JP2014006850A - Content distribution system, content distribution program, and server - Google Patents

Abstract

PROBLEM TO BE SOLVED: To predict positions of distribution destinations to reduce the lengths of communication paths regarding content distribution.SOLUTION: A content distribution system includes a history information storage unit (recording unit 10) and a processing unit (12) in order to select communication paths for distributing contents to communication terminals (mobile terminals 8, 8-1, 8-2, ..., 8-N) that have requested content distribution. The history information storage unit stores positions of communication terminals that have received content distribution as position history information. The processing unit predicts distribution positions by referring to the position history information stored in the history information storage unit upon content distribution to the communication terminals, and selects a communication path with a short distance to each of the distribution destinations.

Description

The present invention relates to distribution of content or the like to a communication terminal, and relates to, for example, a content distribution system, a content distribution program, and a server that are used for content distribution from a server system to a mobile terminal.

  Content distribution (PUSH-Download type distribution) is performed from the server system to mobile terminals. In this PUSH-Download type distribution, control information indicating the content acquisition address is sent from the server to the mobile terminal (client). The mobile terminal provided with the control information downloads the content using the control information. As described above, in the PUSH-Download type distribution, the content is distributed to the client based on the control of the server system.

  There are a plurality of communication paths between the server system and the mobile terminal. For this reason, there is a degree of freedom for route selection in content distribution.

Regarding this content distribution, it is known that a communication path is predicted and distributed from a content storage device suitable for the position of the mobile terminal receiving the content distribution (for example, Patent Document 1). In addition, it is known that a position and a residence time are predicted and a distribution route is tuned according to a distribution effect of content distribution (for example, Patent Document 2).

JP 2003-134545 A JP 2002-324079 A

  By the way, the distribution route of contents is distributed based on static information such as a region code of a contract region and a contract zip code. That is, the content distribution is performed based on static information such as the contract area code and contract postal code. For this reason, if the static information and the real area route of the distribution destination do not match, an inefficient communication route is selected, such as via a wide area network (WAN) between regions or a long distribution route length. There is a problem. The inefficiency of the communication route has a problem of increasing the load on the inter-area WAN.

  In order to prevent the inefficiency of the communication route, for example, the location information is periodically notified from the mobile terminal to the server side, and an efficient distribution route may be selected. However, notifying the location information has a problem that the traffic becomes a new burden.

  In addition, periodic notification of position information from the mobile terminal side increases the power consumption on the mobile terminal side.

Accordingly, in view of the above-described problems, an object of the present invention is to predict the position of a delivery destination and shorten a communication path regarding content delivery.

In order to achieve the above object, the configuration of the present disclosure includes a history information storage unit and a processing unit to select a communication path for distributing content to a communication terminal that has requested content distribution. The history information storage unit stores the position of the communication terminal that has received the content distribution as position history information. In the content distribution to the communication terminal, the processing unit predicts the distribution position with reference to the position history information in the history information storage unit, and selects a communication path having a short distance from the distribution position.

  According to the configuration of the present disclosure, any of the following effects can be obtained.

  (1) It is possible to accumulate the position of a communication terminal that has received content distribution as position history information, predict the position of the distribution destination from this position history information, and select a communication path with a short distance to distribute the content.

  (2) Since location information is not frequently provided from the communication terminal of the distribution destination, the load on the communication terminal can be reduced.

  (3) Communication for searching for location and obtaining location information becomes unnecessary, and the load on traffic can be reduced.

Other objects, features, and advantages of the present invention will become clearer with reference to the accompanying drawings and each embodiment.

It is a figure which shows the content delivery system which concerns on 1st Embodiment. It is a flowchart which shows the process sequence of the route selection of content delivery. It is a figure which shows the content delivery system which concerns on 2nd Embodiment. It is a figure which shows the PUSH notification from a delivery server to a mobile terminal. It is a figure which shows the function of a management server, a positional information server, and a delivery control server. It is a figure which shows the function of a delivery server and a mobile terminal. It is a figure which shows the functional relationship of a positional information server, a delivery control server, a mobile terminal, and a delivery server. It is a figure which shows an example of the hardware of a management server and a positional information server. It is a figure which shows an example of the hardware of a delivery control server and a delivery server. It is a figure which shows an example of the hardware of a mobile terminal. It is a figure which shows a message | telegram format. It is a figure which shows an example of a user table and a positional information history table. It is a figure which shows an example of a route information table and a service log. It is a figure which shows the processing sequence of a content delivery system. It is a flowchart which shows the process sequence of area prediction. It is a flowchart which shows the process sequence of determination of the delivery route of a content. It is a figure which shows the Example of a content delivery system and content delivery. It is a figure which shows an example of a user table and a positional information history table. It is a figure which shows an example of a path | route information table. It is a figure which shows the comparative example of a content delivery system. It is a figure which shows the process sequence of the comparative example of a content delivery system. It is a figure which shows the comparative example of a content delivery system and a content delivery route.

[First Embodiment]

  FIG. 1 shows a content distribution system according to the first embodiment.

  This content distribution system 2-1 is a content distribution system that distributes content to mobile terminals, and is an example of the content distribution system and server of the present disclosure.

  The content distribution system 2-1 includes a server system 4, a plurality of communication paths 6-1, 6-2 to 6 -N, and a mobile terminal 8.

  The server system 4 receives a distribution request for information such as content distribution from the mobile terminal 8 and distributes the requested content. The server system 4 is a computer system composed of a single server or a plurality of servers, and has a communication function and constitutes a wireless communication network with the mobile terminal 8.

  The mobile terminal 8 is an example of a mobile communication terminal. The mobile terminal 8 is a distribution destination that receives content distribution. The mobile terminal 8 may be an electronic device having a communication function such as a mobile phone, a mobile terminal, and a game machine.

  The server system 4 includes a recording unit 10, a processing unit 12, and a content distribution unit 14.

