JP2012028999A - Content distribution system, content center, and information terminal - Google Patents

Abstract

PROBLEM TO BE SOLVED: To use a fixed communication network while charging to complete downloading without using a wireless communication network, in a system in which information preferred by a user (video, music, advertisement and so on) is automatically downloaded to update data in a portable information terminal under the system's initiative, when the user connects the portable information terminal to a charger.SOLUTION: A portable information terminal has the function of transmitting information about an amount and time of charging to a content providing center when charging is started. A content center determines a data amount to the extent that data update is completed while charging based on the information, and transmits information data preferred by a user within the range of the data amount.

Description

  The present invention relates to a content distribution system, a content center, and an information terminal, and more particularly to a content distribution system, a content center, and an information terminal that write to an information terminal using an inexpensive fixed communication network when charging the information terminal or peripheral device.

Patent Document 1 discloses a technology that has a function of detecting whether or not a charger is connected to a portable information terminal, and when the charger is connected, switches a switch inside the terminal and communicates with a wired modem. ing.
Patent Document 2 discloses a technique for downloading data from a content server using wireless communication when a portable information terminal starts charging.
In Patent Document 3, when there is a portable information terminal in a home, fixed-line communication is performed using power line communication as a fixed-line communication and a home wireless access point.

JP 2002-291934 A JP 2002-111573 A JP 2003-229790 A

  In an invention in which data is downloaded using a fixed communication network during charging of a portable information terminal as in Patent Document 1, a wireless communication network is used for data that cannot be downloaded during charging. It is assumed that the download will continue. However, as the functions of portable information terminals become higher, the size of data handled tends to be large. Therefore, when a wireless communication network is used, limited radio resources are consumed. Therefore, it is necessary to devise a technique that can be completed by communication using a fixed communication network.

  As disclosed in Patent Document 2, there is also an invention in which content is automatically downloaded when a portable information terminal is charged. However, the present invention also uses a wireless communication network, which consumes limited wireless resources and increases communication costs. Therefore, a device that is completed by communication using a fixed communication network is required.

  Further, in Patent Document 3, when there is a portable information terminal in a home, fixed system communication can be performed using power line communication as a fixed system communication and a home wireless access point. However, since it cannot be determined how long the portable information terminal can use the fixed communication, the purpose of ending the data download by communication using the fixed communication network cannot be achieved. In addition to the portable information terminal and the charger, a home wireless access point device connected to power communication is also required, which increases the cost for the user.

  The present invention, when a user connects an information terminal to a charging device with a fixed system communication function, in a form in which user-preferred information (video, music, advertisement, etc.) is downloaded to the information terminal led by the system and the data is updated. The purpose is to use a fixed communication network during charging, terminate download during charging, and not use a wireless communication network.

  In order to achieve the object of the present invention, the portable information terminal side is provided with a function of transmitting information on the amount of charge or charging time to the content providing center side at the start of charging. Then, the content center has a function of determining the amount of data to the extent that the data update is completed during charging from the information, and transmitting user-preferred information data within the range of the data amount.

  The above-described problem is that in the content distribution system configured by the information terminal and the content center connected to the information terminal by a wired line, the information terminal generates charging time information when detecting the start of charging, Transmitting to the content center via the wired line, and when the content center receives the charging time information, it measures a communication speed with the information terminal on the wired line, and This can be achieved by a content distribution system that selects content less than the charging time of the information terminal based on the communication speed and transmits the selected content to the information terminal via the wired line.

  In addition, in a content center that is connected to an information terminal via a wired line and stores content in a database, when charging time information is received from the information terminal via the wired line, a communication between the information terminal and the information terminal on the wired line is performed. Measure the communication speed, select content from the database that is less than the charging time of the information terminal based on the charging time information and the communication speed, and transmit the selected content to the information terminal via the wired line Can be achieved by the content center.

  Further, in the information terminal connected to the content center via a wired line, when charging start is detected, charging time information is generated and transmitted to the content center via the wired line, and the wired line is transmitted from the content center. This can be achieved by an information terminal that generates a communication speed response packet and transmits it from the wired line when a communication speed investigation packet is received via the network.

  According to the present invention, the user can enjoy the convenience that the user's favorite information is updated in the portable information terminal and the cost merit that the communication fee can be reduced by using an inexpensive fixed communication network. . On the other hand, a distributor can suppress the consumption of radio resources in an environment where the volume of data to be communicated increases.

