JP5483569B2 - Terminal control system, terminal control method and program - Google Patents

Description

  The present invention relates to a terminal control system, a terminal control method, and a program for controlling a terminal based on a map in which position information and a terminal state are associated with each other, and in particular, controls a terminal based on a map prepared for each type of user and terminal. The present invention relates to a terminal control system, a terminal control method, and a program.

  As a conventional technique, a technique has been proposed in which geographical information is referred to adaptively based on current position information to autonomously control a mobile terminal. Specifically, the function of the terminal is controlled for each location based on terminal control information associated with geographic information prepared in advance in the server. For example, in order to prevent digital shoplifting using a camera in a bookstore, information limiting camera functions associated with geographic information indicating the location of the bookstore is prepared in the server in advance. Then, when the terminal refers to the server information based on its own geographical information and the terminal is at the bookstore location, the camera function is limited (for example, see Patent Document 1).

JP 2007-67673 A

  By the way, since the optimal state of the terminal is also affected by the user attributes and the terminal function, it differs for each user and for each type of terminal. However, with the technique described in Patent Document 1, it is possible to control the terminal to an optimal state based on geographic information, but it is not possible to control the terminal to an optimal state for each user and each type of terminal. In addition, it is difficult for a person who manages the server to create information for controlling the terminal in an optimum state for each user and each type of terminal because a large amount of labor is required.

  Therefore, the present invention has been made in view of the above problems, and automatically creates a map including control information for controlling the terminal based on the terminal state information associated with the position information acquired from the terminal. It is an object of the present invention to provide a terminal control system, a terminal control method, and a program that can be created. In addition, a map including control information automatically created based on terminal state information associated with position information acquired from a terminal is obtained for each user and each terminal based on information on user attributes and information on terminal functions. An object of the present invention is to provide a terminal control system, a terminal control method, and a program for optimizing and controlling a terminal by an optimized map.

  The present invention proposes the following matters in order to solve the above problems. In addition, in order to make an understanding easy, although the code | symbol corresponding to embodiment of this invention is attached | subjected and demonstrated, it is not limited to this.

(1) The present invention provides a first terminal that provides information (for example, equivalent to the providing terminal 10 in FIG. 1) and a map server that creates a control information map based on the information (for example, the map server 100 in FIG. 1). ), A second terminal controlled based on the control information map (for example, equivalent to the use terminal 20 in FIG. 1), terminal identification information for specifying the second terminal, and the second A terminal management server (for example, equivalent to the terminal management server 400 in FIG. 14) that manages terminal attribute information that represents terminal attributes, user identification information for specifying a user of the second terminal, and the user attributes user management server (e.g., corresponding to the user management server 500 of FIG. 14) for managing the user attribute information representing a terminal control system comprising, a first terminal, the position information of the self and self Transmission means for transmitting the terminal state information of the first terminal to the map server, wherein the map server receives the position information of the first terminal and the terminal state information of the first terminal received from the first terminal. One or more predetermined areas are determined based on information storage means (for example, corresponding to the information storage unit 110 in FIG. 4) to be stored and the stored position information, and each predetermined position in the stored position information is determined. Based on the terminal state information associated with the position information included in the region, the terminal state information of each predetermined region is determined, and map information creating means (for example, associating the determined terminal state information with the predetermined region) 4 corresponds to the map information creation unit 120 in FIG. 4) and a predetermined region group associated therewith to create the control information map (for example, the map creation unit 130 in FIG. 4). And those), based on the user attribute information which is the the stored terminal attribute information and said storage, among the terminal state information with relation to the created control information map, the second terminal Selecting the terminal state information to be associated with a suitable control information map, and optimizing means for optimizing the control information map (for example, corresponding to the optimization unit 150 in FIG. 21) , the second terminal comprising: And a terminal control system characterized by comprising control means for performing control based on a control information map received from the map server.

According to this invention, the terminal management server manages terminal identification information for specifying the second terminal and terminal attribute information representing the attribute of the second terminal. The user management server manages user identification information for specifying a user of the second terminal and user attribute information representing a user attribute. The first terminal transmits its own location information and its own terminal state information to the map server. The information storage means of the map server stores the position information of the first terminal and the terminal state information of the first terminal received from the first terminal. The map information creating means of the map server determines one or more predetermined areas based on the stored position information, and the terminal state associated with the position information included in each predetermined area of the stored position information Terminal state information of each predetermined area is determined based on the information, and the determined terminal state information is associated with each predetermined area. The map creation means of the map server integrates the associated predetermined area group and creates a control information map. The optimization means of the map server is suitable for the second terminal among the terminal status information associated with the created control information map based on the stored terminal attribute information and the stored user attribute information. The terminal status information associated with the control information map is selected, and the control information map is optimized. The second terminal performs control based on the control information map received from the map server. Therefore, by creating a control information map optimized for each user and each terminal by optimizing a control information map including terminal control information based on information on user attributes and information on terminal functions Can do.

