JP2014207758A - Server device, processing method thereof, information system, and processing method thereof - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a server device, a processing method thereof, an information system, and a processing method thereof which can identify a position of a power receiver with high accuracy and output information to an output device corresponding to the identified position.SOLUTION: A server device has: a receiving section (S 813) which receives transmission power of a power transmitter when power is transmitted wirelessly from the power transmitter to a power receiver and receives reception power of the power receiver through a network; and transmitting sections (S 814-S 816) which identify the position of the power receiver to the power transmitter on the basis of the received transmission power and received power and transmit information to an output device corresponding to the position of the identified power receiver, through the network.

Description

  The present invention relates to a server device, a processing method thereof, an information system, and a processing method thereof.

  An advertisement distribution device that distributes advertisement information to be displayed on a display device installed in an arbitrary place is known (for example, see Patent Document 1). The advertisement information storage means stores a plurality of advertisement information, and stores viewer preference information in association with each of the advertisement information. The preference information storage means stores the preference information of the viewer in association with the portable information terminal carried by the viewer. The detection means detects a portable information terminal present in an arbitrary area around the display device installed at an arbitrary location. The information acquisition unit acquires the preference information corresponding to the detected portable information terminal from the preference information storage unit. The selection means selects advertisement information corresponding to the acquired preference information from the advertisement information storage means. The transmission means transmits the selected advertisement information to the display device.

  There is also known a wireless communication device having a wireless power transmission unit that wirelessly supplies power to a power supplied terminal and a position detection unit that detects the position of the power supplied terminal (for example, see Patent Document 2). The information generation unit generates movement promotion information that prompts the user of the power supplied terminal to move based on the position of the power supplied terminal detected by the position detection unit. The communication processing unit transmits the movement promotion information generated by the information generating unit to the power receiving terminal using a radio signal.

JP 2003-122994 A JP 2009-261156 A

  It is known to use GPS (Global Positioning System) as means for obtaining position information of a portable information terminal. However, positioning by GPS is limited to the outdoors where signals from satellites can be received. Positioning accuracy is poor at several meters or more, and position information is generated in the portable information terminal. Therefore, the advertisement distribution apparatus cannot directly obtain the position information, and in order to obtain the position information, the user of the portable information terminal needs to permit the position information transmission. In addition, since the portable information terminal communicating with the base station (or the wireless local area network (LAN) base unit) switches the base station with which the mobile information terminal communicates with the movement (handover), each base station covers the communication. The position of the portable information terminal can be grasped only with the unit and resolution. Therefore, the position of the portable information terminal cannot be specified in the store area where the advertisement is distributed. Therefore, even if GPS or handover technology is used, the position of the portable information terminal cannot be specified indoors with high accuracy, and it is difficult to wire an advertisement according to the position of the portable information terminal. Exists.

  An object of the present invention is to provide a server device, a processing method thereof, an information system, and a processing method thereof capable of specifying the position of a power receiver with high accuracy and outputting information to an output device corresponding to the specified position. It is.

  The server device receives the transmitted power of the power transmitter and the received power of the power receiver when wirelessly transmitted from the power transmitter to the power receiver via a network, and based on the received transmitted power and received power A transmitter that identifies a position of the power receiver with respect to the power transmitter and transmits information to the output device corresponding to the identified position of the power receiver via a network.

  By specifying the position of the power receiver based on the transmitted power and the received power, the position of the power receiver can be specified with high accuracy, and information can be output to the output device corresponding to the specified position. Further, the power receiver can wirelessly receive power from the power transmitter and charge the battery as compensation for the output of the above information.

FIG. 1 is a conceptual diagram illustrating a configuration example of an information system according to the present embodiment. FIG. 2 is a diagram illustrating a configuration example of the information system according to the present embodiment. FIG. 3 is a diagram illustrating a configuration example of the power transmitter and the power receiver in FIG. 2. FIG. 4 is a diagram for explaining a method of estimating the distance from the power transmitter to the power receiver. FIG. 5A is a diagram illustrating the position information of the power transmitter stored in the server device, and FIG. 5B is a diagram illustrating the position information of the output device stored in the server device. FIG. 6A is a diagram showing a power receiver identification number (ID number) and customer information table stored in the server device, and FIG. 6B is an advertisement (CM) number stored in the server device. It is a figure which shows the table of a customer object. FIG. 7 is a sequence diagram showing information communication by the information system. FIG. 8 is a flowchart showing a processing method of the information system. FIG. 9 is a diagram illustrating the position information of the power transmitter and the output device stored in the server device. FIG. 10A is a diagram showing a power receiver registration number, identification number (ID number), and customer information table stored in the server device, and FIG. 10B explains parameters used by the server device. FIG. FIG. 11 is a flowchart showing a processing method of the information system of FIG. FIG. 12 is a diagram illustrating another example of the position information of the power transmitter and the output device stored in the server device.

  FIG. 1 is a conceptual diagram illustrating a configuration example of an information system according to the present embodiment. The information system includes a server device 101, a plurality of output devices 102 a and 102 b, a plurality of power transmitters 103 a and 103 b, and a power receiver 104, and the store provides advertisement information to the customer 105. . The information system can be provided indoors, for example.

  Each of the output devices 102a and 102b includes a display device and a speaker for outputting video and audio. The power receiver 104 is a mobile terminal or a mobile phone. The customer 105 has a power receiver 104 and is movable. The server device 101, the output devices 102a and 102b, and the power transmitters 103a and 103b are connected to each other via a network and can communicate information with each other.

