as described above. That is, the application server 400 confirms the location of the wireless power transmission apparatus 100 using the first identification information, determines the confirmed location as the location of the mobile terminal 300, and transmits the location service data To the mobile terminal (300) or the wireless power transmission device (100).
In one embodiment, the wireless power transmission device 100 may perform authentication for wireless power charging using the wireless power receiving device 200 or the mobile terminal 300, and when authentication is successful, (100) may provide wireless power to the wireless power receiving device (200). This authentication corresponds to the above description with reference to FIG. 3 and thus is not described redundantly.
5 is a reference diagram showing another embodiment of a location-based service system.
Another embodiment shown in FIG. 5 relates to an embodiment in which the wireless power transmission apparatus 100 is provided with wireless communication means capable of being connected to an external Internet, so that direct communication with the application server 400 is possible.
Referring to FIG. 5, the wireless power transmission apparatus 100 may provide wireless power to the wireless power receiving apparatus 200. According to an embodiment, the wireless power transmission apparatus 100 may perform authentication for wireless power charging.
The wireless power transmission apparatus 100 can provide its first identification information to the application server 400 using the wireless communication network.
According to an embodiment, the wireless power transmission device 100 may provide the application server 400 with the second identification information assigned to the mobile terminal 300 along with its first identification information.
The application server 400 identifies the location of the mobile terminal 300 using the first identification information of the wireless power transmission apparatus 100 and transmits the location-based service using the identified location to the mobile terminal 300 or the wireless power transmission To the device (100).
According to an embodiment, the application server 400 may provide location service data to the wireless power transmission device 100 or the mobile terminal 300.
In one embodiment, the application server 400 may receive the first identification information assigned to the wireless power transmission device 100 from the wireless power transmission device 100 and determine the location service data using the first identification information have. The application server 400 may provide the determined location service data to the wireless power transmission apparatus 100. In this embodiment, the location service may be provided without the second identification information assigned to the mobile terminal 300.
In another embodiment, the application server 400 receives the first identification information assigned to the wireless power transmission apparatus 100 from the wireless power transmission apparatus 100 and the second identification information assigned to the mobile terminal 300 can do. The application server 400 can identify the location using the first identification information, and further determine the location service data using the second identification information. The application server 400 may provide the determined location service data to the mobile terminal 300 or the wireless power transmission apparatus 100.
6 is a reference diagram showing another embodiment of a location-based service system.
6, the wireless power transmission apparatus 100 includes both a wireless communication unit and a short-range communication unit that can be connected to an external Internet, and includes an application server 400 and a mobile terminal 300 To an embodiment capable of direct direct communication.
Referring to FIG. 6, the wireless power transmission apparatus 100 may provide wireless power to the wireless power receiving apparatus 200. [ According to an embodiment, the wireless power transmission apparatus 100 may perform authentication for wireless power charging.
The wireless power transmission apparatus 100 can acquire second identification information assigned to the mobile terminal 300 directly from the mobile terminal 300 using short-distance wireless communication.
The wireless power transmission apparatus 100 can provide the first identification information and the second identification information assigned to the wireless power transmission apparatus 100 to the application server 400. [
The application server 400 may determine the location service data using the first identification information and the second identification information and provide the determined location service data to the wireless power transmission apparatus 100 or the mobile terminal 300. [
2 to 6, various embodiments of the location-based service system that provides the location service using the identification information allocated to the wireless power transmission apparatus 100 have been described.
2 to 6, embodiments using the first identification information assigned to the wireless power transmission apparatus 100 or the second identification information assigned to the mobile terminal 300 are described.
Further, it is apparent that the third identification information allocated to the wireless power receiving apparatus 200 may further be used in the above-described various embodiments. That is, it is possible to perform authentication using the third identification information assigned to the wireless power receiving apparatus 200, mutual authentication, or the like.