(2) In the terminal control system according to (1), the optimization unit is suitable for the second terminal based on the stored terminal attribute information and the stored user attribute information. A terminal control system is proposed in which rules for selecting terminal state information to be associated with the control information map are stored in advance, and the control information map is optimized according to the rules .

According to the present invention, the optimization means selects terminal state information associated with a control information map suitable for the second terminal based on the stored terminal attribute information and stored user attribute information. Rules are stored in advance, and the control information map is optimized according to the rules. Therefore, terminal control information to be included in the control information map can be determined for each user and for each terminal according to a preset rule.

(3) In the terminal control system according to (2), when the terminal state information is a communication strength for each communication method, the rule determines a priority order of communication methods associated with the control information map. A terminal control system including a rule, wherein the optimization means optimizes the control information map by associating a communication method having a low priority with a communication method having a high priority. ing.

According to this invention, the optimization means refers to the rule for determining the priority of the communication method associated with the control information map, and associates the communication method with the lower priority under the communication method with the higher priority, thereby controlling the communication method. Optimize the information map. Therefore, by assigning priorities to the communication methods associated with the control information map, the communication method used by the terminal can be determined according to the priorities.

(4) In the terminal control system according to (1) to (3) , the present invention uses the first terminal according to the number of times the first terminal provides the terminal state information to the map server. A terminal control system is proposed that includes a discount calculation means (for example, equivalent to the discount calculation unit 160 in FIG. 27) for calculating a discount amount for a fee .

According to the present invention, the discount calculation means calculates a discount amount for the usage fee of the first terminal according to the number of times the first terminal has provided the terminal state information to the map server. Therefore, the terminal usage fee can be discounted according to the degree of contribution to the terminal user who has provided the information necessary to create the control information map (terminal state information associated with location information) The number of terminals that provide information necessary to create an information map can be increased.

(5) In the terminal control system according to (1) to (4), when the terminal state information is state change information that identifies a state change of the terminal based on a user operation of the first terminal, The transmission means of the first terminal transmits the state change information and its own terminal identification information to a third terminal using an ad hoc network, and the third terminal is based on the received state change information. A terminal control system that transmits the state change information, the first terminal, and its own terminal identification information to the map server when the state of the terminal is changed . .

According to this invention, the transmission means of the first terminal uses the ad hoc network and transmits the state change information and its own terminal identification information to the third terminal. When the third terminal changes the state of its own terminal based on the received state change information, the third terminal transmits the state change information and the first terminal and its own terminal identification information to the map server. Therefore, it is possible to automatically increase the number of terminals that transmit state change information that specifies the state change of the terminal to the map server, and to create a control information map with higher accuracy.

(6) The present invention relates to the terminal control system according to (1) to (5), wherein the terminal status information is used to identify a communication strength for each communication method and an application activated on the first terminal. It is at least one of application identification information, mode identification information for specifying an operation mode of the first terminal, and content identification information for specifying content displayed on the first terminal. A terminal control system is proposed.

According to the present invention, the terminal state information includes the communication strength for each communication method, the application identification information for specifying the application activated on the first terminal, and the operation mode of the first terminal. It is at least one of mode identification information and content identification information for specifying the content displayed on the first terminal. Therefore, the terminal control information about the communication method, application, operation mode, and content can be included in the control information map, and the communication method, application, operation mode of the terminal according to the location information of the terminal for each user and each terminal. , And control related to the content.

(7) In the terminal control system according to (1) to (6), the present invention refers to the received control information map based on its own position information when the second terminal performs communication, and performs communication. A terminal control system characterized by determining a method is proposed.

According to the present invention, when the second terminal performs communication, the received control information map is referred to based on its own position information to determine the communication method. Therefore, the 2nd terminal can communicate by the optimal communication method by determining a communication method based on a control information map.

(8) The present invention relates to the terminal control system according to (1) to (7), wherein the second terminal refers to the received control information map based on its own position information at a predetermined timing, A terminal control system that optimally arranges applications displayed by a second terminal is proposed.

According to this invention, the second terminal refers to the received control information map based on its own position information at a predetermined timing, and performs optimal arrangement of applications displayed by the second terminal. Therefore, the second terminal can prompt the user of the second terminal to select the optimum application by performing the optimal arrangement of the applications displayed based on the position information and the control information map of the second terminal.