  The first power transmitter 103a can transmit power wirelessly to the power receiver 104 within the first power transmission possible area 106a. The power receiver 104 can wirelessly receive power from the first power transmitter 103a and charge the battery in the first power transmission possible area 106a. The power receiver 104 wirelessly transmits the identifier of the power receiver 104 and the received power to the first power transmitter 103a. The first power transmitter 103a transmits the received identifier and received power of the power receiver 104 to the server apparatus 101, and further transmits the identifier and transmitted power of the first power transmitter 103a. The server apparatus 101 calculates the power receiving efficiency based on the transmitted power of the first power transmitter 103a and the received power of the power receiver 104, and specifies the position of the power receiver 104 with respect to the first power transmitter 103a. When the position of the power receiver 104 is close to the first power transmitter 103a, the server apparatus 101 transmits video and audio of advertisement information to the first output device 102a close to the position of the first power transmitter 103a. To do. At that time, the server apparatus 101 refers to the customer information table and transmits advertisement information corresponding to the customer information such as the sex and age of the customer 105 based on the identifier of the power receiver 104. The first output device 102a displays an advertisement information image and outputs advertisement information sound. The customer 105 can charge the power receiver 104 as a price for receiving the advertisement information of the store by the first output device 102a. The power receiver 104 wirelessly transmits the received power to the first power transmitter 103 a together with charging by wireless power reception, so that the server apparatus 101 can specify the position of the power receiver 104.

  Further, the second power transmitter 103b can transmit power wirelessly to the power receiver 104 within the second power transmission possible area 106b. The power receiver 104 can wirelessly receive power from the second power transmitter 103b and charge the battery in the second power transmission possible area 106b. The power receiver 104 wirelessly transmits the identifier of the power receiver 104 and the received power to the second power transmitter 103b. The second power transmitter 103b transmits the received identifier and received power of the power receiver 104 to the server apparatus 101, and further transmits the identifier and transmitted power of the second power transmitter 103b. The server apparatus 101 calculates the power receiving efficiency based on the transmitted power of the second power transmitter 103b and the received power of the power receiver 104, and specifies the position of the power receiver 104 with respect to the second power transmitter 103b. When the position of the power receiver 104 is close to the second power transmitter 103b, the server apparatus 101 transmits video and audio of advertisement information to the second output device 102b close to the position of the second power transmitter 103b. To do. At that time, the server apparatus 101 refers to the customer information table and transmits advertisement information corresponding to the customer information such as the sex and age of the customer 105 based on the identifier of the power receiver 104. The second output device 102b displays an advertisement information video and outputs the advertisement information sound. The customer 105 can charge the power receiver 104 as a price for receiving the advertisement information of the store by the second output device 102b. The power receiver 104 wirelessly transmits the received power to the second power transmitter 103b together with charging by wireless power reception, so that the server apparatus 101 can specify the position of the power receiver 104.

  FIG. 2 is a diagram illustrating a configuration example of the information system according to the present embodiment. A server device 101, a plurality of output devices (display devices) 102a to 102d, and a plurality of power transmitters 103a to 103d are connected to the network 201. The network 201 is a wired network or a wireless network. The power transmitters 103a to 103d can supply power to the power receivers 104a to 104c in the vicinity thereof. Further, the power transmitters 103a to 103d can wirelessly communicate with the power receivers 104a to 104c in the vicinity thereof.

  FIG. 3 is a diagram illustrating a configuration example of the power transmitter 103a and the power receiver 104a in FIG. The power transmitters 103b to 103d have the same configuration as the power transmitter 103a. The power receivers 104b and 104c have a configuration similar to that of the power receiver 104a.

  First, the configuration of the power transmitter 103a will be described. A central processing unit (CPU) 303 can communicate with the network 201 via the network interface 302. The wireless communication device 301 can wirelessly communicate information 321 to the power receivers 104 a to 104 c under the control of the central processing unit 303.

  The modulator 304 outputs a modulation signal for wireless power transmission under the control of the central processing unit 303. The amplifier 305 amplifies the signal modulated by the modulator 304 under the control of the central processing unit 303 and applies a high-frequency voltage to the power transmission coil (inductor) 308. Then, a magnetic field is generated in the power transmission coil 308, and a current flows through the LC resonator having the coil 309 and the capacitor 310 by electromagnetic induction. The LC resonator is a series connection circuit of a coil 309 and a capacitor 310, and its resonance frequency is 1 / {2 × π × √ (L × C)}. Here, L is an inductance and C is a capacitance value.

  Since the frequency of the voltage applied to the power transmission coil 308 is a resonance frequency of 1 / {2 × π × √ (L × C)}, the LC resonator of the coil 309 and the capacitor 310 is in a resonance state. A magnetic field is generated in the LC resonator, and a current flows through the coil 317 of the power receiver 104a and the LC resonator of the capacitor 318 by the magnetic field resonance 323 having a resonance frequency of 1 / {2 × π × √ (L × C)}. The LC resonator enters a resonance state. Then, a magnetic field is generated in the LC resonator of the coil 317 and the capacitor 318, and a current flows through the power receiving coil 316 by electromagnetic induction. The rectifier 313 rectifies the voltage generated in the power receiving coil 316 and supplies the rectified voltage to the battery 320 via the control circuit 319. The battery 320 is charged by the supplied voltage. As described above, the power transmitter 103a can wirelessly transmit power to the power receiver 104a by the magnetic field resonance 323 and charge the battery 320 of the power receiver 104a. Note that the central processing unit 312 can input from the control circuit 319 information such as full charge of the battery 320 or failure information regarding abnormal charging.