  The recording unit 10 is an example of a history information storage unit. As the history information storage unit, the recording unit 10 stores the position of the mobile terminal 8 that has received the content distribution as position history information. That is, in the recording unit 10, the position of the mobile terminal 8 that is a content distribution destination is stored as position history information every time content is distributed to the mobile terminal 8.

  The processing unit 12 accumulates location history information in the recording unit 10 and performs location prediction of a delivery location using the location history information. That is, the processing unit 12 stores the position of the mobile terminal 8 in the recording unit 10 as position history information. In addition, when the content is distributed to the mobile terminal 8, the processing unit 12 refers to the position history information in the recording unit 10 and predicts the distribution position. A short communication distance 6X is selected from a plurality of communication paths 6-1, 6-2,.

  The content distribution unit 14 distributes content to the mobile terminal 8 that has issued the distribution request through the communication path 6X selected by the processing unit 12. The content distribution unit 14 may be either a content distribution server that is wirelessly connected to the mobile terminal 8 through a public wireless network, or a content distribution server that belongs to the service area of the mobile terminal 8. Further, the content distribution unit 14 may be a content distribution server belonging to a service area in a specific range such as a company.

<Selection of content delivery communication path>

  FIG. 2 shows a processing procedure for content distribution route selection. This processing procedure is an example of a content distribution program that is executed by a computer that performs content distribution by selecting the communication paths 6-1, 6-2,..., 6-N to the mobile terminal 8 that has requested content distribution. . This processing procedure is an example of the content distribution program of the present disclosure.

  In this processing procedure, the processing unit 12 accumulates the position of the delivery destination mobile terminal 8 in the recording unit 10 as position history information (S11).

  It is determined whether or not there is a content distribution request from the mobile terminal 8 (S12). In content distribution, that is, if there is a distribution request (YES in S13), the distribution position is predicted with reference to the position history information of the mobile terminal 8 in the recording unit 10 (S14).

  A communication path 6X having a short distance with respect to this distribution position is selected (S15).

  Then, the content distribution unit 14 performs content distribution to the mobile terminal 8 using the selected communication path 6X (S16). After the content distribution, the process returns to S11, and the location information of the mobile terminal 8 that is the distribution destination is stored in the recording unit 10.

<Operational effects of the first embodiment>

  (1) Since the position of the mobile terminal 8 is stored in the recording unit 10 as position history information, the position of the delivery destination can be predicted from this position history information. A short-distance communication path 6X can be selected from the communication paths 6-1, 6-2,.

  (2) Since the mobile terminal 8 that requested content distribution is not requested to provide location information, the load on the mobile terminal 8 can be reduced. Further, it is not necessary to provide periodic location information from the mobile terminal 8.

  (3) On the information providing side, there is no need to communicate with the mobile terminal 8 for searching for a location or obtaining location information. That is, it is only necessary to store the location information of the delivery destination at the time of content delivery. It is possible to reduce the traffic load.

[Second Embodiment]

  FIG. 3 shows a content distribution system according to the second embodiment. In FIG. 3, the same parts as those in FIG.

  This content distribution system 2-2 is an example of the content distribution system and server of the present disclosure, and is an example of the content distribution system 2 (FIG. 1) described above.

  The content distribution system 2-2 includes a distribution center 22 and, as an example, three regional distribution systems 24A, 24B, and 24C. The distribution center 22 and the regional distribution systems 24A, 24B, and 24C constitute, for example, a platform that distributes a plurality of content types as content distribution.

  The distribution center 22 includes a management server 4-1, a location information server 4-2, a distribution control server 4-3, and a center side network 60. The management server 4-1, the location information server 4-2, and the distribution control server 4-3 are connected to each other and to the center side network 60.

  The management server 4-1 is configured by a computer and manages content that is an example of distribution information.

  The location information server 4-2 is configured by a computer, and records location information when providing content of a content type for notifying location information. Further, the location information server 4-2 performs prediction of a delivery location used for the next content delivery (PUSH delivery) from history information in content provision, that is, a location location information prediction process.

  The distribution control server 4-3 is configured by a computer, and receives location location information from the location information server 4-2. Control information in which the address of the nearest distribution server 62 (for example, a distribution server 62A, 62B or 62C described later) corresponding to the area is designated is notified. In this case, the corresponding address is notified by PUSH distribution to the mobile terminal 8 that has issued the distribution request.

  The regional distribution system 24A is responsible for distribution to the region 26A. The regional distribution system 24B is responsible for distribution to the region 26B. The regional distribution system 24C is responsible for distribution to the region 26C. The regional distribution system 24A includes a regional network 60A, a distribution server 62A, and a base station 28A. The regional distribution system 24B includes a regional network 60B, a distribution server 62B, and a base station 28B. The regional distribution system 24C includes a regional network 60C, a distribution server 62C, and a base station 28C.

  The regional network 60A is connected to the center-side network 60, and is connected to the distribution server 62A and the base station 28A. The regional network 60B is connected to the center-side network 60, and is connected to the distribution server 62B and the base station 28B. The regional network 60C is connected to the center-side network 60, and is connected to the distribution server 62C and the base station 28C. Therefore, the center side network 60 and the regional networks 60A, 60B, 60C are linked to each other.

  Region 26A is a service area of base station 28A. There are a plurality of mobile terminals 8-1, 8-2. Since each mobile terminal 8-1, 8-2... 8 -N is movable, the state shown in the figure is that the mobile terminal 8-1, 8-2. It represents that. Therefore, each mobile terminal 8-1, 8-2,..., 8-N in the area 26A is connected to the base station 28A by wireless communication.

  Area 26B is a service area of base station 28B. Similarly, there are a plurality of mobile terminals 8-1, 8-2,. In this case, since the mobile terminals 8-1, 8-2,..., 8-N are movable, the state shown in the figure is that the mobile terminals 8-1, 8-2,. It means being in a sphere (that is, being present or moving in the area). Therefore, each mobile terminal 8-1, 8-2,..., 8-N located in the area 26B is connected to the base station 28B by wireless communication.