(9) The present invention provides a first terminal that provides information, a map server that creates a control information map based on the information, a second terminal that is controlled based on the control information map, and the second terminal A terminal management server that manages terminal identification information for identifying a terminal and terminal attribute information representing an attribute of the second terminal; and user identification information for identifying a user of the second terminal and the user's A terminal control method in a terminal control system comprising a user management server that manages user attribute information representing attributes, wherein the first terminal transmits its own location information and its own terminal status information to the map server And a second step in which the map server stores the location information of the first terminal and the terminal status information of the first terminal received from the first terminal. And the map server determines one or more predetermined areas based on the stored position information, and the terminal associated with the position information included in each predetermined area of the stored position information A third step (for example, S101 to S108 in FIG. 13) of determining terminal state information of each predetermined area based on the state information and associating the determined terminal state information with each predetermined area; and the map server Is a fourth step (for example, S109 in FIG. 13) of integrating the associated predetermined area group and creating the control information map, and the map server is configured to store the stored terminal attribute information and the stored Out of the terminal state information associated with the control information map created in the fourth step based on the user attribute information being A fifth step of selecting the terminal state information to be associated with a suitable control information map and optimizing the control information map, and the second terminal controlling based on the control information map received from the map server The terminal control method characterized by including the 6th step which performs is proposed.

According to this invention, the terminal management server manages terminal identification information for specifying the second terminal and terminal attribute information representing the attribute of the second terminal. The user management server manages user identification information for specifying a user of the second terminal and user attribute information representing a user attribute. The first terminal transmits its own location information and its own terminal state information to the map server. The map server stores the location information of the first terminal and the terminal state information of the first terminal received from the first terminal. The map server determines one or more predetermined regions based on the stored location information, and each of the location information based on the terminal status information associated with the location information included in each predetermined region of the stored location information Terminal state information of a predetermined area is determined, and the determined terminal state information is associated with each predetermined area. Next, the map server integrates the associated predetermined area group and creates a control information map. Based on the stored terminal attribute information and the stored user attribute information, the terminal state information associated with the created control information map is associated with the control information map suitable for the second terminal. Select terminal state information and optimize the control information map. The second terminal performs control based on the control information map received from the map server. Therefore, by creating a control information map optimized for each user and each terminal by optimizing a control information map including terminal control information based on information on user attributes and information on terminal functions Can do.

(10) The present invention provides a first terminal that provides information, a map server that creates a control information map based on the information, a second terminal that is controlled based on the control information map, and the second terminal A terminal management server for managing terminal identification information for identifying the terminal and terminal attribute information representing the attribute of the second terminal, and user identification information for identifying the user of the second terminal and the attribute of the user A computer program for causing a computer to execute a terminal control method in a terminal control system including a user management server that manages user attribute information that represents the position information of the first terminal and the terminal state information of the first terminal. The first step of transmitting the first terminal to the map server, and the location information of the first terminal received from the first terminal by the map server and the first A second step of storing terminal state information at the end, and the map server determines one or more predetermined areas based on the stored position information, and each predetermined position of the stored position information A third step (for example, determining terminal state information of each predetermined area based on the terminal state information associated with position information included in the area and associating the determined terminal state information with the predetermined area (for example, , S101 to S108 in FIG. 13, and a fourth step (for example, S109 in FIG. 13) in which the map server integrates the associated predetermined area group to create the control information map, and the map server In association with the control information map created in the fourth step based on the stored terminal attribute information and the stored user attribute information Selecting the terminal status information associated with the control information map suitable for the second terminal from among the terminal status information, and optimizing the control information map; and A program for causing a computer to execute a sixth step of performing control based on a control information map received from the map server is proposed.

According to this invention, the terminal management server manages terminal identification information for specifying the second terminal and terminal attribute information representing the attribute of the second terminal. The user management server manages user identification information for specifying a user of the second terminal and user attribute information representing a user attribute. The first terminal transmits its own location information and its own terminal state information to the map server. The map server stores the location information of the first terminal and the terminal state information of the first terminal received from the first terminal. The map server determines one or more predetermined regions based on the stored location information, and each of the location information based on the terminal status information associated with the location information included in each predetermined region of the stored location information Terminal state information of a predetermined area is determined, and the determined terminal state information is associated with each predetermined area. Next, the map server integrates the associated predetermined area group and creates a control information map. Based on the stored terminal attribute information and the stored user attribute information, the terminal state information associated with the created control information map is associated with the control information map suitable for the second terminal. Select terminal state information and optimize the control information map. The second terminal performs control based on the control information map received from the map server. Therefore, by creating a control information map optimized for each user and each terminal by optimizing a control information map including terminal control information based on information on user attributes and information on terminal functions Can do.

  According to the present invention, there is an effect that the terminal can be controlled by the terminal control information associated with the position information automatically created based on the terminal state information at the terminal position acquired from the terminal. In addition, terminal control information associated with the position information automatically created based on the terminal state information at the terminal position acquired from the terminal is changed for each user or each terminal according to the information regarding the user attribute or the information regarding the function of the terminal. The terminal can be controlled by the terminal control information associated with the optimized position information.