  In the power receiver 104 a, the wireless communication device 311 can wirelessly communicate information 322 to the power transmission devices 103 a to 103 d under the control of the central processing unit 312. The information 322 includes information about the identifier of the power receiver 104a and the received power. The voltage detector 314 detects the power reception voltage of the power reception coil 316. The current detector 315 detects a power receiving current flowing through the power receiving coil 316. The central processing unit 312 calculates received power by multiplying the received voltage detected by the voltage detector 314 and the received current detected by the current detector 315. The wireless communicator 311 wirelessly transmits the received power information 322 to the power transmitter 103a.

  In the power transmitter 103a, the wireless communication device 301 wirelessly receives the received power information 321 from the power receiver 104a. The voltage detector 306 detects the power transmission voltage applied to the power transmission coil 308. The current detector 307 detects a power transmission current flowing through the power transmission coil 308. The central processing unit 303 calculates transmission power by multiplying the transmission voltage detected by the voltage detector 306 and the transmission current detected by the current detector 307. The central processing unit 303 transmits received power and transmitted power information to the server device 101 via the network interface 302.

  FIG. 4 is a diagram for explaining a method of estimating the distance from the power transmitter 103a to the power receiver 104a. As described above, the server apparatus 101 receives the transmitted power of the power transmitter 103a and the received power of the power receiver 104a, and calculates the power reception efficiency of the power receiver 104a based on the received power / transmitted power. In FIG. 4, the vertical axis represents the power reception efficiency of the power receiver 104a, and the horizontal axis represents the distance from the power transmitter 103a to the power receiver 104a. When the distance from the power transmitter 103a to the power receiver 104a is 0, the power receiving efficiency is maximized. As the distance from the power transmitter 103a to the power receiver 104a increases, the power reception efficiency decreases. The server apparatus 101 can estimate the distance from the power transmitter 103a to the power receiver 104a based on the power reception efficiency by referring to the table showing the characteristics of FIG. The same applies to the other power transmitters 103b to 103d and the power receivers 104b to 104c.

  FIG. 5A is a diagram illustrating position information of the power transmitters 103 a to 103 d stored in the server apparatus 101. The four power transmitters 103a to 103d are arranged at the positions shown in FIG. The first power transmitter 103a can transmit power within the first power-transmittable area 106a. The second power transmitter 103b can transmit power within the second power transmission possible area 106b. The third power transmitter 103c can transmit power in the third power transmission possible area 106c. The fourth power transmitter 103d can transmit power in the fourth power transmitting area 106d.

  FIG. 5B is a diagram illustrating position information of the output devices 102 a to 102 d stored in the server device 101. The four output devices 102a to 102d are arranged at the positions shown in FIG. The first output device 102a can provide advertisement information in the first information providing area 501a. The second output device 102b can provide advertisement information in the second information providing area 501b. The third output device 102c can provide advertisement information in the third information provision possible area 501c. The fourth output device 102d can provide advertisement information in the fourth information provision possible area 501d. The information provision possible areas 501a to 501d are areas in which customers can see and hear advertisements of the output devices 102a to 102d, respectively.

  FIG. 6A is a diagram illustrating a table of identification numbers (ID numbers) of the power receivers 104a to 104c and customer information stored in the server apparatus 101. The table stores the registration numbers of the power receivers 104a to 104c, the ID numbers of the power receivers 104a to 104c, and customer information. Customer information is information of a customer who owns the power receivers 104a to 104c of each ID number, and includes sex and age. A customer who wants to receive an information system service registers customer information with the server device 101.

  FIG. 6B is a diagram illustrating a table of each advertisement (CM) number and customer target stored in the server apparatus 101. The table stores the CM number and customer target information suitable for the advertisement of the CM number. For example, an advertisement whose CM number is “CM01” indicates that the advertisement is suitable for male and young customers.

  FIG. 7 is a sequence diagram showing information communication by the information system. The output device (display device) 102 corresponds to the output devices 102a to 102d. The power transmitter 103 corresponds to the power transmitters 103a to 103d. The power receiver 104 corresponds to the power receivers 104a to 104c.

  In step S721, the power transmitter 103 performs polling for detecting the power receiver 104 located in the vicinity. Specifically, the power transmitter 103 transmits a signal for detecting the power receiver 104 by the wireless communication device 301. When the power receiver 104 is located in the vicinity of the power transmitter 103, the wireless communication device 311 receives a signal from the power transmitter 103 and transmits a response signal to the power transmitter 103.

  Next, in step S722, when the power transmitter 103 receives the response signal of the power receiver 104 by the wireless communication device 301, the power transmitter 103 sends a request signal for ID (identifier) information unique to the power receiver 104 to the power receiver 104. Send.

  In step S723, when the wireless communication device 311 receives the request signal, the power receiving device 104 transmits ID information unique to the power receiving device to the power transmitting device 103.

  Next, in step S <b> 711, the power transmitter 103 transmits ID information unique to the power receiver 104 and its own power transmitter number to the server apparatus 101 via the network interface 302.