It is a block diagram of the content distribution system of Example 1 and Example 2. It is the sequence diagram (the 1) of the content delivery system of Example 1. FIG. It is a sequence diagram (the 2) of the content delivery system of Example 1. FIG. It is the sequence diagram (the 1) of the content delivery system of Example 2. It is the sequence diagram (the 2) of the content delivery system of Example 2. FIG. It is a block diagram of the content distribution system of Example 3. It is the sequence diagram (the 1) of the content delivery system of Example 3. It is the sequence diagram (the 2) of the content delivery system of Example 3. It is the sequence diagram (the 1) of the content delivery system of Example 4. It is the sequence diagram (the 2) of the content delivery system of Example 4. It is a figure explaining the correction | amendment of the communication speed fluctuation | variation of Example 4. FIG. It is a figure explaining the correction | amendment of the charging time fluctuation | variation of Example 4. FIG. It is a sequence diagram of the content delivery system of Example 5. It is a sequence diagram of the content delivery system of Example 6. It is a block diagram of the content distribution system of Example 7. It is a block diagram of the content distribution system of Example 7. It is a block diagram of the content distribution system of Example 8. It is the sequence diagram (the 1) of the content delivery system of Example 8. It is the sequence diagram (the 2) of the content delivery system of Example 8.

  Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings using examples. The same reference numerals are assigned to substantially the same parts, and the description will not be repeated. In the following embodiment, an embodiment will be described in which data is downloaded to a mobile phone being charged while the mobile phone is being charged. However, the charging destination is not limited to the information terminal. Specifically, it is conceivable to download data to the car navigation system while charging the battery for driving the electric vehicle.

  With reference to FIG. 1, the content distribution system 500A of Example 1 and Example 2 is demonstrated. In FIG. 1, the content distribution system 500 </ b> A includes a mobile information terminal 10, a charger 20 of the mobile information terminal 10, a content center 40, a fixed communication network 30, and a wireless communication network 50.

  The portable information terminal 10 includes a charging control circuit 101, a rechargeable battery 102, a wired communication unit 104, a memory writing unit 105, a memory 106, a communication switching unit 107, a wireless communication unit 108, an antenna 109, A charge amount determination unit 103 is provided. When the portable information terminal 10 is connected to the charger 20 and power is supplied from the charging line 201 to the portable information terminal 10, the charging control circuit 101 starts charging the rechargeable battery 102. This charge start signal is sent to the charge amount determination unit 103 and the communication switching unit 107. Upon receiving the charge start signal, the communication switching unit 107 switches from the route to the wireless communication unit 108 to the route to the wired communication unit 104. In addition, the charge amount determination unit 103 that has received the signal checks the remaining amount of the rechargeable battery 102 and determines the expected charge amount. The charge amount determination unit 103 transmits the estimated charge amount to the content center 40 through the wired communication unit 104. At this time, the portable information terminal 10 uses the inexpensive fixed communication network 30 instead of the wireless communication network 50.

  On the other hand, the content center 40 includes a wired communication unit 401, a database 405, a wireless communication unit 406, a data amount determination unit 402, a user information unit 404, and a transmission data selection unit 403. Information on the estimated charge amount sent from the portable information terminal 10 is sent to the data amount determination unit 402. The data amount determination unit 402 determines the data amount of the content to be transmitted to the portable information terminal 10 from the information on the estimated charge amount. At this time, the data amount determination unit 402 determines the amount of data for the content data transmission to end while the user's portable information terminal 10 is being charged. The user information unit 404 stores information related to the user's favorite field. This consists of a management table for each user. Based on the user preference information and the data amount information determined by the data amount determination unit 402, the transmission data selection unit 403 extracts contents to be transmitted to the user from the database. The extracted data is transmitted from the wired communication unit 401 to the user's portable information terminal 10.

  Data transmitted from the content center 40 is stored in the memory 106 through the memory writing unit 105 of the user's portable information terminal 10. Since the amount of data is completed within the charging time, the data in the portable information terminal 10 can be rewritten only by communication using the fixed communication network 30.

A method for calculating the transmission data amount from the charge amount in the first embodiment will be described below.
The used capacity (that is, the charge amount) of the charge value in the portable information terminal 10 can be determined by measuring the battery. However, it is difficult to uniquely determine the charging time depending on the load in the terminal at that time, the specifications of the charger, and the like. Therefore, the following method is adopted. A sequence diagram based on this method is shown in FIG.