For example, the wireless power transmission apparatus 100 provides the first identification information and the third identification information to the application server 400, and the mobile terminal 300 transmits the second identification information and the third identification information to the application server 400 400). The application server 400 can identify the wireless power transmission apparatus 100 associated with the mobile terminal 300 using the third identification information. In addition, the application server 400 may determine the location of the mobile terminal 300 using the first identification information. Alternatively, the application server 400 may authenticate the mobile terminal 300 using the second identification information, or may verify the user-customized information of the mobile terminal 300.
Hereinafter, various embodiments of the respective devices will be described with reference to Figs. 7 to 19. Fig.
Figures 7-12 are diagrams of various embodiments of a wireless power transmission device.
7 is a configuration diagram showing an embodiment of a wireless power transmission apparatus.
Referring to FIG. 7, the wireless power transmission apparatus 100 may include a power transmission unit 110 and an identification information management unit 120.
The power transmitting unit 110 may provide wireless power to the wireless power receiving apparatus 200.
The identification information management unit 120 may provide the first identification information assigned to the wireless power transmission apparatus 100 to other devices. According to the embodiment, the identification information management unit 120 can directly or indirectly provide the first identification information to the wireless power transmission apparatus 200, the mobile terminal 300, or the application server 400. [
Here, the first identification information may be associated with the area information for the area where the wireless power transmission apparatus 100 is located. For example, the application server 400 may store first identification information and location information of the wireless power transmission apparatus 100 in association with each other. This is because the wireless power transmission apparatus 100 can be fixed in a specific area, so that the wireless power transmission apparatus 100 can be used to confirm the location of the mobile terminal 300 using the location information of the wireless power transmission apparatus 100.
8 is a configuration diagram showing another embodiment of the wireless power transmission apparatus.
The embodiment shown in FIG. 8 may provide the first identification information assigned to the wireless power transmission apparatus 100 to another device using the wireless power communication scheme. That is, the identification information management unit 120 may provide the first identification information assigned to the wireless power transmission apparatus 100 to the power transmission unit 110, and the power transmission unit 110 may transmit the identification information to the wireless power communication apparatus 100 The first identification information may be applied to the standard.
For example, the power transmission unit 110 may use the first identification information as a unique identifier of the wireless power communication standard. 9 is a reference diagram showing a configuration of a packet used for setting a protocol for wireless power transmission in a power transmitting apparatus, and this example will be described with further reference to Fig.
In FIG. 9, the Manufacturer Code may be a manufacturer code, and the Basic Device Identifier may be a unique identifier of the corresponding device. That is, since the unique identifier of the corresponding device, that is, the power transmitting apparatus 100, is required in the packet used for the wireless power transmission protocol, the packet assigned to the wireless power transmitting apparatus 100 1 identification information to the wireless power transmission apparatus 200. [
10 is a configuration diagram showing another embodiment of the wireless power transmission apparatus.
Referring to FIG. 10, the wireless power transmission apparatus 100 may further include a short range wireless communication unit 130.
The short-range wireless communication unit 130 may perform short-range wireless communication using a communication method such as NFC, Bluetooth, Wi-Fi, or Zigbee.
The short range wireless communication unit 130 may provide the first identification information of the wireless power transmission apparatus 100 provided in the identification information management unit 120 to an external device such as the wireless power receiving apparatus 200 or the mobile terminal 300 .
In one embodiment, the short-range wireless communication unit 130 may receive second identification information assigned to the mobile terminal 200. That is, the short-range wireless communication unit 130 receives the second identification information allocated to the mobile terminal 100 from the mobile terminal 100 or the wireless power receiving apparatus 200 and provides the second identification information to the identification information management unit 120 .
11 is a configuration diagram showing another embodiment of a wireless power transmission apparatus. One embodiment shown in FIG. 11 relates to an embodiment that performs certain authentication for wireless power provisioning.
Referring to FIG. 11, the wireless power transmission apparatus 100 may include a power transmission unit 110, an identification information management unit 120, and a charge control unit 140. According to an embodiment, the wireless power transmission apparatus 100 may further include a short range wireless communication unit 140.
The charging control unit 140 can authenticate the authority for wireless charging of the wireless power receiving apparatus 200. [
In one embodiment, the charge controller 140 may perform authentication using at least one of the carrier information, the terminal information, the user information, and the residual power information of the mobile terminal 300 connected to the wireless power receiving apparatus 200 .