  Next, in step S <b> 712, if the received ID information (ID number) of the power receiver 104 is registered in the table of FIG. If the information is not registered, the information indicating that the power cannot be supplied is transmitted to the power transmission apparatus 103.

  Next, in step S <b> 724, when the power transmitter 103 receives power supply enable information, the power transmitter 103 transmits a power supply start signal to the power receiver 104 via the wireless communication device 301.

  Next, in step S725, when the power receiver 104 receives a power feeding start signal from the wireless communication device 311 and is in a state where wireless power reception and charging are possible (including the case of having the function), the power receiving device 104 receives power. A signal indicating that it is possible is transmitted to the power transmitter 103.

  Next, in step S <b> 726, the power transmitter 103 starts wireless (wireless) power feeding (power transmission) to the power receiver 104.

  Next, in step S <b> 727, the power receiver 104 wirelessly receives power, charges the battery 320, and transmits received power data to the power transmitter 103 by the wireless communication device 311.

  Next, in step S <b> 713, the power transmitter 103 transmits its own power transmitter number, its own transmitted power data, and the received power data of the power receiver 104 to the server apparatus 101 via the network interface 302.

  Next, in step S701, the server apparatus 101 calculates power reception efficiency by dividing the received power reception data and transmission power data. Next, the server apparatus 101 refers to the table in FIG. 4 and estimates the distance from the power transmitter 103 to the power receiver 104 based on the power reception efficiency. Next, the server apparatus 101 identifies the position of the power transmitter 103 in FIG. 5A based on the received power transmitter number, and based on the position of the power transmitter 103 and the distance from the power transmitter 103 to the power receiver 104. In addition, the output device 102 at the position (close position) corresponding to the power transmitter 103 is specified. Next, the server apparatus 101 reads the customer information of the power receiver 104 based on the received ID information (ID number) of the power receiver 104 with reference to the table of FIG. Next, the server apparatus 101 reads the CM number corresponding to the customer information with reference to the table of FIG. Next, the server apparatus 101 transmits advertisement information (video and audio) of the CM number to the specified output apparatus 102.

  In step S702, the output device 102 displays and pronounces the received advertisement information on the display device and the speaker. Next, the output device 102 transmits a signal indicating that the specific CM is being displayed to the server device 101.

  In step S728, the power transmitter 103 periodically transmits a power reception confirmation signal to the power receiver 104. In response to the signal, the power receiver 104 periodically transmits received power data to the power transmitter 103. When the received power data is less than the threshold value, the power transmitter 103 determines that the power receiver 104 has moved out of its own power transmittable area 106, and in step S714, the server device receives its power transmitter number and power supply end signal. 101.

  In step S 729, the power receiver 104 transmits a power supply end signal to the power transmitter 103 when a charging abnormality or full charge occurs. Then, in step S <b> 714, the power transmitter 103 transmits its power transmitter number and a power supply end signal to the server apparatus 101.

  Next, in step S <b> 703, when the server apparatus 101 receives the power supply end signal, the server apparatus 101 transmits a display end signal to the output apparatus 102. Then, the output device 102 terminates the display and pronunciation of the specific advertisement information and starts displaying and advertising the normal advertisement information.

  FIG. 8 corresponds to FIG. 7 and is a flowchart showing a processing method of the information system. In step S <b> 800, the output device 102 performs normal advertisement information display and pronunciation under the control of the server device 101.

  In step S801, the power transmitter 103 performs polling to detect the power receiver 104 located in the vicinity. Specifically, the power transmitter 103 transmits a signal for detecting the power receiver 104 by the wireless communication device 301. When the power receiver 104 is located in the vicinity of the power transmitter 103, the wireless communication device 311 receives a signal from the power transmitter 103 and transmits a response signal to the power transmitter 103.

  Next, in step S <b> 802, when the power transmitter 103 receives the response signal of the power receiver 104 via the wireless communication device 301, the power transmitter 103 transmits a request signal for ID (identifier) information unique to the power receiver 104 to the power receiver 104. Send.

  Next, in step S <b> 803, when the power receiver 104 receives the request signal through the wireless communication device 311, the power receiver 104 transmits ID information unique to the power receiver to the power transmitter 103.

  Next, in step S <b> 804, the power transmitter 103 transmits ID information unique to the power receiver 104 and its own power transmitter number to the server apparatus 101 via the network interface 302.

  Next, in step S805, if the received ID information (ID number) of the power receiver 104 is registered in the table of FIG. 6A, the server apparatus 101 proceeds to step S808 and is not registered. In this case, information indicating that power supply is not possible is transmitted to the power transmission apparatus 103, and the process proceeds to step S806.

  In step S <b> 806, the power transmitter 103 transmits a power supply failure notification signal to the power receiver 104. Then, in step S807, the power receiver 104 stops the power reception operation.

  In step S <b> 808, the server apparatus 101 transmits a power feedable signal to the power transmitter 103. Next, in step S <b> 809, when the power transmitter 103 receives a power feedable signal, the power transmitter 103 transmits a power feed start signal to the power receiver 104 via the wireless communication device 301.

  Next, in step S <b> 810, when the power receiver 104 receives a power feeding start signal from the wireless communication device 311, if it is in a state where wireless power reception and charging are possible (including the case of having the function), the power receiver 104 receives power. A signal indicating that it is possible is transmitted to the power transmitter 103.