  Region 26C is a service area of base station 28C. Similarly, a plurality of mobile terminals 8-1, 8-2... 8 -N exist in this area 26 C. In this case, since the mobile terminals 8-1, 8-2,..., 8-N can move, the state shown in the figure indicates that the mobile terminals 8-1, 8-2,. This means that you are in a zone. Therefore, each mobile terminal 8-1, 8-2,..., 8-N located in the area 26C is connected to the base station 28C by wireless communication.

  The mobile terminal 8 that has received the PUSH notification from the regional distribution system 24A, 24B or 24C issues a content download request to the address of the designated distribution server 62A, 62B or 62C.

  In this embodiment, a content type for controlling whether or not notification of position information is required is distributed. In response to the distribution of the content type, the mobile terminal 8 that receives the content distribution provides position information to the position information server 4-2. The location information server 4-2 that has received the location information records the location information of the mobile terminal 8.

<PUSH notification>

  FIG. 4 shows a PUSH notification from the distribution server 62A to the mobile terminals 8-1, 8-2,..., 8-N located in the area 26A. Such content distribution is also executed from the distribution servers 62B and 62C corresponding to each region 26B or region 26C in the region 26B or region 26C.

<Functions of Management Server 4-1, Location Information Server 4-2, Distribution Control Server 4-3, Distribution Servers 62A, 62B, 62C and Mobile Terminals 8-1, 8-2,... 8-N>

  The management server 4-1 includes a contract information management function 64, a content management function 66, and a management information database (DB) 68 as shown in FIG. 5A. The contract information management function 64 manages the contract and its contents, such as recording contract information of the mobile terminals 8-1, 8-2,. The content management function 66 manages the distributed content and its contents. The management information DB 68 stores contract information and the like.

  The position information server 4-2 includes a position information management function 70, a route information providing function 72, and a position information DB 74 as shown in FIG. The location information management function 70 performs location information recording of location information acquired at the time of providing content of a content type for which notification of location information is requested, and predicts location location information for the next PUSH distribution from the location history information. That is, the mobile terminal 8-1, 8-2... 8 -N acquires location information, accumulates it, updates the accumulated location information, and the like. This location information includes the terminal ID, location acquisition date, actual location information, and the like. The position acquisition date is the date and time when the position information is acquired. The actual position information is accumulated position information. The location information DB 74 stores location history information such as the above-described terminal ID, location acquisition date and time (including the date and time of access issued from the mobile terminal 8 and the day of the week), and actual location information.

  The route information providing function 72 provides the distribution control server 4-3 with the optimum communication route for the predicted position. The optimum communication path is, for example, the communication path closest to the predicted position. In this case, as for the distribution server, the closest distribution server, for example, any one of the distribution servers 62A, 62B, and 62C is provided.

  The distribution control server 4-3 includes a distribution control function 76 and a distribution schedule DB 78 as shown in C of FIG. The distribution control function 76 receives the location information from the location information server 4-2, and sends a push notification to the mobile terminal 8 with control information specifying the address of the closest distribution server 62 corresponding to the area. To do. The notification of the control information is executed by a message format 88 (FIG. 11). The distribution schedule DB 78 stores distribution times and distribution terminal IDs.

  Each distribution server 62A, 62B, 62C includes a content providing function 80 and a service log 82, as shown in FIG. The content providing function 80 provides content to the mobile terminals 8-1, 8-2 to 8 -N that request content provision. The provision of this content is executed by a download request from the mobile terminals 8-1, 8-2 to 8 -N. The service log 82 stores a terminal ID, access date and time, actual position information, and the like.

  Each of the mobile terminals 8-1, 8-2... 8 -N includes a transmission / reception function 84 and a content download function 86 as shown in FIG. The transmission / reception function 84 transmits a content distribution request and receives a PUSH notification from the distribution server 62 (= 62A, 62B, 62C). The mobile terminals 8-1, 8-2,... 8 -N that have received this PUSH notification make a content download request to the address of the designated distribution server 62. As shown in the message format 88 (FIG. 11) of the PUSH notification, the mobile terminal 8 provides the location information when the content type is the location information to be notified. That is, if position information is not required, it is not necessary to provide position information from each mobile terminal 8-1, 8-2,. The location information provided from the mobile terminals 8-1, 8-2 to 8 -N to the distribution server 62 is notified to the location information server 4-2 and recorded.

  FIG. 7 shows the relationship between the functions of the position information server 4-2, the distribution control server 4-3, the mobile terminals 8-1, 8-2,... 8-N and the distribution servers 62A, 62B, 62C. .

  When the distribution control server 4-3 issues a PUSH distribution instruction based on the distribution schedule by the distribution control function 76, the location information management function 70 of the location information server 4-2 is in the area of the mobile terminal 8 that is the distribution target. Get the predicted value. This in-zone predicted value is a predicted value at a position where the mobile terminal 8 is present. Information on the optimal distribution server 62 (for example, any one of 62A, 62B, and 62C) is acquired from the route information providing function 72 of the location information server 4-2 for the area where the area prediction value is included.

  The distribution control server 4-3 designates the mobile terminal ID and the distribution server address in the message format 88 (FIG. 11), and sends it to the mobile terminal 8 (= 8-1, 8-2,..., 8-N). PUSH notification is performed.

  The mobile terminal 8 that has received this PUSH notification performs content download processing on the designated distribution server 62 (for example, any one of 62A, 62B, and 62C). In this case, if the position information notification type included in the message format 88 is the position information notification setting, the mobile terminal 8 notifies the distribution server 62 of the position information in the download process.

  The distribution server 62 that has received this download processing notifies the position information management function 70 of the position information server 4-2 of the position information when the position information exists. The position information management function 70 records position information as position history information in the position information DB 74. Specifically, the location information at the time of providing the content of the content type for notifying the location information is recorded. As a result, the latest data of the position information is recorded in the position information DB 74.