  In FIG. 2, when the portable information terminal 10 in a wireless communication state is connected to the charging line 201, the charging control circuit 101 detects this and starts charging (S101). Along with the start of charging, the charging control circuit 101 sends a charging start notification to the communication switching unit 107 and the charge amount determining unit 103 (S102). The communication switching unit 107 that has received the notification of charging start switches the communication path from the wireless communication state to the wired communication state (S103). In addition, the charge amount determination unit 103 that has received the charge start notification transmits a charge requirement check message to the charge control circuit 101 (S104). The charge control circuit 101 transmits a charge amount response message to the charge amount determination unit 103 (S105).

  The charge amount determination unit 103 transmits charge amount information (first time) and updatable memory amount information to the data amount determination unit 402 (S106). The data amount determination unit 402 transmits a communication speed investigation packet to the charge amount determination unit 103 (S107). The charge amount determination unit 103 transmits a communication speed investigation response packet to the data amount determination unit 402 (S108).

  Thereafter, the charging amount determination unit 103 again transmits a charging requirement amount investigation message to the charging control circuit 101 after a predetermined time (several seconds after the assumption) after starting charging (S109). The charge control circuit 101 transmits a charge amount response message to the charge amount determination unit 103 (S110). The charge amount determination unit 103 transmits charge amount information (second time) and updatable memory amount information to the data amount determination unit 402 (S111). The data amount determination unit 402 determines the transmission data amount upper limit (S112).

  Details of step 112 will be described below. The data amount determination unit 402 predicts the time until the completion of charging from the charging amount information at two points in time. Based on the predicted time, the data amount determination unit 402 determines the amount of data to be transmitted in consideration of the communication speed. In general, the charging value tends to slow down as the charging value approaches full charge, but this element extends the charging time, so that the data transmission is completed during the charging time, which is the purpose of this embodiment. Does not affect. Therefore, no particular consideration is given. In addition, when data download starts, the data is written into the memory, so the load on the portable information terminal increases. This is also an effect of extending the charging time, and is not particularly considered for the same reason.

The communication speed is calculated by the following method assuming that there is no significant fluctuation during communication because a fixed communication network is used. The data amount determination unit 402 that has received the first charge amount notification from the portable information terminal transmits a communication speed investigation packet. The data amount determination unit 402 determines the communication speed from the response time of the packet.
The specific calculation method of the transmission data amount determination method in the above data amount determination unit 402 is as follows.
Charging speed (mAh / sec)
= {(First charge amount information)-(Second charge amount information)} / {(Second charge amount information reception time)-(First charge amount information reception time)}
Charging time (seconds) = (second charging amount information) / (charging speed)
Communication speed (bit / second) = {(bit length of communication speed investigation packet) / (response time)} / 2
Transmission data upper limit (Byte) = {(charging time) × (communication speed)} / 8
However, it is also assumed that the upper limit of the amount of memory updated by the present system is set in the portable information terminal 10. Correspondingly, when the mobile information terminal 10 transmits the first charge amount, the updatable memory amount information is also transmitted to the content center side.

Therefore, the information that the data amount determination unit 402 transmits to the transmission data selection unit 403 is finally as follows.
Updatable memory amount (Byte)> Transmission data upper limit amount (Byte): Transmission data upper limit amount Updatable memory amount (Byte) ≦ Transmission data upper limit amount (Byte): Updatable memory amount Moving to FIG. 2B, the data The amount determination unit 402 transmits transmission data amount upper limit information or updatable memory amount information to the transmission data selection unit 403. The transmission data selection unit 403 transmits a user information request to the user information unit 404. The user information unit 404 transmits a user information response to the transmission data selection unit 403. The transmission data selection unit 403 selects the number / type of content to be transmitted in consideration of the received transmission data upper limit amount information or updatable memory amount information and user's favorite field information from the user information unit 404. (S117).

  For the selected content, the transmission data selection unit 403 transmits a transmission data request to the database 405. The database 405 transmits the transmission data to the portable information terminal 10 via the wired communication unit 401 (S119). The portable information terminal 10 writes the transmission data in the memory 106 through the wired communication unit 104, the communication switching unit 107, and the memory writing unit 105 (S120). The memory 106 completes the data update (S121). The communication switching unit 107 switches to the route with the wireless communication unit 108 so as to change the communication route from the wired communication state to the wireless communication state (S122). And the portable information terminal 10 returns to the idle state which selected radio | wireless communication.

  In the second embodiment, the process of determining the transmission data amount from the charge amount in the content center 40 in the first embodiment is simplified. By simplifying the process, the time from the start of charging to data transfer can be shortened.

  A simplified sequence will be described with reference to FIG. In FIG. 3, the simplified content distribution method can be used in a form in which transmission content corresponding to the amount of charge is set in advance. Specifically, it is assumed that the power company transmits user-preferred video, music, and CM data to the portable information terminal as a service according to the amount of charge. Only the parts different from the first embodiment will be described below.