  Next, in step S <b> 811, the power transmitter 103 starts wireless (wireless) power feeding (power transmission) to the power receiver 104.

  Next, in step S 812, the power receiver 104 wirelessly receives power, charges the battery 320, and transmits received power data to the power transmitter 103 by the wireless communication device 311.

  In step S <b> 813, the power transmitter 103 transmits its own power transmitter number, its own transmitted power data, and received power data of the power receiver 104 to the server apparatus 101 via the network interface 302.

  Next, in step S814, the server apparatus 101 calculates the power reception efficiency by dividing the received power reception data and the transmission power data. Next, the server apparatus 101 refers to the table in FIG. 4 and estimates the distance from the power transmitter 103 to the power receiver 104 based on the power reception efficiency. Next, the server apparatus 101 identifies the position of the power transmitter 103 in FIG. 5A based on the received power transmitter number, and based on the position of the power transmitter 103 and the distance from the power transmitter 103 to the power receiver 104. In addition, the output device 102 at the position (close position) corresponding to the power transmitter 103 is specified.

  Next, in step S815, the server apparatus 101 refers to the table of FIG. 6A, and reads the customer information of the power receiver 104 based on the received ID information (ID number) of the power receiver 104.

  Next, in step S816, the server apparatus 101 refers to the table in FIG. 6B and reads the CM number corresponding to the customer information. Next, the server apparatus 101 transmits advertisement information (video and audio) of the CM number to the specified output apparatus 102.

  Next, in step S817, the output device 102 displays and pronounces the received advertisement information on the display device and the speaker. Next, the output device 102 transmits a signal indicating that the specific CM is being displayed to the server device 101.

  In step S822, the power transmitter 103 confirms whether or not to continue power supply. If it continues, the process proceeds to step S821, and if not, the process proceeds to step S823. In step S821, the power transmitter 103 continues to supply power to the power receiver 104, and proceeds to step S822. In step S823, the power transmitter 103 transmits a power supply end signal to the server apparatus 101. Specifically, the power transmitter 103 periodically transmits a power reception confirmation signal to the power receiver 104. In response to the signal, the power receiver 104 periodically transmits received power data to the power transmitter 103. When the received power data received is less than the threshold value, the power transmitter 103 determines that the power receiver 104 has moved out of its own power transmitting area 106, and in step S823, the power transmitter 103 transmits its power transmitter number and power supply end signal. 101.

  In step S819, the power receiver 104 checks whether or not to continue power reception. If so, the process proceeds to step S818. If not, the process proceeds to step S820. In step S818, the power receiver 104 continues to receive power from the power transmitter 103 and proceeds to step S819. In step S820, the power receiver 104 transmits a power reception end signal to the power transmitter 103. Then, in step S823, the power transmitter 103 transmits a power supply end signal to the server apparatus 101. Specifically, the power receiver 104 transmits a power reception end signal to the power transmitter 103 when charging is abnormal or full charge occurs. Then, in step S823, the power transmitter 103 transmits its power transmitter number and a power supply end signal to the server apparatus 101.

  Next, in step S824, when the server apparatus 101 receives the power transmitter number and the power supply end signal, the server apparatus 101 transmits an output stop signal of specific advertisement information corresponding thereto to the output apparatus 102.

  Then, in step S825, the output device 102 ends the display and pronunciation of the specific advertisement information and starts displaying and advertising the normal advertisement information.

  As described above, in step S813, the reception unit of the server apparatus 101 receives the transmitted power of the power transmitter 103 and the received power of the power receiver 104 via the network 201 when wirelessly transmitting power from the power transmitter 103 to the power receiver 104. To do. Next, in steps S814 to S816, the transmission unit of the server apparatus 101 identifies the position of the power receiver 104 with respect to the power transmitter 103 based on the received transmitted power and received power, and corresponds to the identified position of the power receiver 104. The advertising information is transmitted to the output device 102 via the network 201.

  In step S804, the reception unit of the server apparatus 101 receives the identifier of the power receiver 104. Thereafter, in step S816, the transmission unit of the server apparatus 101 transmits advertisement information corresponding to the received identifier of the power receiver 104. At that time, the transmission unit of the server device 101 transmits the advertisement information to the output device 102 corresponding to the power transmitter 103 having the received identifier of the power transmitter 103.

  As shown in FIG. 6A, the server apparatus 101 stores a table for storing the identifier of the power receiver 104 and the gender or age corresponding to the identifier. The transmission unit of the server apparatus 101 refers to the table in FIG. 6A and transmits advertisement information corresponding to the sex or age corresponding to the received identifier of the power receiver 104.

  In step S805, the transmission unit of the server apparatus 101 transmits the advertisement information when the received identifier of the power receiver 104 is registered, and when the identifier of the received power receiver 104 is not registered. Do not send advertising information.

  According to this embodiment, the position of the power receiver 104 is specified with high accuracy by specifying the position of the power receiver 104 based on the transmitted power and the received power, and the advertisement information is sent to the output device 102 corresponding to the specified position. Can be output. Further, the power receiver 104 can wirelessly receive power from the power transmitter 103 and charge the battery 320 as compensation for the output of the above information.

  FIG. 9 corresponds to FIGS. 5A and 5B and is a diagram showing the positional information of the power transmitters 103a and 103b and the output devices 102a and 102b stored in the server device 101. It is a figure which shows the example in which several power receiving device 104a-104e exists in the power transmission possible area 106a and 106b.