  When recording the position history information, the position information management function 70 compares the notified position information (actual position information) with the predicted position information. When the actual position information and the predicted position information are different, the position history information in the position information DB 74 is cleared, and a feedback process is executed to update the existing area prediction information to the actual position information. That is, if the notified location information is different from the predicted value, the location history information is updated to the latest location information. Thereby, the precision of the positional information of each mobile terminal 8-1, 8-2, ... 8-N is improved.

  Further, the position information management function 70 may analyze the position tendency by statistical processing of the position information. You may record the tendency analysis value of the positional information obtained from this tendency analysis in positional information DB74. Thereby, the position of the moving mobile terminal 8 can be captured, the distribution accuracy of the content distribution destination can be improved, and the distribution route can be optimized. Accordingly, predicted location information is obtained from the location information management function 70, and an optimum delivery route is obtained by selecting a communication route based on this location information.

<Hardware of Management Server 4-1, Location Information Server 4-2, Distribution Control Server 4-3, Distribution Servers 62A, 62B, 62C and Mobile Terminals 8-1, 8-2,... 8-N>

  As shown in FIG. 8A, the management server 4-1 includes a processor 90, an input / output unit 92, a ROM (Read-Only Memory) 94, a data recording unit 96, and a RAM (Random-Access Memory) 98. It has. The processor 90 executes various programs such as an OS (Operating System) in the ROM 94. The ROM 94 stores the OS and the content distribution program of the present disclosure. The input / output unit 92 is linked with the position information server 4-2, the distribution control server 4-3, and the distribution server 62, and is used for input / output of information. In the data recording unit 96, the management information DB 68 described above is constructed. The RAM 98 constitutes a work area.

  As shown in FIG. 8B, the location information server 4-2 includes a processor 100, an input / output unit 102, a ROM 104, a data recording unit 106, and a RAM 108 that realize the above functions. The processor 100 executes various programs such as an OS in the ROM 104. The ROM 104 stores the OS and the content distribution program of the present disclosure. The input / output unit 102 is linked to the management server 4-1, the distribution control server 4-3, and the distribution server 62, and is used for input / output of information. In the data recording unit 106, the above-described position information DB 74 is constructed. The RAM 108 constitutes a work area.

  As shown in FIG. 9A, the distribution control server 4-3 includes a processor 110, an input / output unit 112, a ROM 114, a data recording unit 116, and a RAM 118 that realize the above functions. The processor 110 executes various programs such as an OS in the ROM 114. The ROM 114 stores the OS and the content distribution program of the present disclosure. The input / output unit 112 is linked with the management server 4-1, the location information server 4-2, and the distribution server 62, and is used for input / output of information. In the data recording unit 116, the above-described distribution schedule DB 78 is constructed. The RAM 118 constitutes a work area.

  As shown in FIG. 9B, the distribution servers 62A, 62B, and 62C include a processor 120 that implements the above functions, a communication unit 122, an input / output unit 124, a ROM 126, a data recording unit 128, and a RAM 130. The processor 120 executes various programs such as an OS in the ROM 126. The communication unit 122 performs communication with the management server 4-1, the position information server 4-2, the distribution control server 4-3, or communication with the mobile terminal 8 under the control of the processor 120. The ROM 126 stores the OS and the content distribution program of the present disclosure. The input / output unit 124 is used for input / output of information in cooperation with the management server 4-1, the position control server 4-2, and the distribution control server 4-3. The service log 82 described above is constructed in the data recording unit 128. The RAM 130 constitutes a work area.

  As shown in FIG. 10, the mobile terminals 8-1, 8-2,... 8 -N are a processor 132, a wireless communication unit 134, an input / output unit 136, a display unit 138, a ROM 140, and a data recording unit. 142 and RAM 144. The processor 132 executes various programs such as an OS in the ROM 140. The wireless communication unit 134 includes an antenna 145 and performs wireless communication with the base station 28. The ROM 140 stores a program corresponding to the OS and the content distribution program of the present disclosure. The input / output unit 136 is used for input / output of information. The data recording unit 142 stores position information and the like. The RAM 144 constitutes a work area.

<Message format 88>

  As shown in FIG. 11, the above-described message format 88 includes a notification ID 146, a mobile terminal identification ID 148, a distribution server address 150, a location information notification identification 152, and a payload 154. The notification ID 146 is an example of identification information regarding notification. The mobile terminal identification ID 148 is identification information for identifying the mobile terminals 8-1, 8-2 to 8 -N.

  The distribution server address 150 represents the address of the distribution servers 62A, 62B, and 62C that are content download destinations.

  The location information notification identification 152 is information indicating whether or not to request location information notification when downloading the content of the mobile terminals 8-1, 8-2 to 8 -N with respect to the content type described above. . The payload 154 indicates data.

  With such a message format 88, provision of location information is requested from the distribution servers 62A, 62B, and 62C as necessary. Since provision of position information is not always required, it is possible to reduce traffic load and power consumption of the mobile terminals 8-1, 8-2 to 8 -N.

<Data Structure of Location Information DB 74 and Service Log 82>

  The position information DB 74 includes a user table 156 (A in FIG. 12), position information history tables 158-1 and 158-2 (B in FIG. 12), and a route information table 160 (A in FIG. 13) of the position information DB 74. Is set.

  As shown in FIG. 12A, the user table 156 includes a user identification ID storage unit 161 and a location prediction storage unit 163. The user identification ID storage unit 161 stores a user identification ID, for example, a mobile terminal identification ID. The in-zone prediction storage unit 163 stores the in-zone prediction value corresponding to each user identification ID.

  The position information history tables 158-1 and 158-2 are set for each user identification ID in the user identification ID storage unit 161, as shown in B of FIG. In each position information history table 158-1, 158-2, a history number storage unit 164, an access date storage unit 166, an actual position information storage unit 168, and the like are set. The history number storage unit 164 stores history number information such as history 1, history 2, history 3... Corresponding to the user identification ID. The access date / time storage unit 166 stores access date / time information. The actual position information storage unit 168 stores actual position information.