  At the start of charging, the portable information terminal 10 transmits the amount of charge to the content center 40 (S206). Based on the information, the data amount determination unit 402 determines the transmission data upper limit amount based on preset information (S212). The data amount determination unit 402 transmits the information to the transmission data selection unit 403 (S213).

In the third embodiment, the portable information terminal sends the charging time instead of the charging amount.
The content distribution system 500B will be described with reference to FIG. In FIG. 4, the content distribution system 500B includes a mobile information terminal 10A, a charger 20 of the mobile information terminal 10A, a content center 40, a fixed communication network 30, and a wireless communication network 50.

  The portable information terminal 10 includes a charging control circuit 101, a rechargeable battery 102, a wired communication unit 104, a memory writing unit 105, a memory 106, a communication switching unit 107, a wireless communication unit 108, an antenna 109, A charging time determination unit 110 is provided.

  When the portable information terminal 10 </ b> A is connected to the charger 20 and power is supplied from the charging line 201 to the charging control circuit 101, the charging control circuit 101 starts charging the rechargeable battery 102. The charge control circuit 101 transmits the charge start signal to the charge time determination unit 110 and the communication switching unit 107. Upon receiving the charge start signal, the communication switching unit 107 selects the route to the wired communication unit 104 from the route to the wireless communication unit 108. In addition, the charging time determination unit 110 that has received the same signal checks the necessary amount of charge and determines the charging time. The charging time determination unit 110 transmits the determined charging time to the content center 40 through the wired communication unit 104. At this time, the cellular phone terminal 10A uses an inexpensive fixed communication network 30.

  On the other hand, the content center 40 includes a wired communication unit 401, a database 405, a wireless communication unit 406, a data amount determination unit 402, a user information unit 404, and a transmission data selection unit 403. Information on the expected charging time sent from the portable information terminal 10 </ b> A is sent to the data amount determination unit 402 through the wired communication unit 401. The data amount determination unit 402 determines the data amount of the content to be transmitted to the portable information terminal 10A from the information on the estimated charge amount. At this time, the data amount determination unit 402 determines the data amount for the transmission of the content data while the user's portable information terminal 10A is being charged. The user information unit 404 stores information related to the user's favorite field. Based on the user preference information and the data amount information determined by the data amount determination unit 402, the transmission data selection unit 403 extracts contents to be transmitted to the user from the database. The wire communication unit 401 transmits the extracted data to the portable information terminal 10A.

  The memory writing unit 105 of the portable information terminal 10 </ b> A stores the data transmitted from the content center 40 in the memory 106. Since the amount of data is completed within the charging time, the data of the portable information terminal 10A can be rewritten only by communication using the fixed communication network 30.

  A method for calculating the transmission data amount from the charge amount in the third embodiment will be described below. The used capacity (that is, the charge amount) of the rechargeable battery 102 of the portable information terminal 10 </ b> A can be determined by measuring the rechargeable battery 102. However, it is difficult to uniquely determine the charging time depending on the load in the terminal at that time, the specifications of the charger, and the like. Therefore, the following method is adopted.

In FIG. 5, when the portable information terminal 10A is connected to the charging line 201, the charging control circuit 101 detects it and charging is started (S101). When charging is started, the charging control circuit 101 sends a charging start notification to the communication switching unit 107 and the charge amount determining unit 103 (S102). The communication switching unit 107 that has received the charging start notification switches the communication route to the route with the wired communication unit 104 (S103). The charging time determination unit 110 that has received the charging start notification transmits a charge amount survey to the charging control circuit 101 (S104). The charge control circuit 101 transmits a charge amount response to the charge time determination unit 110 (S105). Thereafter, after a certain period of time after the start of charging (assuming several seconds after the assumption), charging time determination unit 110 transmits a charge amount survey to charging control circuit 101 again (S109). The charge control circuit 101 transmits a charge amount response to the charge time determination unit 110 (S110). The charging time determination unit 110 predicts the time until the charging is completed from the charging amount information at two points in time (S312). An example of the calculation method is the following formula.
Charging speed (mAh / sec) = {(First charge amount information)-(Second charge amount information)} / {(Second charge amount information reception time)-(First charge amount information reception time) }
Charging time (seconds) = (second charging amount information) / (charging speed)
The charging time determination unit 110 transmits the predicted charging time information to the content center 40 (S306). From the predicted time, the content center 40 determines the amount of data to be transmitted in consideration of the communication speed. In general, the charging value tends to slow down as the charging value approaches full charging. However, since this element extends the charging time, it does not affect the end of data transmission during the charging time, which is the purpose of this embodiment. Therefore, no particular consideration is given. In addition, when data download starts, the data is written into the memory, so the load on the portable information terminal increases. However, this is also an effect of extending the charging time, and is not particularly considered for the same reason.