  The first power transmitter 103a can transmit power within the first power-transmittable area 106a. The second power transmitter 103b can transmit power within the second power transmission possible area 106b. The first output device 102a can provide advertisement information in the first information providing area 501a. The second output device 102b can provide advertisement information in the second information providing area 501b. The first information provision possible area 501a corresponds to the first power transmission possible area 106a. The second information provision possible area 501b corresponds to the second power transmission possible area 106b. The power receivers 104a to 104c are located in the first power transmission possible area 106a. The power receivers 104d and 104e are located in the second power transmission possible area 106b. Hereinafter, a processing example in this case will be described with reference to FIGS. 10 (A), 10 (B) and FIG.

  FIG. 10A corresponds to FIG. 6A, and shows a table of registration numbers, identification numbers (ID numbers) and customer information of the power receivers 104a to 104e of FIG. is there. The table stores registration numbers of the power receivers 104a to 104e, ID numbers of the power receivers 104a to 104e, and customer information. Customer information includes gender and age. For example, the registration numbers of the power receivers 104a to 104e are T1 to T5, respectively.

  FIG. 10B is a diagram for explaining parameters used by the server apparatus 101. The initial values of these parameters are zero.

The parameter N _Am is a parameter indicating the number of men that the first power transmitter 103a is feeding. The parameter N _Aw is a parameter indicating the number of women that the first power transmitter 103a is feeding. The parameter N _AY is a parameter indicating the number of young people (for example, less than 40 years old) fed by the first power transmitter 103a. The parameter N _AO is a parameter indicating the number of elderly people (for example, 40 years old or more) that the first power transmitter 103a is feeding.

The parameter N _Bm is a parameter indicating the number of men that the second power transmitter 103b is feeding. The parameter N _Bw is a parameter indicating the number of women who are feeding power from the second power transmitter 103b. The parameter N _BY is a parameter indicating the number of young people that the second power transmitter 103b is feeding. The parameter N _BO is a parameter indicating the annual number of power supplied by the second power transmitter 103b.

  FIG. 11 corresponds to FIG. 8 and is a flowchart showing a processing method of the information system of FIG. In step S <b> 1101, the first output device 102 a performs normal advertisement information display and pronunciation under the control of the server device 101. In step S <b> 1102, the second output device 102 b performs normal advertisement information display and pronunciation under the control of the server device 101.

  First, in step S1103, the server apparatus 101, the first power transmitter 103a, and the first power receiver 104a perform the same processing as in step S826 indicated by the dotted line in FIG. As shown in FIG. 9, the first power receiver 104a is located in the first power transmission possible area 106a of the first power transmitter 103a. The first power transmitter 103a transmits its own power transmitter number and the ID number of the first power receiver 104a to the server apparatus 101.

Next, in step S1104, the server apparatus 101 refers to the table in FIG. 10A, the registration number T1 of the first power receiver 104a is registered, and the customer information is “male / 28 years old”. Therefore, the parameters N _Am and N _AY in FIG. As a result, the parameters N _Am and N _AY both become 1.

  Next, in step S1105, the server apparatus 101, the first power transmitter 103a, and the second power receiver 104b perform the same processing as in step S826 indicated by the dotted line in FIG. As shown in FIG. 9, the second power receiver 104b is located in the first power transmission possible area 106a of the first power transmitter 103a. The first power transmitter 103 a transmits its own power transmitter number and the ID number of the second power receiver 104 b to the server device 101.

Next, in step S1106, the server apparatus 101 refers to the table of FIG. 10A, the registration number T2 of the second power receiver 104b is registered, and the customer information is “female / 28 years old”. Therefore, the parameters N _Aw and N _AY in FIG. As a result, the parameter N _Aw becomes 1 and the parameter N _AY becomes 2.

  Next, in step S1107, the server apparatus 101, the first power transmitter 103a, and the third power receiver 104c perform the same processing as step S826 indicated by the dotted line in FIG. As shown in FIG. 9, the third power receiver 104c is located in the first power transmission possible area 106a of the first power transmitter 103a. The first power transmitter 103 a transmits its own power transmitter number and the ID number of the third power receiver 104 c to the server apparatus 101.

Next, in step S1108, the server apparatus 101 refers to the table in FIG. 10A, the registration number T3 of the third power receiver 104c is registered, and the customer information is “male / 32 years old”. Therefore, the parameters N _Am and N _AY in FIG. As a result, the parameter N _Am becomes 2 and the parameter N _AY becomes 3.

Next, in step S1109, the server device 101 determines that there are many men and many young people because the parameter N _Am is 2, the parameter N _Aw is 1, the parameter N _AY is 3, and the parameter N _AO is 0. With reference to the table in FIG. 6B, the CM number CM01 for men and young people is specified. Since the server device 101 receives the power transmitter number of the first power transmitter 103a as described above, the first power transmitter is based on the position information table of the power transmitter and the output device in FIG. The first output device 102a closest to 103a is specified. Next, the server apparatus 101 transmits the advertisement information of the specified CM number CM01 to the specified first output apparatus 102a.

  Next, in step S1110, the first output device 102a displays and pronounces the received advertisement information of the CM number CM01. Thereby, the customer having the power receivers 104a to 104c can view the advertisement information of the first output device 102a.