For example, the charging control unit 140 can set the communication company information capable of wireless charging, and can verify the wireless charging state by checking the communication company information of the mobile terminal 300. For example, the charging controller 140 can determine whether the wireless power is provided by checking the remaining power of the mobile terminal.
The identification information managing unit 120 may transmit the first identification information of the wireless power transmitting apparatus 100 to the wireless power receiving apparatus 200 or To the mobile terminal (300). That is, the wireless power transmission apparatus 100 may provide a location-based service when authorization for wireless charging is recognized.
12 is a configuration diagram showing another embodiment of the wireless power transmission apparatus. The embodiment shown in FIG. 12 relates to an embodiment in which the wireless power transmission apparatus 100 can perform communication with the application server 400 using the communication unit 150.
12, the wireless power transmission apparatus 100 may include a power transmission unit 110, an identification information management unit 120, a charge control unit 140, a communication unit 150, and a service data management unit 160. Although not shown, according to an embodiment, the wireless power transmission apparatus 100 may further include a short-range wireless communication unit.
The communication unit 150 is connectable with the application server. The communication unit 150 may be connected to the application server using a wired or wireless network. The communication unit 150 may receive the information about the mobile terminal 300 or the location service data for providing the location based service from the application server 400. [
The charging control unit 140 can perform authentication in cooperation with the application server 400. [ For example, the charging control unit 140 may determine the right to charge the wireless receiving apparatus 200, the providing time, or the like by using the authentication information provided from the application server 400.
The service data management unit 160 may receive location service data associated with the area where the wireless power transmission apparatus 100 is located from the application server 400. [ The service data management unit 160 may provide the received location service data to the mobile terminal 300 using the near field wireless communication module or display it using a predetermined display means or the like. For this purpose, the wireless power transmission apparatus 100 may include a predetermined display means.
The identification information management unit 120 may obtain the second identification information for the mobile terminal and may provide the second identification information for the acquired mobile terminal to the application server. According to the embodiment, the identification information management unit 120 may provide the application server 400 with the second identification information for the mobile terminal together with the first identification information allocated to the wireless power transmission apparatus 100. [
Figs. 13 to 15 are diagrams related to various embodiments of a wireless power receiving apparatus. Fig.
13 is a configuration diagram showing an embodiment of a wireless power receiving apparatus.
The wireless power receiving apparatus 200 may include a power receiving unit 210 and an identification information transmitting unit 220.
The power receiving unit 210 may receive the wireless power provided by the wireless power transmitting apparatus 100. The power receiving unit 210 may be electrically connected to the mobile terminal 300 and may provide power to the mobile terminal 300 using the received radio power.
The identification information transmitting unit 220 may transmit the identification information between the wireless power transmitting apparatus 100 and the mobile terminal 300. [
In one embodiment, the identification information transferring unit 220 receives the first identification information allocated to the wireless power transmission apparatus from the wireless power transmission apparatus 100 and provides the first identification information to the mobile terminal 300 .
In one embodiment, the identification information transmitting unit 220 receives the second identification information allocated to the mobile terminal 300 from the mobile terminal 300 and provides the second identification information to the wireless power transmitting apparatus 100 can do.
14 is a configuration diagram showing another embodiment of the wireless power receiving apparatus. The embodiment of FIG. 14 relates to an embodiment for obtaining the first identification information of the wireless power transmission apparatus 100 using the wireless power reception scheme.
Referring to FIG. 13, the wireless power receiving apparatus 200 may provide wireless power according to a specific wireless power providing scheme, and the wireless power providing scheme may operate according to a predetermined sending and receiving protocol. 8, a unique identifier for identifying the wireless power transmission apparatus 100 may be used as the transmission / reception protocol for wireless power transmission, and the identification information transmission unit 220 may transmit the wireless power transmission As the first identification information, the unique identifier of the wireless power transmitting apparatus 100 for the wireless power transmitting apparatus 100. [
15 is a configuration diagram showing another embodiment of the wireless power receiving apparatus. In the embodiment of FIG. 15, the wireless power receiving apparatus 200 may further include a short range wireless communication unit 230.