The charging time determination unit 110 also transmits updatable memory amount information when transmitting charging time information (S306). The data amount determination unit 402 that has received this information transmits a communication speed investigation packet (S107). The charging time determination unit 110 that has received the communication speed investigation packet transmits a communication speed investigation response packet to the data amount determination unit 402 (S108). The data amount determination unit 402 determines the communication speed from the packet response time according to the following equation. As for the communication speed, since the fixed communication network 60 is used, it is assumed that there is no significant fluctuation during communication.
Communication speed (bit / second) = {(bit length of communication speed investigation packet) / (response time)} / 2
The data amount determination unit 402 determines the transmission data upper limit amount by the following calculation method.
Transmission data upper limit (Byte) = {(charging time) × (communication speed)} / 8
However, it is also assumed that the upper limit of the amount of memory updated by the present system is set in the portable information terminal 10. Corresponding to this case, the information that the data amount determination unit 402 passes to the transmission data selection unit 403 in consideration of the updatable memory amount information transmitted by the portable information terminal 10 is finally as follows.
Updatable memory amount (Byte)> Transmission data upper limit amount (Byte): Transmission data upper limit amount Updatable memory amount (Byte) ≦ Transmission data upper limit amount (Byte): Updatable memory amount The data amount determination unit 402 This transmission data upper limit amount information or updatable memory amount information is transmitted to the transmission data selection unit 403 (S113). The transmission data selection unit 403 transmits a user information request to the user information unit 404 (S115). The user information unit 404 transmits a user information request response to the transmission data selection unit 403 (S116). The transmission data selection unit 403 selects the number / type of content to be transmitted in consideration of the transmission data upper limit amount information or updatable memory amount information and the user's favorite field information acquired from the user information unit 404. (S117). The transmission data selection unit 403 transmits a transmission data request to the database 405.

  The selected content is read from the database 405 and sent to the portable information terminal 10 via the wired communication unit 401 (S119). The portable information terminal 10 writes the content in the memory 106 through the wired communication unit 104, the communication switching unit 107, and the memory writing unit 105 (S121). Finally, the data update is completed (S121). The communication switching unit 107 switches to the route with the wireless communication unit 108 so as to change the communication route from the wired communication state to the wireless communication state (S122). The portable information terminal 10 returns to the idle state where the wireless communication is selected.

  The first and third embodiments are based on the assumption that the communication speed of the fixed communication network 30 is constant. However, in the best-effort communication mode, a case where the communication speed changes is also assumed. If the communication speed at the time of data transfer is faster than the communication speed calculated in the communication speed measurement at the start of data transmission (S107, S108) in the first and third embodiments due to the change in the communication speed, the charging time is Since data transmission ends at this point, no special consideration is given. However, in the case where the communication speed at the time of data transfer is slower than the communication speed calculated by the communication speed measurement at the start of data transmission in the first and third embodiments, the situation where the data transfer does not end during the charging time. Because it invites, it is necessary to consider.

In the fourth embodiment, the amount of charge is checked again in the middle of the data transmission period, and a correction mechanism for adjusting the amount of transmission data according to the result is included.
With reference to FIG. 6, a sequence for dealing with a case where the communication speed of the fixed communication network changes in the first embodiment will be described. In FIG. 6, the sequence from the start of charging to the start of data transmission to the portable information terminal 10 is the same as that in the first embodiment. 6A is the same as (a) in FIGS. 2A and 2B. During the data transmission period, the data amount determination unit 402 transmits a charge amount re-investigation request to the charge amount determination unit 103 (S423). The timing for sending this request is when 1 / N second of the charging time calculated by the data amount determination unit 402 in the first embodiment has elapsed. N can be set arbitrarily according to the system. A method is also conceivable in which the communication speed investigation packet is always transmitted to constantly change the transmission data amount. However, the result corrected by the change in communication speed is wasted at the next timing. Therefore, it is more efficient to correct only when a certain amount of time has elapsed after the start of transmission.