It is a figure which shows the structure of the terminal control system which concerns on 1st Embodiment. It is a figure which shows the acquisition method of the provision terminal which concerns on 1st Embodiment. It is a figure which shows an example of the application display of the utilization terminal which concerns on 1st Embodiment. It is a figure which shows the structure of the map server which concerns on 1st Embodiment. It is a figure which shows an example of the communication information table which concerns on 1st Embodiment. It is a figure which shows an example of the state change information table which concerns on 1st Embodiment. It is a figure which shows an example of the advertisement information table which concerns on 1st Embodiment. It is an image figure of the area | region creation method concerning 1st Embodiment. It is an image figure of the calculation method of the communication strength of the area | region which concerns on 1st Embodiment. It is an example of the area | region characteristic information showing the characteristic of each area | region produced | generated by the area | region characteristic information generation part which concerns on 1st Embodiment. It is a figure which shows an example of the control information map which concerns on 1st Embodiment. It is a figure which shows the merge method of the control information map which concerns on 1st Embodiment. It is a processing flow of the terminal control system which concerns on 1st Embodiment. It is a figure which shows the structure of the terminal control system which concerns on 2nd Embodiment. It is a figure which shows an example of a data structure of the terminal management memory | storage part which concerns on 2nd Embodiment. It is a figure which shows the example of an advertisement level setting which concerns on 2nd Embodiment. It is a figure which shows the example of a communication level setting which concerns on 2nd Embodiment. It is a figure which shows an example of the device structure information of the mobile telephone which concerns on 2nd Embodiment. It is a figure which shows the determination rule of each ID required for determination of terminal ID which concerns on 2nd Embodiment. It is a figure which shows an example of a data structure of the user management memory | storage part which concerns on 2nd Embodiment. It is a figure which shows the structure of the map server which concerns on 2nd Embodiment. It is a figure which shows an example of the communication quality determination rule which concerns on 2nd Embodiment. It is a figure which shows an example of the communication determination rule which concerns on 2nd Embodiment. It is a figure which shows an example of the advertisement determination rule which concerns on 2nd Embodiment. It is a figure which shows the optimized control information map which concerns on 2nd Embodiment. It is a figure which shows the terminal control system which concerns on 3rd Embodiment. It is a figure which shows the structure of the map server which concerns on 3rd Embodiment. It is a figure which shows an example of the data structure of the contribution information table which concerns on 3rd Embodiment.

  Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings. Note that the constituent elements in the present embodiment can be appropriately replaced with existing constituent elements, and various variations including combinations with other existing constituent elements are possible. Therefore, the description of the present embodiment does not limit the contents of the invention described in the claims.

<First Embodiment>
Hereinafter, the first embodiment of the present invention will be described with reference to FIGS.

<Configuration of terminal control system>
FIG. 1 is a diagram illustrating a configuration of a terminal control system 1 according to the first embodiment. The terminal control system 1 according to the first embodiment includes a providing terminal 10, a map server 100, and a use terminal 20, as shown in FIG. The providing terminal 10 and the map server 100, and the use terminal 20 and the map server 100 are connected to each other via a network.

  In the first embodiment, the providing terminal 10 and the using terminal 20 are mobile phones, but the providing terminal 10 and the using terminal 20 only have to have a communication function. For example, PHS, PDA, PC, game machine It may be. Further, in FIG. 1, for convenience of explanation, the providing terminal 10 and the using terminal 20 are separately illustrated, but either terminal may be the providing terminal 10 or the using terminal 20 depending on the use state of the user. it can.

  The providing terminal 10 acquires position information and its own terminal state information. In the first embodiment, the position information is latitude and longitude, and is acquired by a current position acquisition function such as a global positioning system (GPS = Global Positioning System) provided in the providing terminal 10.

  The terminal state information is information indicating the state of the terminal. The communication strength for each communication method, the application ID that identifies the activated application, the mode ID that identifies the changed mode, and the service ID that identifies the service used by the user The content ID for specifying the content viewed by the user. Note that communication methods include, for example, WiFi, 3G, and WiMAX.

  The providing terminal 10 periodically acquires the communication strength (hereinafter referred to as communication information) for each communication method at the position together with the position information. The communication information is acquired by a communication strength measurement function provided in the providing terminal 10. It should be noted that a location information and communication information is periodically acquired in an application having other uses such as a game, and a program to be transmitted to the map server 100 is incorporated, and the location information and communication information are periodically updated when the application is activated. It may be made possible to obtain it. The providing terminal 10 may acquire the time together with the position information when acquiring the communication strength for each communication method at the position.

  When the application is activated in response to a user operation, the providing terminal 10 acquires an application ID for specifying the activated application together with its own location information. Similarly, when the mode is changed according to the operation of the user, when the user uses the service, and when the user views the content, the providing terminal 10 also specifies information (mode) for identifying each of them along with its own location information. ID, service ID, and content ID). Hereinafter, the application ID, the mode ID, the service ID, and the content ID acquired together with the position information are referred to as state change information. The providing terminal 10 may acquire the time when acquiring the state change information together with the position information.