  In the route information table 160, as shown in FIG. 13A, a position information storage unit 170 and a distribution server address storage unit 172 are set. The location information storage unit 170 stores region information, for example, information specifying the region such as the region A (26A) and the region B (26B) described above. The distribution server address storage unit 172 stores the address of the distribution server. Specifically, the address of the distribution server 1 (62A) existing in the region A and the address of the distribution server 2 (62B) existing in the region B are stored. Is done.

  In the service log 82, as shown in FIG. 13B, an access date storage unit 174, a user identification ID 176, an actual position information storage unit 178, and the like are set. The access date storage unit 174 stores information indicating the access date. The user identification ID 176 stores ID information for identifying the user. The actual position information storage unit 178 stores information indicating a distribution position that is an actual result.

<Content delivery processing sequence>

  FIG. 14 shows a processing sequence for content distribution. In this processing sequence, the case where the content providing function 80 exists in the distribution servers 62A and 62B as described above is shown as an example.

  This processing sequence includes a process F1 when using the location system service and a process F2 when PUSH is distributed (assuming the mobile terminal 8 in the area B and the contract area A).

  In the processing F1 when using the location system service, it is assumed that provision of location information is required at the time of content acquisition. At the time of content acquisition, the mobile terminal 8 provides position information to the content providing function 80 (S101). The content providing function 80 notifies the position information management function 70 of the acquired position information (S102). The position information management function 70 stores the notified position information in the position information history table 158 (S103). Then, the content providing function 80 provides the content to the mobile terminal 8 (S104).

  In this case, the position information management function 70 acquires position information from the position information history table 158 (S105), thereby predicting the position. The position information management function 70 stores the predicted position in the user table 156 (S106).

  In the process F2 at the time of PUSH distribution (assuming the mobile terminal 8 in the area B and the contract area A), the distribution control function 76 notifies the location information management function 70 of the terminal ID (S111). The position information management function 70 acquires the predicted position from the user table 156 (S112). Thereby, the location information management function 70 obtains the area where the mobile terminal 8 is located, and notifies the delivery control function 76 of this area (S113). The distribution control function 76 issues a PUSH distribution instruction to the mobile terminal 8 (S114). Upon receiving this PUSH distribution instruction, the mobile terminal 8 requests the content server 62B in that area, in this case the area B, to download the content by PUSH distribution (S115). In this case, the delivery route is selected without going through the inter-area network that becomes a bottleneck. In this distribution route, the closest communication route 6 is selected.

<Process for setting location prediction>

  FIG. 15 shows a processing procedure for setting the prediction of the location location. In this processing procedure, the position information management function 70 is a process for deriving the predicted location position from the position information history table 158.

  The location information management function 70 is provided with a user identification ID (user identification ID = 0) (S201). It is determined whether this user identification ID is the final user identification ID (S202). If this user identification ID is the final user identification ID (YES in S202), the user identification ID is determined, and the process is terminated.

  If this user identification ID is not the final user identification ID (NO in S202), position history information for a certain period in the past, for example, X weeks is read (S203). The read position history information for X weeks is totaled for each date and time, and the ratio of each region is calculated (S204). It is determined whether this ratio is equal to or greater than a certain threshold value (S205). If the ratio is equal to or greater than the threshold (YES in S205), it is determined that there is a position-time characteristic, and information having a high ratio is used as predicted position information regardless of the immediately preceding position information (S206).

  If the obtained ratio is not equal to or greater than the threshold value (NO in S205), it is determined that there is no position time characteristic, and the latest position information is set as predicted position information (S207).

  After executing such processing (S206 or S207), the calculated data is written into the position information prediction data (S208). As a result, the user identification ID becomes the next user identification ID, the next user identification ID is determined (S209), and the process returns to S202.

  If the user identification ID is the final user identification ID in S202 (YES in S202), the user identification ID is determined, and the process ends.

  According to such a processing procedure, as shown in FIG. 15, the in-zone prediction is derived based on the pattern of the latest data or past data. Usually, the latest position information is used as the area prediction. For the route pattern, the location information for the past specified value for the week is called, and if a route pattern greater than or equal to the threshold value is detected in the same time zone, the pattern value may be used as the in-zone prediction.

<Determination of content distribution route>

  FIG. 16 shows a processing procedure for determining a content distribution route. In this processing procedure, a user identification ID is provided (S301). It is determined whether this user identification ID is the final user identification ID (S302). If this user identification ID is the final user identification ID (YES in S302), the user identification ID has been determined, and the process ends.

  If this user identification ID is not the final user identification ID (NO in S302), the area prediction information for the user identification ID is acquired from the user table 156 (S303). The distribution server address for the in-zone prediction information is acquired from the distribution server table (route information table 160) (S304). The acquired distribution server address is designated as the destination, and PUSH distribution is instructed to the mobile terminal 8 (S305). Then, the next user identification ID is selected as the user identification ID according to the user identification ID = next user identification ID, and the process returns to S302.

  By such processing, PUSH distribution control of content is executed, and PUSH distribution is executed by selecting an efficient distribution route.

<Features and advantages of the second embodiment>

  (1) Content distribution can be performed through an efficient communication path by the above processing. In content distribution, distribution can be performed from a distribution server close to the area where the mobile terminal 8 is located, and the efficiency of content distribution can be improved.

  (2) Location information notification from the mobile terminal 8 can be minimized.

  (3) Content distribution can be performed from a server system close to the area where the mobile terminal 8 is located. That is, it is possible to predict the location information of the mobile terminal 8 and to minimize the notification of location information, and to distribute content through an efficient communication path using the location information of the mobile terminal 8.

  (4) By the distribution based on the location of the mobile terminal 8, an efficient communication path can be used, and the traffic load on the communication path (network) can be reduced. It is possible to reduce the frequency of notification of position information and predict the delivery route. The frequency of providing location information from the mobile terminal 8 can be reduced, and the power consumption of the mobile terminal can be suppressed.

  (5) In the above embodiment, an efficient communication path can be selected using the area where the mobile terminal 8 is located, not static information (that is, position information at the time of contract).