  Receiving the charge amount re-investigation request, the charge amount determination unit 103 transmits a charge amount investigation to the charge control circuit 101 (S104a). The charge control circuit 101 transmits a charge amount response to the charge amount determination unit 103 (S105a). The charge amount determination unit 103 transmits the investigated charge amount information to the data amount determination unit 403 together with updatable memory information (S106a). The data amount determination unit 403 transmits a communication speed investigation packet to the charge amount determination unit 103 (S107a). The charge amount determination unit 103 transmits a communication speed response packet to the data amount determination unit 403 (S108a). The charge amount determination unit 103 checks the charge amount again after a predetermined time has elapsed (S109a, S110a). The charge amount determination unit 103 transmits the result to the content center (S111a).

The data amount determination unit 402 performs re-determination of the transmission data amount upper limit, and determines which of the transmission data upper limit amount information and the updatable memory amount information is transmitted to the transmission data selection unit 403 (S412). The data amount determination unit 402 transmits either information to the transmission data selection unit 403 (S113a). This is determined in the same manner as described in the first embodiment.
Updatable memory amount (Byte)> Transmission data upper limit amount (Byte): Transmission data upper limit amount Updatable memory amount (Byte) ≦ Transmission data upper limit amount (Byte): Updatable memory amount.

  The transmission data selection unit 403 transmits a user information request to the user information unit 404 (S115a). The user information unit 404 transmits a user information response to the transmission data selection unit 403 (S116a). The transmission data selection unit 403 reselects the number and type of contents to be transmitted in consideration of the transmission data upper limit amount or the updatable memory amount and the user's favorite field information (S417). The transmission data selection unit 403 requests the database 405 for the reselected data (S118a). The database 405 is transmitted to the portable information terminal 10 (S119a to S119n). These are written to the memory 106 through the wired communication unit 104, the communication switching unit 107, and the memory writing unit 105 in the portable information terminal 10 (S120a to S120n. When all the data has been written, the update is completed (S121). The communication switching unit 107 switches the communication path from the wired communication state to the wireless communication state (S122), and the portable information terminal 10 returns to the idle state in which the wireless communication is selected.

  The concept of correction by reselection will be described with reference to FIGS. In FIG. 7, it is assumed that the transmission data selection unit 403 selects the data (a), (b), (c), and (d) in the first transmission data selection. The content center 40 starts transmission at t = 0. The initially planned communication speed is indicated by the broken line. The data selection conditions are an initial predicted charging time t3 and an initial communication speed. At time t2, the data amount determination unit 402 performs re-determination, and it has been found that the actual communication speed is the slope of the solid line connecting t = 0 and t2. Depending on the actual communication speed, data transmission takes more time than planned. It also turns out that there was no need to review the originally scheduled charging time.

  The data amount determination unit 402 obtains the data amount at time t2 from t3 and the inclination of the actual communication speed, and transmits it to the transmission data selection unit 403. The transmission data selection unit 403 discards data (a) for which file transmission with a large file size has not been completed and untransmitted data (b). The transmission data selection unit 403 selects by adding new data (e) to data (c) (d) having a small file size. These files are transmitted at actual communication speed, and the data transmission is completed within the charging time.

  With reference to FIG. 8, the correction | amendment with respect to the change of a charging speed or charge amount is demonstrated. In FIG. 8, it is assumed that the transmission data selection unit 403 selects the data (a), (b), (c), and (d) in the first transmission data selection. The content center 40 starts transmission at t = 0. The initially planned communication speed is indicated by the broken line. The data selection conditions are an initial predicted charging time t6 and an initial communication speed. At time t4, the data amount determination unit 402 performs re-determination, and it is found that the actual communication speed matches the predicted communication speed. However, it is found that the originally scheduled charging time t6 is significantly shortened and ends at time t5.

  The data amount determination unit 402 obtains the data amount at time t4 from t5 and the inclination of the actual communication speed, and transmits it to the transmission data selection unit 403. Data (b) for which file transmission with a large file size has not been completed and untransmitted data (d) are discarded. The transmission data selection unit 403 selects by adding new data (e) and (f) to data (c) having a small file size. These files are transmitted at actual communication speed, and the data transmission is completed within the charging time. Note that data (a) has already been transmitted.

  7 and FIG. 8, the case where the communication speed is changed and the case where the charging time is changed are separated. However, according to the fourth embodiment, the case where both change can be dealt with.

  Example 5 is an example about the case where the portable information terminal 10 leaves | separates from the charger 20 during file update. A fifth embodiment will be described with reference to FIG. FIG. 9 is a diagram based on FIG. 2 for explaining the first embodiment. Therefore, the description up to step 118 of the transmission data request in FIG. 2 is omitted.