The identification information transmitting unit 220 may receive the first identification information from the wireless power transmission apparatus 100 using the short range wireless communication unit 230. [ The identification information transmitting unit 220 may provide the received first identification information to the mobile terminal 300.
The identification information transmitting unit 220 can acquire the second identification information allocated to the mobile terminal from the mobile terminal 300 through the short range wireless communication unit 230 or using another communication means. The identification information transmitting unit 220 may provide the acquired second identification information to the wireless power transmitting apparatus 100. [
16 is a block diagram showing an embodiment of a circuit applicable to a wireless power transmission apparatus and a reception apparatus.
The wireless power transmission apparatus 100 may include a converter 101, a driver 102, a coil 103, and a controller 105. According to an embodiment, the wireless power transmission device 100 may further include a sensor 104 or a short range wireless communication module 106. [
The converter 101 can convert the power inputted from the outside. The converted voltage may be amplified by the driver 102 and applied to the coil 103. The coils 103 of the wireless power transmission apparatus 100 can provide wireless power in cooperation with the coils 201 of the wireless power receiving apparatus 200. [
The sensor 104 can sense the state of the coil 103. [ Controller 105 may adjust driver 102 to regulate the provision of wireless power.
The short-range wireless communication module 106 may interwork with the short-range wireless communication module 205 of the wireless power receiving apparatus 200 to wirelessly transmit and receive predetermined data.
The wireless power receiving apparatus 200 may include a coil 201, a rectifier 202, a converter 203, and a controller 104. According to an embodiment, the wireless power receiving apparatus 200 may further include a short range wireless communication module 106.
The coil 201 may receive the radio power provided from the coil 103 of the wireless power transmission apparatus 100. The received wireless power can be rectified by the rectifier 202, converted by the converter 203 and provided to the mobile terminal. The controller 104 may control these components.
7 to 15 may be implemented in units of circuits, each of which is incorporated or separated according to the embodiment. For example, the identification information management unit 120, the charge control unit 140, and the service data management unit 160 of the wireless power transmission apparatus 100 may be implemented as one integrated circuit corresponding to the controller 105. [ Or each may be implemented as a separate integrated circuit, or some of the functions may be implemented as software.
17-18 are diagrams of various embodiments of a mobile terminal.
17 is a configuration diagram showing an embodiment of a mobile terminal.
Referring to FIG. 17, the mobile terminal 300 may include a charging unit 310, a power storage unit 320, and a control unit 330.
The charging unit 310 may be connected to the wireless power receiving apparatus 200 to charge the power. The charging unit 310 may store the power provided from the wireless power receiving apparatus 200 in the power storage unit 320. [
The control unit 330 may obtain the first identification information allocated to the wireless power transmission apparatus 100 and may provide the application server 400 with the second identification information or the first identification information allocated to the mobile terminal. Here, as described above, the first identification information may be associated with the area information for the area where the wireless power transmission device is located.
The control unit 330 may receive location service data associated with the area where the mobile terminal 300 is located from the application server 400. [
18 is a configuration diagram showing another embodiment of the mobile terminal.
The embodiment shown in Fig. 18 relates to an embodiment for receiving location service data from a wireless power transmission apparatus 100. Fig.
Specifically, the control unit 330 may provide the wireless power transmission apparatus 100 with the identification information assigned to the mobile terminal 300. The wireless power transmission device 100 may provide such identification information to the application server 400 and may receive location service data associated with the area in which the mobile terminal is located. The control unit 300 can receive location service data from the wireless power transmission apparatus 100. [
Although not shown in FIGS. 17 and 18, the mobile terminal 300 can directly or indirectly communicate with the wireless power transmission apparatus 100 or the application server 400 using a short-range wireless communication module or a wireless communication module.
The above-described configuration for the mobile terminal may be implemented as an application executable in the mobile terminal.
In one embodiment, an application is an application that can be run on a mobile terminal, the method comprising: acquiring first identification information assigned to a wireless power transmission device that provides wireless power; managing second identification information assigned to the mobile terminal; And a function of providing the first identification information or the second identification information to the other device.