  The providing terminal 10 transmits the combination of the acquired position information and its own terminal state information to the map server 100. Specifically, the providing terminal 10 transmits the combination of the acquired position information and communication information and the combination of the acquired position information and state change information to the map server 100 in association with each other. The providing terminal 10 may transmit the terminal state information to the map server 100 every time it acquires the terminal state information, or may acquire several pieces of terminal state information and then transmit them together to the map server 100.

  The providing terminal 10 transmits information related to the advertisement set by the user to the map server 100. Specifically, the providing terminal 10 provides a setting screen for setting information related to the advertisement to the user, and transmits information related to the advertisement input on the setting screen to the map server 100. Information related to advertisements includes advertisement information for identifying advertisements (for example, URL of advertisements), information to be browsed for identifying advertisement viewing targets (for example, age and gender), and position information of advertisement display areas. (For example, longitude / latitude), advertisement browsing period, advertisement browsing count, and the like.

  Here, the providing terminal 10 is a terminal of a user who has approved the acquisition of the position information of the own terminal and the terminal state information of the own terminal. In addition, the providing terminal 10 uses a wireless LAN ad-hoc mode communication (hereinafter referred to as ad-hoc communication) to obtain the terminal other than the user who has approved the acquisition of the position information of the own terminal and the terminal state information of the own terminal. Can also be used as the providing terminal 10. Thereby, the number of providing terminals 10 can be automatically increased, and a lot of information can be collected in the map server 100.

  FIG. 2 is a diagram illustrating a method for acquiring the providing terminal 10 according to the first embodiment. The terminal 10 is the providing terminal 10, that is, a terminal of a user who has approved the acquisition of the position information of the own terminal and the terminal state information of the own terminal. The terminal 11-A and the terminal 11-B (hereinafter, both are referred to as the terminal 11) are terminals other than the user who has approved the acquisition of the position information of the own terminal and the terminal state information of the own terminal.

  In response to the activation of the application, the terminal 11 transmits a terminal ID and an application ID that identify itself to the terminal 11 using ad hoc communication. Note that the terminal 11 can also transmit a mode ID or the like in response to the mode being changed according to a user operation.

  The terminal 11 outputs an inquiry notification as to whether to start the application acquired based on the received application ID. Note that the terminal 11 can receive application IDs from a plurality of terminals, and may output an inquiry notification when the number of receptions exceeds the threshold set in the terminal 11 in advance.

  The terminal 11 transmits its own location information, the application ID of the started application, the terminal 10 and its own terminal ID to the map server 100 in response to the activation of the application with the received application ID by the user.

  The terminal 11 can also transmit the application ID to another terminal using ad hoc communication.

  Returning to FIG. 1, the map server 100 receives and accumulates a combination of position information and terminal state information of the providing terminal 10 from the providing terminal 10. Specifically, the map server 100 receives from the providing terminal 10 the information on the combination of position information and communication information, the combination of the position information and state change information, and the advertisement from the providing terminal 10 and accumulates the information. The map server 100 creates a control information map based on the accumulated position information and communication information, position information and state change information, and information related to the advertisement, and transmits the control information map to the use terminal 20. The map server 100 may transmit the created control information map to the user terminal 20 on a regular basis or may transmit it in response to a request from the user terminal 20.

  The user terminal 20 receives the control information map from the map server 100 and holds it. The use terminal 20 acquires its own position information according to a predetermined timing, compares it with the held control information map, and changes its own state. The predetermined timing includes a communication start request timing from the user, a timing when the use terminal 20 returns from the sleep state or the hibernation state, a timing when a certain time has passed, a timing when the use terminal 20 moves a certain distance, and the like.

  When performing communication, the use terminal 20 refers to the control information map based on its own position information acquired by GPS or the like, and determines the communication method. Further, when the use terminal 20 returns from the sleep state, the use terminal 20 refers to the control information map based on its own position information acquired by GPS or the like, and performs optimal arrangement of applications to be displayed on the use terminal 20.

  FIG. 3 is an example of an application display of the usage terminal 20 according to the first embodiment. In accordance with the control information map, in order to notify the user of an application suitable for each place (place A, place B), the use terminal 20 displays the optimally arranged application. When the applications suitable for the place are displayed on the use terminal 20 in the optimum order, the applications can be displayed from the top in the optimum order as shown in the figure. In the example shown in the figure, route search is the optimal application at location A, and the browser is optimal at location B.

  FIG. 4 is a diagram illustrating a configuration of the map server 100 according to the first embodiment. The map server 100 includes an information storage unit 110, a map information creation unit 120, a map creation unit 130, and a map storage unit 140.