  In step S <b> 1111, the server apparatus 101, the second power transmitter 103 b, and the fourth power receiver 104 d perform the same process as step S <b> 826 indicated by the dotted line in FIG. 8. As shown in FIG. 9, the fourth power receiver 104d is located in the second power transmission possible area 106b of the second power transmitter 103b. The second power transmitter 103b transmits its own power transmitter number and the ID number of the fourth power receiver 104d to the server apparatus 101.

Next, in step S1112, the server apparatus 101 refers to the table of FIG. 10A, the registration number T4 of the fourth power receiver 104d is registered, and the customer information is “female / 40 years old”. Therefore, the parameters N _Bw and N _BO in FIG. As a result, the parameters N _Bw and N _BO both become 1.

  Next, in step S1113, the server apparatus 101, the second power transmitter 103b, and the fifth power receiver 104e perform processing similar to that in step S826 indicated by the dotted line in FIG. As shown in FIG. 9, the fifth power receiver 104e is located in the second power transmission possible area 106b of the second power transmitter 103b. The second power transmitter 103 b transmits its own power transmitter number and the ID number of the fifth power receiver 104 e to the server apparatus 101.

Next, in step S1114, the server apparatus 101 refers to the table in FIG. 10A, the registration number T5 of the fifth power receiver 104e is registered, and the customer information is “female / 43 years old”. Therefore, the parameters N _Bw and N _BO in FIG. As a result, the parameter N _Bw becomes 2, and the parameter N _BO also becomes 2.

Next, in step S1115, the server apparatus 101 determines that there are many women and many elderly people because the parameter N _Bm is 0, the parameter N _Bw is 2, the parameter N _BY is 0, and the parameter N _BO is 2. With reference to the table in FIG. 6B, the CM number CM04 for women and elderly is specified. Moreover, since the server apparatus 101 has received the power transmitter number of the second power transmitter 103b as described above, the second power transmitter is based on the position information table of the power transmitter and the output device in FIG. The second output device 102b closest to 103b is identified. Next, the server apparatus 101 transmits the advertisement information of the specified CM number CM04 to the specified second output apparatus 102b.

  Next, in step S1116, the second output device 102b displays and pronounces the received advertisement information of the CM number CM04. Thereby, the customer having the power receivers 104d and 104e can view the advertisement information of the second output device 102b.

  In step S1117, if the first power transmitter 103a determines that the power receivers 104a to 104c no longer exist in the first power transmission possible area 106a, the first power transmitter 103a transmits its own power transmitter number and power supply end signal to the server apparatus 101. . Then, in step S1118, based on the received power transmitter number and power supply end signal, the server apparatus 101 transmits an output stop signal of advertisement information corresponding to the CM number CM01 to the first output apparatus 102a. Then, in step S1119, the first output device 102a stops the display and pronunciation of the advertisement information with the CM number CM01, and starts displaying and sounding the normal advertisement information.

  In step S1117, when the second power transmitter 103b determines that the power receivers 104d and 104e no longer exist in the second power transmission possible area 106b, the second power transmitter 103b notifies the server apparatus 101 of its own power transmitter number and power supply end signal. Send. Then, in step S1118, based on the received power transmitter number and power supply end signal, the server apparatus 101 transmits an output stop signal of advertisement information corresponding to the CM number CM04 to the second output apparatus 102b. Then, in step S1119, the second output device 102b stops the display and pronunciation of the advertisement information of the CM number CM04, and starts displaying and sounding the normal advertisement information.

  FIG. 12 is a diagram illustrating another example of the position information of the power transmitters 103 a and 103 b and the output devices 102 a and 102 b stored in the server device 101. Hereinafter, the points of FIG. 12 different from FIG. 9 will be described. The first output device 102a can divide and display two screens in a first display area (first output area) 102aa and a second display area (second output area) 102ab. The first display area 102aa can provide advertisement information in the information provision possible area 501aa. The second display area 102ab can provide advertisement information within the information providing area 501ab. The information provision possible area 501ab is an area closer to the second power transmitter 103b in the first power transmittable area 106a. On the other hand, the information provision possible area 501aa is an area farther from the second power transmitter 103b in the first power transmittable area 106a.

  A case will be described in which the third power receiver 104c moves from the second power transmittable area 106b of the second power transmitter 103b to the first power transmittable area 106a of the first power transmitter 103a. In this case, the server apparatus 101 first receives information indicating that the third power receiver 104c is located near the second power transmitter 103b, and then the third power receiver 104c is near the second power transmitter 103b. The information which is located near the 1st power transmission device 103a without being located in is received. Accordingly, the server apparatus 101 can recognize that the third power receiver 104c has moved from the vicinity of the second power transmitter 103b to the vicinity of the first power transmitter 103a. That is, the server apparatus 101 can recognize that the third power receiver 104c has moved from the second power transmitter 103b side toward the first power transmitter 103a. Thereby, the server apparatus 101 can provide information close to the second power transmitter 103b without the third power receiver 104c being located in the information providing area 501aa far from the second power transmitter 103b. It can be recognized that it is located in the area 501ab. The server apparatus 101 can display advertisement information suitable for a customer who has the third power receiver 104c in the second display area 102ab of the first display apparatus 102a. At the same time, the server apparatus 101 can display advertisement information suitable for the customer of the first power receiver 104a in the first display area 102aa. Thereby, the server apparatus 101 can provide advertisement information more suitable for the customer.