  (6) The location information is not periodically updated, but it is only necessary to grasp the location information at the minimum necessary level, for example, about three times a day, thereby detecting the route pattern and predicting the delivery route. .

  (7) When the predicted location location and the actual delivery route are more than the threshold, a feedback process for correcting the predicted location may be executed. As a result, a prediction validity feedback function is realized.

(8) The above processing can be controlled by a PUSH trigger from the server or server system, and processing on the mobile terminal 8 side is unnecessary.

  FIG. 17 shows an embodiment of a content distribution system. In FIG. 17, the same parts as those in FIG.

  In this content distribution system 2-3, as shown in FIG. 17, in addition to the location information server 4-2 and the distribution control server 4-3, the content providing servers 4-41, 4-42, 4-43 are provided in the distribution center 22. Is installed. The content providing server 4-41 provides the content of service A. The content providing server 4-42 provides the content of the service B. The content providing server 4-43 provides the content of the service C. These content providing servers 4-41, 4-42, and 4-43 have the same hardware configuration as the above-described management server 4-1 (A in FIG. 8), and content DBs related to services A, B, and C. It has. Each content providing server 4-41, 4-42, 4-43 provides content to the distribution server 62. Each content providing server 4-41, 4-42, 4-43 records position information obtained by content distribution. The position information record 180 is notified to the position information server 4-2 and recorded in the position information DB 74.

  The regional distribution system 24A of this embodiment is, for example, the Tokyo distribution system for the Kanto area, the regional distribution system 24B is the Osaka distribution system for the Kinki area, and the regional distribution system 24C is the Fukuoka distribution system for the Kyushu area. It is. In these regional distribution systems 24A, 24B, and 24C, distribution servers 62A, 62B, and 62C corresponding to the respective regions are arranged, and using the distribution servers 62A, 62B, and 62C is an optimal distribution route. ing.

  In this case, the area 26A represents the Kanto area, the area 26B represents the Kinki area, and the area 26C represents the Kyushu area.

  In this embodiment, the distribution control server 4-3 executes a position information inquiry 182 to the position information server 4-2. Based on this position information, a content distribution instruction 184 is issued as a PUSH notification from the distribution control server 4-3 to the mobile terminal 8 located in each area.

  In response to the PUSH notification of the content distribution instruction 184, the content distribution 186 is executed from the distribution server 62A in the “Tokyo distribution system” (region distribution system 24A) to the mobile terminal 8 in the Kanto region (region 26A). The content distribution 186 from the distribution server 62A is wirelessly notified to the mobile terminal 8 that has made a content distribution request from the base station 28A via the regional network 60A. Thereby, it becomes possible to perform distribution from the distribution server 62 in accordance with the location.

  In the mobile terminal 8 in the Kyushu area (region 26C), the content distribution 188 is executed from the distribution server 62C in the “Fukuoka distribution system” (region distribution system 24C). That is, the shortest communication path 6 (FIG. 1) is selected and content distribution is executed.

  In this case, as shown in A of FIG. 18, mobile terminal identification IDs of users A, B, C, E, and F are stored in the user table 156 in the user identification ID storage unit 161. In the user table 156, a contract area storage unit 162 is set. In the contract area storage unit 162, contract areas are stored in association with users. The in-zone prediction storage unit 163 stores the predicted area name. Area names include “Kanto”, “Kinki”, “Kyushu”, and the like. In this case, the user A indicates that the contract area is Kinki and the area prediction is “Kanto”.

  The position information history table 158-1 is created for the user A as shown in FIG. A history number is stored in the history number storage unit 164. The access date / time storage unit 166 stores the access date / time. The actual position information storage unit 168 stores “Kanto” as the actual position.

  The position information history table 158-2 is created for the user B as shown in B of FIG. A history number is stored in the history number storage unit 164. The access date / time storage unit 166 stores the access date / time. The actual position information storage unit 168 stores “Kinki”, “Kanto”, and the like as actual positions. That is, the user B indicates that the contract area is “Kinki”, but as a result of enrollment prediction, “Kinki” is currently in the area.

  The position information history table 158-3 is created for the user F as shown in FIG. A history number is stored in the history number storage unit 164. The access date / time storage unit 166 stores the access date / time. The actual position information storage unit 168 stores “Kyushu”, “Kanto”, and the like as actual positions. That is, the user F indicates that the contract area is “Kanto”, but as a result of enrollment prediction, “Kyushu” is currently in the area.

  In this case, as shown in FIG. 19, the route information table 160 stores corresponding area information in the position information storage unit 170. In this case, “Kanto”, “Kinki”, and “Kyushu” are stored. The distribution server address storage unit 172 stores the address of the distribution server that controls the region. In this case, “Kanto” stores the address of the “Tokyo distribution server” existing in the Kanto area. “Kinki” stores the address of “Osaka Distribution Server”. In “Kyushu”, the address of “Fukuoka Distribution Server” is stored. That is, if the service area is “Kanto”, the address of “Tokyo distribution server” is designated.

  When distributing to the mobile terminal 8 of the user A, the distribution control function 76 requests the location information management function 70 for location information based on the mobile terminal identification ID of the user A. The location information management function 70 acquires “Kanto”, which is the area prediction information for the mobile terminal identification ID of the user A, from the user table 156. The distribution control function 76 is notified of “Kanto” which is the in-zone prediction information of the mobile terminal identification ID. Upon receiving the notification that the position information is “Kanto”, the distribution control function 76 searches for the route information based on the position information “Kanto” and notifies the route information providing function 72 of the route information that is the search result. . The route information providing function 72 acquires from the route information table 160 that the distribution is “Tokyo distribution server” and notifies the distribution control function 76 of the distribution of “Kanto”.

  As shown in FIG. 11, the distribution control function 76 sets the address of “Tokyo distribution server” as the mobile terminal identification ID of the user A and the acquisition destination distribution server address for the message format 88. The distribution control function 76 makes a PUSH notification to the mobile terminal 8 of the user A using this message format 88. Based on this, the mobile terminal 8 of the user A makes a download request to the address of the “Tokyo distribution server” (distribution server 62A) and acquires the content.