  In FIG. 9, the content center 40 transmits initial data to the portable information terminal 10 (S1191). Further, the content center 40 transmits the second data to the portable information terminal 10 (S119a). It is assumed that the portable information terminal 10 is removed from the charger 20 at this time. The charge control circuit 101 detects power disconnection (S130). The charge control circuit 101 transmits a power-off notification to the charge amount determination unit 103 and the communication switching unit 107 (S131). The communication switching unit 107 switches the selection destination from the wired communication unit 104 to the wireless connection unit 180 (S132). The charge amount determination unit 103 transmits a data update end notification to the transmission data selection unit 403 via the memory writing unit 105 and the wireless communication unit 108 (S133). The memory writing unit 105 invalidates the file being received (S136). The transmission data selection unit 403 transmits a transmission stop request to the database 405 (S134). The database 405 stops data transmission (S135). The portable information terminal 10 is in an idle state when wireless communication is selected.

  During this time, the transmission data from step 132 to step 135 does not reach the portable information terminal 10.

  Example 6 is another example of the processing method when the portable information terminal 10 is separated from the charger 20 during the file update. A sixth embodiment will be described with reference to FIG. FIG. 10 is a diagram based on FIG. 2 for explaining the first embodiment. Therefore, the description up to step 118 of the transmission data request in FIG. 2 is omitted.

  In FIG. 10, the content center 40 transmits initial data to the portable information terminal 10 (S1191). Further, the content center 40 transmits the second data to the portable information terminal 10 (S119a). It is assumed that the portable information terminal 10 is removed from the charger 20 at this time. The charge control circuit 101 detects power disconnection (S130). The charge control circuit 101 transmits a power-off notification to the charge amount determination unit 103 and the communication switching unit 107 (S131). The communication switching unit 107 switches the selection destination from the wired communication unit 104 to the wireless connection unit 180 (S132). The charge amount determination unit 103 transmits a data update end notification to the memory writing unit 105 (S133). The memory writing unit 105 invalidates the file being received (S136).

  On the other hand, the content center 40 cannot detect that the portable information terminal 10 is disconnected from the charger 20 and cannot communicate via the fixed communication network 30. For this reason, the database 405 transmits all the scheduled files and ends the processing.

  A seventh embodiment will be described with reference to FIGS. 11 and 12. FIG. 11 shows a configuration when the power line communication network 60 is used as the communication network in the configuration of the first embodiment. In FIG. 11, the content distribution system 500 </ b> C includes a mobile information terminal 10 </ b> B, a power line communication compatible charger 70 of the mobile information terminal 10, a content center 40 </ b> A, a power communication network 60, and a wireless communication network 50. Yes.

  The portable information terminal 10 includes a charging control circuit 101, a rechargeable battery 102, a wired communication unit 104, a memory writing unit 105, a memory 106, a communication switching unit 107, a wireless communication unit 108, an antenna 109, A charge amount determination unit 103 and a power / communication separation integration unit 111 are provided. The charger 70 includes a power communication line 701.

  On the other hand, the content center 40A includes a wired communication unit 401, a database 405, a wireless communication unit 406, a data amount determination unit 402, a user information unit 404, a transmission data selection unit 403, and a power / communication separation and integration unit 409. And provide. The content center 40A is connected to the power communication network 60 via a power communication line 408.

  In the seventh embodiment, the power / communication separation integration units 111 and 409 are placed on the portable information terminal 10 and the content center 40 side in order to separate the communication line and the power line from the power communication lines 701 and 408. Since other exchanges of charge amount information, processing methods, and sequences are not different from those in the first embodiment, description thereof is omitted.

  On the other hand, FIG. 12 shows a configuration when the power line communication network 60 is used as the communication network in the configuration of the third embodiment. Similarly, the exchange of charging time information and the like, the processing method, and the sequence are a combination of the third embodiment and FIG.

  In the first to fourth embodiments, the automatic data update is performed in such a manner as to end within the charging time of the portable information terminal 10. However, assuming that the update of data does not end within the charging time due to some influence, an embodiment for preventing the user from removing the portable information terminal 10 from the charger 20/70 when the data update is not completed. This is Example 8. In the eighth embodiment, the lamp 113 of the portable information terminal 10 is turned on not only during charging but also during data update, and it is clearly indicated to the user that the processing is not completed.

  In FIG. 13, the content distribution system 500 </ b> E includes a mobile information terminal 10, a charger 20 of the mobile information terminal 10, a content center 40, a fixed communication network 30, and a wireless communication network 50.