In one embodiment, the application may further perform the function of receiving and displaying location service data associated with the location of the mobile terminal.
19 is a configuration diagram showing an embodiment of an application server.
Referring to FIG. 19, the application server 400 may include a storage unit 410 and a location service provider 420. Although not shown, the application server 400 may include a communication unit connectable to the mobile terminal 300 or the wireless power transmission apparatus 100.
The storage unit 410 may store the first identification information allocated to the wireless power transmission apparatus and the location data associated with the area information for the area where the wireless power transmission apparatus is located.
In one embodiment, the storage 410 may store user information for a user of the mobile terminal. For example, the storage unit 410 may store identification information of a mobile terminal and user information on the identification information in association with each other.
The location service provider 420 may use the location data to determine the location of the mobile terminal receiving power from the wireless power transmission device.
In one embodiment, the location service provider 420 identifies the first identification information assigned to the wireless power transmission device and the second identification information assigned to the mobile terminal, and notifies the location where the wireless power transmission device is located to the mobile terminal It can be judged as a position.
In one embodiment, the location service provider 420 may provide location service data associated with the determined location of the mobile terminal to the mobile terminal or wireless power transmission device.
In one embodiment, location service provider 420 may identify the mobile terminal and determine service data using user information associated with the identified mobile terminal. For example, the user information may include user service use information, service preference information, communication company information, user class information, and the like. The location service provider 420 may use the user information to determine the type, , And whether or not to charge money.
Various embodiments of the location-based service system and various embodiments of the respective apparatuses constituting the location-based service system have been described above.
Hereinafter, a location-based service method performed between each device of the location-based service system will be described in detail.
20 to 23 are flowcharts illustrating various embodiments of an authentication method performed for providing wireless power.
20 shows an embodiment of an authentication method. As shown in the figure, the wireless power transmission apparatus 100 can receive authentication data from the wireless power receiving apparatus 200 (S110). Here, the authentication data may be an identifier assigned to the wireless power receiving apparatus 200, or authentication data provided to the wireless power receiving apparatus 200 at the mobile terminal. Alternatively, the authentication data may be separate authentication data such as a personal barcode stored in the mobile terminal.
The wireless power transmission apparatus 100 can authenticate the wireless charging authority using the authentication data (S120). The wireless charging authority may be a broad concept including, for example, whether the wireless charging object is a charging target, whether charging is performed during wireless charging, whether there is a predetermined restriction on wireless charging, and the like.
The wireless power transmission apparatus 100 may provide wireless power when the wireless power receiving apparatus 200 is properly authenticated (S210). The wireless power receiving apparatus 200 may provide power to the mobile terminal 300 using the received wireless power (S220).
21 and 22 show another embodiment of the authentication method. The authentication method shown in Figs. 21 and 22 relates to a method for performing authentication using the mobile terminal 300. [ However, the procedures (S210 to S220) after the authentication is performed may correspond to those described in Fig.
The wireless power transmission apparatus 100 may request authentication data to the mobile terminal 300 (S110). For this purpose, the wireless power transmission apparatus 100 can perform direct communication with the mobile terminal 300 using a short-range wireless communication scheme or the like.
The mobile terminal 300 may provide authentication data to the wireless power transmission device 100.
21, the mobile terminal 300 may provide authentication data to the wireless power receiving device 200 and the wireless power receiving device 200 may provide it to the wireless power transmitting device 100. For example, have. Here, the wireless power transmission apparatus 100 and the wireless power reception apparatus 200 can transmit and receive authentication data according to a predetermined wireless power protocol.
22, the mobile terminal 300 may provide authentication data to the wireless power transmission device 100. In this embodiment, For example, the mobile terminal 300 and the wireless power transmission apparatus 100 can perform direct communication using a short-range wireless communication scheme.
Fig. 23 shows another embodiment of the authentication method. The authentication method shown in FIG. 23 relates to a method of performing authentication using the application server 400. [ However, the procedures (S210 to S220) after the authentication is performed are the same as described above.