  The information storage unit 110 stores position information and communication information received from the providing terminal 10, position information and state change information, and information related to advertisements. The information storage unit 110 includes a communication information table 111 that stores position information and communication information, a state change information table 112 that stores position information and state change information, and an advertisement information table 113 that stores information related to advertisement information. Further, when the information storage unit 110 transmits the information stored in the map information creation unit 120, the information storage unit 110 deletes the information transmitted to the map information creation unit 120.

  FIG. 5 is a diagram illustrating an example of the communication information table 111 according to the first embodiment. The communication information table 111 includes “latitude” and “longitude” indicating position information, “communication intensity for each communication method (in this embodiment, the communication methods are WiFi, 3G, and WiMAX)”, and position information. It is composed of a “time stamp” indicating the time at which the message is acquired.

  FIG. 6 is a diagram illustrating an example of the state change information table 112 according to the first embodiment. The state change information table 112 includes “latitude” and “longitude” indicating position information, “application ID”, “mode ID”, “service ID”, and “content ID” indicating state change information. However, in FIG. 6 and FIG. 10 described later, an application name, a mode name, a service name, and a content name are displayed instead of the ID for easy understanding. Note that at least one of an application ID, a mode ID, a service ID, and a content ID may be stored for the position information. In the case of the state change information acquired using ad hoc communication, the state change information table 112 may acquire and store the number of terminals that have passed from the providing terminal 10. A “time stamp” indicating the time when the position information is acquired may be stored.

  FIG. 7 is a diagram illustrating an example of the advertisement information table 113 according to the first embodiment. The advertisement information table 113 includes “advertisement information” for specifying an advertisement, “viewing object” indicating an advertisement browsing target, “longitude” and “latitude” indicating position information, and a range for viewing the advertisement as “ “Target range”, “Browsing period” indicating a period during which an advertisement can be browsed, and “Browse count” indicating the number of times an advertisement can be browsed. Note that information other than advertisement information and position information may not be stored.

  Returning to FIG. 4, the map information creation unit 120 includes a control unit 121, a spot creation unit 122, a communication region determination unit 123, a communication method determination unit 124, a state change region determination unit 125, and a region feature information generation unit 126. Based on the information in each table of the information storage unit 110, an area is created, and terminal status information is associated with the created area.

  The control unit 121 transmits information acquired from the communication information table 111 of the information storage unit 110 to the spot creation unit 122 at a preset timing. In addition, the control unit 121 transmits information acquired from the state change information table 112 of the information storage unit 110 to the state change region determination unit 125. The preset timing may be a timing after a certain time has elapsed, or may be a timing when the amount of information in the information storage unit 110 becomes equal to or greater than a threshold value.

  The point creation unit 122 creates a point necessary for determining a region in the communication region determination unit 123 based on the position information in the communication information table 111 of the information storage unit 110.

  FIG. 8 is an image diagram of the region creation method according to the first embodiment. In FIG. 8, black points are points based on position information stored in the communication information table 111, and white points are points created by the point creation unit 122. The point creation method will be described with reference to FIG.

  The spot creation unit 122 first selects adjacent black spots 200 and 201, and determines whether or not the distance between the two selected black spots 200 and 201 is greater than or equal to a threshold value. The smaller the threshold value, the smaller the area created by the communication area determining unit 123.

  The spot creation unit 122 creates a new spot (white spot) 210 in the middle between the two selected black spots 200 and 201 when the distance between the two selected black spots 200 and 201 is greater than or equal to the threshold value. The white spot 210 has the average value of the position information and communication information of the two black spots 200 and 201 as its own position information and communication information.

  Returning to FIG. 4, the point creation unit 122 performs the above-described processing for all points based on the position information stored in the communication information table 111, and creates points necessary for determining a region in the communication region determination unit 123. To do.

  The communication area determination unit 123 creates an area based on the location based on the location information stored in the communication information table 111 and the location created by the location creation unit 122. A method for creating an area will be described with reference to FIG.

  The communication area determination unit 123 selects and selects three points 200, 210, and 211 that are arbitrarily adjacent to each other from the points based on the position information stored in the communication information table 111 and the points created by the point creation unit 122. A portion surrounded by a straight line connecting the three points 200, 210, and 211 is defined as one region 220. Subsequently, three adjacent points 201, 210, and 211 are selected in the same manner, and a portion surrounded by a straight line connecting the selected three points 201, 210, and 211 is defined as one region 221. In this way, the communication area determination unit 123 performs the above-described processing for all the points based on the position information stored in the communication information table 111 and the points created by the point creation unit 122.

  The communication method determination unit 124 determines the communication method of the region based on the three points of communication information that constitutes the region created by the communication region determination unit 123, and associates the communication method with the region.

  FIG. 9 is an image diagram of a method for calculating the communication strength of a region according to the first embodiment. FIG. 9A is a diagram showing the area 220 created by the communication area determining unit 123. FIG. 9B shows the position information and communication information of three points surrounding the area 220. In this description, the communication information is assumed to be WiFi, 3G, and WiMAX communication strength. This information is stored in the communication information table 111. FIG. 9C shows the communication information of the area 220 calculated by the communication method determination unit 124. A method for calculating the communication strength of the area will be described with reference to FIG.