When the position information notification type is notification setting, the mobile terminal 8 of the user A makes a download request together with the position information notification. The distribution server 62A notifies the position information management function 70 of the position information received from the mobile terminal 8. The location information management function 70 records the history information in the location information history table 158-1 (B in FIG. 18). The location information management function 70 clears the history information when the predicted location information is different from the actual location information, and when the location information management function 70 is different from the latest “Kanto” (that is, the user A moves to “Kinki”). ”), A feedback process for correcting the presence prediction information to“ Kinki ”is executed.

Comparative example

  FIG. 20 shows a content distribution system of a comparative example. The content distribution system 200 provides content to the mobile terminal 8 based on static information based on contract information. That is, the content distribution system 200 does not perform the area prediction of the mobile terminal 8. In the content distribution system 200, a distribution schedule DB 780 is set in the distribution server 620. This distribution schedule DB 780 stores distribution times and distribution terminal IDs. The content providing function 800 provides content.

  The distribution control function 760 of the distribution control server 403 notifies the terminal information to the contract information management function 640 of the contract information server 405. The contract information server 405 includes a contract information management function 640 and a contract information DB 680. The contract information DB 680 stores the terminal ID and its contract area information. That is, the contract area information is static information based on contract information unrelated to the movement of the mobile terminal 8.

  When the contract information management function 640 receives the terminal ID notification from the distribution control function 760 of the distribution control server 403, the contract area information that is static information based on the contract is acquired from the contract information DB 680 and notified to the distribution control function 760. That is, the distribution control function 760 acquires the static information of the contract information, designates the distribution server 620 based on the static information regardless of the location to the mobile terminal 8, and instructs the mobile terminal 8 to perform the PUSH distribution instruction. Is out.

  Based on the contract area information, the distribution control function 760 issues a content download instruction to the mobile terminal 8. In this comparative example, regardless of where the mobile terminal 8 is located, the distribution server 620 existing in the contract area, which is static information based on the contract information of the mobile terminal 8, is designated.

  The mobile terminal 8 that has received the download instruction by the PUSH notification receives content from the content providing function 800 of the distribution server 620.

  <Content delivery processing sequence>

  FIG. 21 shows a content distribution processing sequence.

  This processing sequence shows processing F3 in the case of the area A and contract area A of the mobile terminal 8 and process F4 in the case of the area B and contract area A.

  In processing F3 in the case of the area A and contract area A of the mobile terminal 8, the terminal ID is notified from the distribution control function 760 to the contract information management function 640 (S401). In response to this, the contract information management function 640 notifies the contract area information to the distribution control function 760 (S402). The distribution control function 760 issues a PUSH distribution instruction to the mobile terminal 8 (S403). The mobile terminal 8 receives the push distribution instruction, makes a download request to the network 600A in the area A (S404), and download relay is performed from the network 600A to the distribution server 620A (S405).

  In this case, since the contract area A and the area A are the same, there is no loss of the distribution route. However, since provision of location information is always performed, traffic load and power consumption on the mobile terminal 8 side increase.

  In processing F4 in the case of the area B and contract area A of the mobile terminal 8, the terminal ID is notified from the distribution control function 760 to the contract information management function 640 (S501). In response to this, the contract information management function 640 notifies the contract area information to the distribution control function 760 (S502). The distribution control function 760 issues a PUSH distribution instruction to the mobile terminal 8 (S503). The mobile terminal 8 receives the PUSH distribution instruction, makes a download request to the network 600B in the area B (S504), and download relay is executed from the network 600B to the network 600A in the area A (S505). Thereby, the download relay is performed from the network 600A in the area A to the distribution server 620A in the area A (S506).

  In the content distribution system 200 of this comparative example, as shown in FIG. 22, a contract information server 405 and content providing servers 4041, 4042, and 4043 are installed in the distribution center 22. These are connected to the regional distribution systems 24A, 24B, and 24C via the center-side network 600. In the regional distribution system 24A, a distribution server 620A, a regional network 600A, and a base station 280A are installed. In the regional distribution system 24B, a distribution server 620B, a regional network 600B, and a base station 280B are installed. In the regional distribution system 24C, a distribution server 620C, a regional network 600C, and a base station 280C are installed.

  If the processing sequence (FIG. 21) described above is followed, a contract information inquiry 192 is executed from the distribution control server 403 to the contract information server 405. The content distribution instruction 194 is executed from the distribution control server 403 that has acquired the contract information by this inquiry 192 to the distribution servers 620B and 620C based on the contract information. Thereby, the content distribution 196 is executed from the distribution server 620B to the mobile terminal 8 in the Tokyo district (region 26A) via the regional network 600A of the Tokyo distribution system (distribution system 24A). In addition, content distribution 198 is executed from the regional distribution system 24C to the mobile terminal 8.

  In the content distribution 196, the distribution route of the content distribution 196 that extends from the region 24B to the region 24A is used. Since the distribution route extends from the region 24B to the region 24A, it is an inefficient distribution route. Thus, in the comparative example, when the contract area is “Kinki”, the “Osaka distribution system” (distribution system 24B) of “Kinki” despite the presence of the mobile terminal 8 in “Kanto”. Since the delivery server 620B is designated, an inefficient delivery route is selected. Such a problem has been solved in the above embodiment and examples.

  Next, the following additional notes will be disclosed with respect to the embodiment including the above-described examples. The present invention is not limited to the following supplementary notes.

(Appendix 1) A content distribution system for distributing content to a communication terminal that has requested distribution,
A history information storage unit that stores the position of the communication terminal that has received the content distribution as position history information;
A processing unit that predicts a delivery position with reference to the location history information in the history information storage unit and selects a communication path having a short distance with respect to the delivery position when delivering content to the communication terminal;
A content distribution system comprising:

(Additional remark 2) The said process part adds the notification request | requirement of a positional information to any content of the some content to distribute, and the positional information obtained from the said communication terminal by this notification request to the said log | history information storage part provide,
The content distribution system according to attachment 1.