20 to 22, the wireless power transmission apparatus 100 can perform authentication for the mobile terminal 300 by itself using the authentication information. For example, the wireless power transmission apparatus 100 may include authentication means for verifying authentication information to perform authentication.
In one embodiment, the wireless power transmission device 100 may communicate with the application server 400 to perform authentication for the mobile terminal 300.
Specifically, the wireless power transmission apparatus 100 may request authentication data from the application server 400 (S110). The wireless power transmitting apparatus 100 can authenticate the mobile terminal 300 or the wireless power receiving apparatus 200 using the authentication data provided by the application server 400. [
As described above, the authentication data may include information on additional information, for example, whether the authentication is possible, the authentication time, and the like, in addition to the authentication capability, and the application server 400 transmits the additional information to the wireless power transmission device 100 to provide wireless power in a variety of embodiments.
24-26 are flowcharts illustrating various embodiments of a method for providing identification information for location data selection.
24, when the wireless charging authority is authenticated, the wireless power transmission apparatus 100 transmits the first identification (ID) assigned to the wireless power transmission apparatus 100 through the wireless power reception apparatus 200 and the mobile terminal 300 Information can be provided to the application server 400. However, it is apparent that the authentication step may be omitted according to the embodiment.
The communication method between the wireless power transmission apparatus 100 and the wireless power reception apparatus 200 or the communication method between the wireless power reception apparatus 200 and the mobile terminal 300 may be variously applied as described above. For example, various methods such as using a protocol for wireless power transmission or using a short-range wireless communication method can be applied.
The application server 400 may determine the location of the mobile terminal 300 using the first identification information of the power transmitting apparatus 100 (S340). That is, it is possible to confirm the position where the power transmitting apparatus 100 is installed by using the first identification information of the power transmitting apparatus 100, and to determine the confirmed position as the position of the mobile terminal 300.
The application server 400 may select and provide the location service data associated with the identified location to the mobile terminal 300 at step S361 or provide the location service data to the wireless power transmission device 100 at step S362.
According to an embodiment, the application server 400 may further use the user information of the mobile terminal 300 to select the location service data. That is, it is possible to determine the type, quality, and permission of the location service data according to the user's class or authority. For example, location service data may include coupons, free charge rights, and the like. Alternatively, location service data may be provided only if it meets certain conditions, such as viewing a provided advertisement.
25, the wireless power transmission device 100 may provide the mobile terminal 300 with first identification information of the wireless power transmission device 100 and the mobile terminal 300 may provide it to the application server 400 ). According to the embodiment, the mobile terminal 300 may provide the application server 400 with the second identification information assigned thereto.
In the embodiment of Fig. 26, the wireless power transmission apparatus 100 may directly provide the application server 400 with the first identification information of the wireless power transmission apparatus 100. [ According to the embodiment, the wireless power transmission apparatus 100 acquires the second identification information allocated to the mobile terminal 300 from the mobile terminal 300, and transmits the acquired second identification information and the first identification information together with the application server 300. [ (400).
27 is a flowchart showing an embodiment of a location service providing method that can be performed in an application server.
The application server 400 can confirm the first identification information allocated to the wireless power transmission apparatus (S2710).
The application server 400 can confirm the second identification information allocated to the mobile terminal (S2720).
The application server 400 may determine the location of the mobile terminal using the first identification information or the first and second identification information (S2730).
The application server 400 selects the location service data associated with the determined location of the mobile terminal (S2740), and provides the selected location service data to the mobile terminal or the wireless power transmission device (S2750).
It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory and are not intended to limit the invention to the particular forms disclosed. It will be understood by those skilled 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.

Claims (22)

A power transmitter for providing wireless power to the wireless power receiver; And
An identification information management unit for providing the first device with the first identification information assigned to the wireless power transmission device; And a wireless power transmitter.
2. The method according to claim 1, wherein the first identification information
Wherein the wireless power transmission device is associated with local information for an area in which the wireless power transmission device is located.
2. The wireless power transmission device according to claim 1,
A charging control unit for authenticating an authority for wireless charging of the wireless power receiving apparatus; And a wireless power transmitter.