  The portable information terminal 10 includes a charging control circuit 101, a rechargeable battery 102, a wired communication unit 104, a memory writing unit 105, a memory 106, a communication switching unit 107, a wireless communication unit 108, an antenna 109, A charge amount determination unit 103, a lamp control unit 112, and a lamp 113 are provided. The lamp 113 is lit when in a charging state and a data communication state. The lamp control unit 112 controls the lamp 113.

  A processing sequence of the content distribution system 500E will be described with reference to FIG. FIG. 14 mainly describes the sequence in the portable information terminal 10 based on FIG. Therefore, the description of the steps described in FIG. 2 is omitted. In FIG. 14, when the portable information terminal 10 is set in the charger 20, the charging control circuit 101 detects the start of charging (S101). The charge control circuit 101 transmits a charge start notification to the charge amount determination unit 106, the communication switching unit 107, and the lamp control unit 112 (S102). Here, the lamp control unit 112 determines lighting (S150). The lamp controller 112 turns on the lamp (S151).

  The content center 40 transmits the initial transmission data to the portable information terminal 10 (S1191). The memory writing unit 105 starts updating the data (S1201). The memory writing unit 105 transmits a data update start notification to the lamp control unit 112 (S152). The lamp control unit 112 that has received the data update start notification determines lighting (S153). Note that the lamp control unit 112 has already been turned on because the lamp has already been turned on when charging starts. Here, the charging ends (S154). The charge control circuit 101 transmits a charge end notification to the lamp control unit 112 (S155). The lamp controller 112 determines lighting (S156). Here, the lamp control unit 112 keeps the lamp lit by not receiving the data update completion notification. Thereafter, the data update is completed in the memory 106 (S121). The memory writing unit 105 transmits a data update completion notification to the lamp control unit 112 (S157). The lamp control unit 112 determines lighting (S158). At this time, since the lamp controller 112 has completed charging and data update, the lamp controller 112 turns off the lamp (S159).

  DESCRIPTION OF SYMBOLS 10 ... Portable information terminal, 20 ... Charger, 30 ... Fixed communication network, 40 ... Content center, 50 ... Wireless communication network, 60 ... Power line communication network, 70 ... Charger corresponding to power line communication, 101 ... Charge control circuit, DESCRIPTION OF SYMBOLS 102 ... Rechargeable battery, 103 ... Charge amount determination part, 104 ... Wired communication part, 105 ... Memory writing part, 106 ... Memory, 107 ... Communication switching part, 108 ... Wireless communication part, 109 ... Antenna, 110 ... Charging time determination , 111 ... Power / communication separation and integration unit, 112 ... Lamp control unit, 113 ... Lamp, 201 ... Charging line, 202 ... Communication line, 401 ... Wired communication unit, 402 ... Data amount determination unit, 403 ... Transmission data selection unit 404, user information unit, 405, database, 406, wireless communication unit, 407, content center side communication line, 408, power communication line, 4 9 ... power / communication separator integrated unit, 500 ... content distribution system, 701 ... power communication line.

Claims (6)

In a content distribution system composed of an information terminal and a content center connected to the information terminal by a wired line,
When the information terminal detects the start of charging, it generates charging time information and transmits it to the content center via the wired line,
When the content center receives the charging time information, the content center measures a communication speed with the information terminal on the wired line, and charges the information terminal based on the charging time information and the communication speed. The content distribution system characterized by selecting less than the content and transmitting the selected content to the information terminal via the wired line. In a content center that is connected to an information terminal by a wired line and holds content in a database,
When charging time information is received from the information terminal via the wired line, a communication speed with the information terminal on the wired line is measured, and the information is based on the charging time information and the communication speed. A content center, wherein content less than a terminal charging time is selected from the database, and the selected content is transmitted to the information terminal via the wired line. The content center according to claim 2,
Furthermore, a user information unit that holds user's preference information of the information terminal,
A content center, wherein content is selected from the database based on the charging time information, the communication speed, and user preferences of the information terminal. The content center according to claim 2,
A content center that updates a content content by measuring again a communication speed with the information terminal on the wired line during transmission of the content to the information terminal. The content center according to claim 2,
In addition, a wireless communication unit for wireless link connection with the information terminal,
A content center that terminates the content transmission to the information terminal when an end notification is received from the information terminal via the wireless link during transmission of the content to the information terminal. In an information terminal connected to the content center via a wired line,
When charging start is detected, charging time information is generated and transmitted to the content center via the wired line,
An information terminal characterized in that when a communication speed survey packet is received from the content center via the wired line, a communication speed response packet is generated and transmitted from the wired line.

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