  The communication method determination unit 124 calculates the average value of the communication information (shown in FIG. 9B) of the three points 200, 210, and 211 surrounding the region 220 shown in FIG. c)). The communication method determination unit 124 determines 3G having the strongest communication strength as the communication method in the area, and associates the determined communication method 3G with the area 220. Communication information may be associated with the area.

  Returning to FIG. 4, the state change area determination unit 125 uses the position information and the state change information stored in the state change information table 112 as a target, based on the position information and the state change information. Class. At this time, the cluster algorithm is applied using the number of points based on the position information stored in the state change information table 112 and the density of the points. The clustering algorithm includes various methods such as a k-means method and PLSI (Probabilistic Lent Semantic Indexing), and any method can be used. And the state change area | region determination part 125 determines one or more area | regions based on the positional information on the point contained in each cluster, ie, so that all the points contained in each cluster may be included.

  Further, the state change area determination unit 125 determines one or more areas based on the position information and the target range stored in the advertisement information table 113. Note that the state change area determination unit 125 may determine one or more areas using the clustering algorithm for the position information, the advertisement information, and the like stored in the advertisement information table 113.

  The region feature information generation unit 126 generates region feature information representing the features of each region based on the state change information of each region (that is, each cluster) created by the state change region determination unit 125. Then, the region feature information generation unit 126 associates the region feature information with each region created by the state change region determination unit 125.

  FIG. 10 is an example of region feature information representing the feature of each region generated by the region feature information generation unit 126 according to the first embodiment. The area feature information includes “latitude” and “longitude” indicating position information of the center of the area, “mode ID” and “application ID”, “time stamp”, and “number of people” as state change information. The number of persons is the number of position information or state change information included in the cluster created by the state change area determination unit 125, and indicates the number of persons using the route search application in an area centered on latitude 42 ° longitude 135 °. Represent. Note that the area feature information may include a service ID and a content ID that configure the state change information table 112.

  Further, the region feature information generation unit 126 generates region feature information representing the features of each region based on the advertisement information of each region (that is, each cluster), and each region created by the state change region determination unit 125 Associate region feature information. Note that the region feature information generation unit 126 may select a region having region feature information that is equal to or greater than the threshold and associate state change information with the selected region.

  The map creation unit 130 integrates the region associated with the communication method acquired from the communication method determination unit 124 and the region associated with the region feature information acquired from the region feature information generation unit 126 to create a control information map.

  FIG. 11 is a diagram illustrating an example of a control information map according to the first embodiment. FIG. 11A is an example of a control information map related to a communication method. A plurality of areas created by the communication area determining unit 123 are integrated by the map creating unit 130 to create a control information map shown in FIG. In the figure, the difference in the communication method associated with the area is represented by the difference in the hatching of the area.

  FIG. 11B is a diagram illustrating an example of a control information map related to a communication method and state change information. The circular area on the control information map is an area created by the state change area determining unit 125, and the map creating unit 130 integrates them into the control information map shown in FIG. The control information map shown in FIG.

  Returning to FIG. 4, the map creation unit 130 also merges the created control information map with the control information map stored in the map storage unit 140 to recreate the control information map.

  When a time stamp is associated with each area constituting the control information map, the map creation unit 130 creates a time stamp in each area of the created control information map and the control information map stored in the map storage unit 140. Compare The map creation unit 130 merges the created control information map and the control information map stored in the map storage unit 140 by prioritizing the terminal status information with a new time stamp, and recreates the control information map.

  FIG. 12 is a diagram illustrating a control information map merging method according to the first embodiment. FIG. 12A is a control information map stored in the map storage unit 140. FIG. 12B is a control information map created by the map creation unit 130. FIG. 12C shows the control information newly created by superimposing the control information map (a) stored in the map storage unit 140 and the control information map (b) created by the map creation unit 130. It is a map. For example, when the time stamp of the area 300 in FIG. 12A is set to 12:00 and the time stamp of the area 301 in FIG. 12B is set to 10:00, the map creating unit 130 creates a new time stamp. The terminal state information in the area 301 in (b) is prioritized and used as the terminal state information in the area 302 in FIG. The map creation unit 130 performs this process for each region, and creates a control information map FIG. 12C in which terminal status information with a new time stamp is prioritized.

  Returning to FIG. 4, when communication information is associated with each area constituting the control information map, the map creation unit 130 creates the control information map stored in the created control information map and the map storage unit 140. The communication information is weighted for each area constituting each, and then weighted and averaged, a communication method is determined based on the output value, and the determined communication method is associated with the area. This process is performed for each region, and the created control information map and the control information map stored in the map storage unit 140 are merged to recreate the control information map.