4. The apparatus of claim 3, wherein the identification information management unit
And provides the first identification information to the wireless power receiving apparatus when the authority for wireless charging of the wireless power receiving apparatus is authenticated.
4. The apparatus of claim 3, wherein the charge controller
And performs authentication using at least one of information on a communication terminal, terminal information, user information, and remaining power information for a mobile terminal connected to the wireless power receiving apparatus.
4. The apparatus of claim 3, wherein the charge controller
And determines authorization or providing time of wireless charging for the power receiving apparatus using authentication information provided from an application server provided with the first identification information.
2. The wireless power transmission device according to claim 1,
A communication unit connectable with the application server; And
A service data management unit for receiving location service data associated with an area in which the wireless power transmission apparatus is located from the application server; The wireless power transmission device further comprising:
2. The wireless power transmission device according to claim 1,
And a short range wireless communication unit capable of wirelessly connecting with the mobile terminal equipped with the wireless power receiving apparatus,
Wherein the identification information management unit obtains second identification information allocated to the mobile terminal using the short range wireless communication unit and provides the first identification information and the first identification information to the application server.
1. A wireless power receiving apparatus connectable to a mobile terminal,
A power receiver for receiving wireless power provided from a wireless power transmission device; And
An identification information delivery unit receiving first identification information allocated to the wireless power transmission apparatus from the wireless power transmission apparatus and providing the first identification information to the mobile terminal; And the wireless power receiving device.
10. The information processing apparatus according to claim 9,
And uses the identifier of the wireless power transmission apparatus used in the wireless power transmission / reception protocol as the first identification information.
10. The wireless communication system according to claim 9, wherein the wireless power receiving apparatus
And a short range wireless communication unit,
The identification information transfer part
And receives the first identification information from the wireless power transmission apparatus using the short-range wireless communication unit.
10. The information processing apparatus according to claim 9,
Acquires second identification information allocated to the mobile terminal, and provides the second identification information to the wireless power transmission apparatus.
A charging unit connected to the wireless power receiving apparatus to charge electric power; And
A control unit for acquiring first identification information allocated to the wireless power transmission apparatus and providing second identification information or the first identification information assigned to the mobile terminal to the application server; The mobile terminal comprising:
14. The method according to claim 13, wherein the first identification information
Wherein the wireless power transmission device is associated with local information for the area in which the wireless power transmission device is located.
14. The apparatus of claim 13, wherein the control unit
And receiving location service data associated with an area in which the mobile terminal is located from the application server.
A charging unit connected to the wireless power receiving apparatus to charge electric power; And
A control unit for providing first identification information assigned to a mobile terminal to the wireless power transmission apparatus and for receiving location service data associated with an area in which the mobile terminal is located from the wireless power transmission apparatus; The mobile terminal comprising:
A storage unit for storing first identification information allocated to the wireless power transmission apparatus and location data relating to the area information for the area where the wireless power transmission apparatus is located; And
A location service provider for determining a location of a mobile terminal receiving power from the wireless power transmission apparatus using the location data; / RTI >
18. The system of claim 17, wherein the location service provider
And determines an area where the wireless power transmission apparatus is located as the position of the mobile terminal by checking the first identification information and the second identification information allocated to the mobile terminal.
18. The system of claim 17, wherein the location service provider
And provides location service data related to the determined location of the mobile terminal to the mobile terminal or the wireless power transmission device.
As an application running on a mobile terminal,
Acquiring first identification information assigned to a wireless power transmission device that provides wireless power;
Managing second identification information assigned to the mobile terminal; And
Providing the first identification information or the second identification information to another device; Lt; / RTI >
21. The system of claim 20,
Receiving and displaying location service data related to the location of the mobile terminal; To run more applications.
A wireless power transmission device for providing wireless power to a wireless power receiving device;
A mobile terminal receiving power from the wireless power receiving device; And
An application server for verifying the location of the wireless power transmission device, determining the location of the wireless power transmission device as a location of the mobile terminal and providing location based service data; Based service system.

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