  As described above, the reception unit of the server apparatus 101 receives the power transmitted from the second power transmitter 103b and the power received by the third power receiver 104c when wirelessly transmitted from the second power transmitter 103b to the third power receiver 104c. Power is received via the network 201. After that, the reception unit of the server apparatus 101 uses the network to transmit the transmitted power of the first power transmitter 103a and the received power of the third power receiver 104c when wirelessly transmitted from the first power transmitter 103a to the third power receiver 104c. Receive via 201.

  The transmission unit of the server apparatus 101 receives the transmitted power of the second power transmitter 103b, the received power of the third power receiver 104c, the received transmitted power of the first power transmitter 103a, and the received power of the third power receiver 104c. Based on the power, it is estimated that the third power receiver 104c has moved from the second power transmitter 103b side to the first power transmitter 103a side, and between the first power transmitter 103a and the second power transmitter 103b. Information is output to the output area 102ab of the output device 102a located.

  In the present embodiment, video and audio of advertisement information suitable for a customer are played on the output device 102 near the customer having the power receiver 104, thereby increasing the customer's willingness to purchase and promoting an increase in store sales. it can. In addition, the customer can charge the power receiving device 104 used for the advertisement information provided by wireless power supply, so that both the customer and the store service provider can enjoy convenience, safety and service cost. Can benefit from such aspects.

  The server apparatus 101 can be realized by a computer executing a program. Further, a computer-readable recording medium in which the above program is recorded and a computer program product such as the above program can also be applied as an embodiment of the present invention. As the recording medium, for example, a flexible disk, a hard disk, an optical disk, a magneto-optical disk, a CD-ROM, a magnetic tape, a nonvolatile memory card, a ROM, or the like can be used.

  The above-described embodiments are merely examples of implementation in carrying out the present invention, and the technical scope of the present invention should not be construed as being limited thereto. That is, the present invention can be implemented in various forms without departing from the technical idea or the main features thereof.

101 Server Device 102 Output Device 103 Power Transmitter 104 Power Receiver 105 Customer 106 Power Transmission Area

Claims (11)

A receiving unit that receives the transmitted power of the power transmitter and the received power of the power receiver via a network when wirelessly transmitting power from the power transmitter to the power receiver;
Based on the received transmitted power and received power, the position of the power receiver with respect to the power transmitter is specified, and information is transmitted to the output device corresponding to the specified position of the power receiver via the network. And a transmission unit. The receiving unit receives an identifier of the power receiver;
The server device according to claim 1, wherein the transmission unit transmits information according to the received identifier of the power receiver. The receiving unit receives the identifier of the power transmitter,
The server device according to claim 1, wherein the transmission unit transmits information to an output device corresponding to a power transmitter having the received identifier of the power transmitter. And a table for storing the identifier of the power receiver and the corresponding gender or age,
The server device according to claim 2, wherein the transmission unit refers to the table and transmits information according to sex or age corresponding to the received identifier of the power receiver.   The transmission unit transmits information when an identifier of the received power receiver is registered, and does not transmit information when an identifier of the received power receiver is not registered. Item 5. The server device according to Item 2 or 4. The receiving unit receives the transmitted power of the first power transmitter and the received power of the first power receiver when wirelessly transmitted from the first power transmitter to the first power receiver via the network, and then Receiving the transmitted power of the second power transmitter and the received power of the first power receiver via the network when wirelessly transmitted from the second power transmitter to the first power receiver,
The transmission unit includes the received transmission power of the first power transmitter, the received power of the first power receiver, the received transmission power of the second power transmitter, and the received power of the first power receiver. The first power receiver is estimated to have moved from the first power transmitter side to the second power transmitter side, and is positioned between the first power transmitter and the second power transmitter. Information is output to the output area of the output device to perform, The server apparatus of any one of Claims 1-5 characterized by the above-mentioned. Receiving the power transmitted from the power transmitter and the power received by the power receiver when wirelessly transmitted from the power transmitter to the power receiver via the network;
Based on the received transmitted power and received power, the position of the power receiver with respect to the power transmitter is specified, and information is transmitted to the output device corresponding to the specified position of the power receiver via the network. And a processing method for the server device. A wireless power transmitter,
A wireless power receiver,
An output device for outputting information;
A server device,
The server device
A receiver that receives the power transmitted from the power transmitter and the power received by the power receiver when wirelessly transmitted from the power transmitter to the power receiver via a network;
Based on the received transmitted power and received power, the position of the power receiver with respect to the power transmitter is specified, and information is output to the output device corresponding to the specified position of the power receiver via a network. An information system comprising a transmitting unit for transmitting.   The information system according to claim 8, wherein the power receiver includes a battery and charges the battery when wirelessly receiving power from the power transmitter.   The power transmitter wirelessly receives the received power of the power receiver from the power receiver, and transmits the received power of the power receiver and the transmitted power of the power transmitter to the server device via a network. The information system according to claim 8 or 9. A wireless power transmitter,
A wireless power receiver,
An output device for outputting information;
An information system processing method having a server device,
The server device
Receiving the power transmitted by the power transmitter and the power received by the power receiver when wirelessly transmitted from the power transmitter to the power receiver via a network;
Based on the received transmitted power and received power, the position of the power receiver with respect to the power transmitter is specified, and information is output to the output device corresponding to the specified position of the power receiver via a network. A processing method of an information system characterized by transmitting.

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