(Supplementary Note 3) The location history information includes one or more of identification ID of the communication terminal, access date and time, access day of week, location information,
The content distribution system according to attachment 1.

(Supplementary Note 4) The distribution position is the latest position in the position history information or a position obtained from statistics from a plurality of positions in the position history information.
The content distribution system according to attachment 1.

(Supplementary Note 5) The distribution position is compared with the predicted distribution position and the position where the information is actually distributed, and is corrected by the comparison result.
The content distribution system according to appendix 1 or 3.

(Supplementary Note 6) The selection of the communication path includes selection of a distribution server that includes a plurality of distribution servers and is located at a distance close to a position predicted from these distribution servers.
The content distribution system according to attachment 1.

(Appendix 7) The communication path is changed depending on the content type of the distribution information.
The content distribution system according to appendix 1 or 6.

(Supplementary Note 8) A content distribution program that causes a computer that performs content distribution by selecting a communication path for a communication terminal that has requested distribution,
Accumulating the location of the communication terminal of the delivery destination as location history information in the history information storage unit,
When distributing content to the communication terminal, the distribution position is predicted with reference to the position history information in the history information storage unit, and a communication path with a short distance to the distribution position is selected.
A content distribution program for causing a computer to execute processing.

(Additional remark 9) It is a server used for the content delivery system which delivers information from a delivery server with respect to the communication terminal which requested | required delivery,
A recording unit that records the position of the communication terminal that has received the distribution as position history information;
A processing unit that predicts the current position from the position history information in the recording unit and selects a communication path with a short distance to the position;
A server comprising

[Other Embodiments]

  (1) The mobile terminals 8, 8-1, 8-2,..., 8-N are illustrated as examples of the communication terminals, but the communication terminals are not limited to such mobile terminals. Any electronic device having a communication function may be used, and a personal computer, an electronic game machine, an electronic camera, a tablet terminal, or the like may be used.

  (2) In the above embodiment, description is made assuming a public line network, but the network is not limited to a public line network. What is necessary is just a network that integrates networks scattered in various places.

  (3) In the above embodiment, a plurality of servers are installed in the distribution center. However, the server may be configured by a single server having the server functions described above.

As described above, the most preferable embodiments of the content distribution system, the content distribution program, and the server have been described. The present invention is not limited to the above description. Various modifications and changes can be made by those skilled in the art based on the gist of the invention described in the claims or disclosed in the embodiments for carrying out the invention. It goes without saying that such modifications and changes are included in the scope of the present invention.

2-1, 2-2, 2-3 Content distribution system 4 Server system 4-1 Management server 4-2 Location information server 4-3 Distribution control server 6-1, 6-2 ... 6-N Communication path 8 8-1, 8-2,..., 8-N Mobile terminal 10 Recording unit 12 Processing unit 14 Content distribution unit 22 Distribution center 24A, 24B, 24C Regional distribution system 26A, 26B, 26C Regional 28A, 28B, 28C Base station 60 Center side network 60A, 60B, 60C Regional network 62 Distribution server 62A, 62B, 62C Distribution server 64 Contract information management function 66 Content management function 68 Management information DB
70 Location information management function 72 Route information providing function 74 Location information DB
76 Distribution control function 78 Distribution schedule DB
80 Content Provision Function 82 Service Log 84 Transmission / Reception Function 86 Content Download Function 88 Message Format 90 Processor 92 Input / Output Unit 94 ROM
96 data recording unit 98 RAM
100 processor 102 input / output unit 104 ROM
106 Data recording unit 108 RAM
110 Processor 112 Input / output unit 114 ROM
116 Data recording unit 118 RAM
120 processor 122 communication unit 124 input / output unit 126 ROM
128 data recording unit 130 RAM
132 processor 134 wireless communication unit 136 input / output unit 138 display unit 140 ROM
142 Data recording unit 144 RAM
145 Antenna 146 Notification ID
148 Mobile terminal identification ID
150 Distribution server address 152 Location information notification identification 154 Payload 156 User table 158-1, 158-2 Location information history table 160 Route information table 161 User identification ID storage unit 163 Location prediction storage unit 164 History number storage unit 166 Access Date / time storage unit 168 Actual location information storage unit 170 Location information storage unit 172 Distribution server address storage unit 174 Access date / time storage unit 176 User identification ID
178 Actual position information storage unit 180 Position information record 182 Inquiry 184 PUSH notification 186 Content distribution 188 Content distribution 192 Content inquiry

Claims (6)

A content distribution system for distributing content to a communication terminal that has requested distribution,
A history information storage unit that stores the position of the communication terminal that has received the content distribution as position history information;
A processing unit that predicts a delivery position with reference to the location history information in the history information storage unit and selects a communication path having a short distance with respect to the delivery position when delivering content to the communication terminal;
A content distribution system comprising: The processing unit adds a notification request for position information to any one of a plurality of contents to be distributed, and provides the position information obtained from the communication terminal by the notification request to the history information storage unit.
The content distribution system according to claim 1. The selection of the distribution route includes selection of a distribution server that includes a plurality of distribution servers and is located at a distance close to a position predicted from these distribution servers.
The content distribution system according to claim 1. The communication path is changed according to the content type of the distribution information.
The content distribution system according to claim 1 or 3. A content distribution program that causes a computer that performs content distribution by selecting a communication path for a communication terminal that has requested distribution,
Accumulating the location of the communication terminal of the delivery destination as location history information in the history information storage unit,
When distributing content to the communication terminal, the distribution position is predicted with reference to the position history information in the history information storage unit, and a communication path with a short distance to the distribution position is selected.
A content distribution program for causing a computer to execute processing. A server used in a content distribution system that distributes information from a distribution server to a communication terminal that has requested distribution,
A recording unit that records the position of the communication terminal that has received the distribution as position history information;
A processing unit that predicts the current position from the position history information in the recording unit and selects a communication path with a short distance to the position;
A server comprising

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