  The map storage unit 140 stores the control information map created by the map creation unit 130. The map storage unit 140 stores a control information map prepared in advance.

<Processing of display system>
FIG. 13 is a processing flow of the terminal control system according to the first embodiment. The information storage unit 110 of the map server 100 stores a combination of position information and terminal state information received from the providing terminal 10.

  In step (hereinafter simply referred to as S) 101, control unit 121 acquires information from communication information table 111 and state change information table 112 of information storage unit 110 at a preset timing.

  In S <b> 102, the control unit 121 determines whether the acquired information is information in the communication information table 111.

  In S103, the spot creation unit 122 receives the information in the communication information table 111 from the control unit 121, and creates a new spot necessary to determine the area based on the spot of the location information included in the received information. To do.

  In S104, the communication area determination unit 123 creates an area based on the location based on the position information included in the information received from the control unit 121 and the new location created in S103.

  In S105, the communication method determination unit 124 determines a communication method for each area created in S104 and associates it with the area.

  In S106, the state change area determination unit 125 receives the information of the state change information table 112 from the control unit 121, and based on the position information and the state change information included in the received information, the one or more areas are determined by the clustering algorithm. decide.

  In S107, the region feature information generation unit 126 generates region feature information representing the features of each region based on the state change information included in each region for each region created in S106, and associates it with each region. Note that the number of pieces of position information created by the state change region determination unit 125 and included in each region is included in the region feature information as the number of people using the state change information.

  In S108, an area having area feature information that is the number of persons equal to or greater than the threshold is selected, and state change information is associated with the selected area.

  In S109, the map creating unit 130 creates a control information map by integrating the region associated with the communication method in S105 and the region associated with the state change information in S108.

  In S110, the map creation unit 130 merges the created control information map with the control information map stored in the map storage unit 140, and recreates the control information map.

  In S111, the map creation unit 130 stores the map created in S110 in the map storage unit 140.

  In S112, the map creation unit 130 transmits the map created in S110 to the use terminal 20. Note that the order of steps S111 and S112 may be reversed.

  As described above, according to the first embodiment, terminal state information (communication information and state change information) associated with position information necessary to create a control information map from the providing terminal 10 is acquired. Thus, based on the terminal state information associated with the position information acquired from the providing terminal 10, a control information map including the terminal control information can be automatically created. In addition, it is possible to automatically increase the number of providing terminals 10 that transmit state change information specifying the state change of the providing terminal 10 to the map server 100 using ad hoc communication, and create a control information map with higher accuracy. Can do.

<Second Embodiment>
A second embodiment of the present invention will be described with reference to FIGS. The terminal control system 2 of the second embodiment is the same as that of the first embodiment except that a terminal management server 400 and a user management server 500 are added, and an optimization unit 150 is added to the map server 100. I am doing. Therefore, parts having the same functions as those of the first embodiment described above are denoted by the same reference numerals, and redundant description is omitted as appropriate.

  FIG. 14 is a diagram illustrating a configuration of the terminal control system 2 according to the second embodiment. The terminal control system 2 according to the second embodiment is different in that it further includes a terminal management server 400 and a user management server 500.

  The terminal management server 400 includes a terminal management storage unit, and manages terminal information of the use terminal 20. FIG. 15 shows an example of the data configuration of the terminal management storage unit according to the second embodiment. As shown in the figure, the terminal management storage unit stores a “terminal ID” for specifying the use terminal 20 and an “advertisement level” and a “communication level” indicating attribute information of the use terminal 20.

  The advertisement level is a numerical value indicating how much advertisement received by the user of the use terminal 20 is allowed. The higher the numerical value, the more advertisements are rejected. FIG. 16 is a diagram illustrating an advertisement level setting example according to the second embodiment. As shown in the figure, the advertisement level indicates how much advertisements the user can receive by setting the conditions of the advertisements that can be received (whether or not to receive advertisements for individuals and advertisements for all). be able to.

  The communication level is a numerical value indicating the communication quality requested by the user of the use terminal 20, and a communication method with a higher communication quality can be preferentially used for a terminal having a higher numerical value. FIG. 17 is a diagram illustrating a communication level setting example according to the second embodiment. As shown in the figure, the communication level can represent the communication quality requested by the user by setting the priority of the communication method.

  Here, a method for determining the terminal ID will be described. The terminal ID is determined by the device configuration. FIG. 18 is an example of device configuration information of the mobile phone according to the second embodiment. A method for determining a terminal ID will be described using a mobile phone having device configuration information shown in FIG. 18 (hereinafter referred to as mobile phone A) as an example. First, a platform ID (hereinafter referred to as PFID), which is information for specifying a part standardized by the terminal, is determined. FIG. 19 is a diagram illustrating rules for determining each ID necessary for determining a terminal ID according to the second embodiment. FIG. 19A shows a PFID determination rule. According to this rule, the PFID of the mobile phone A is “0”.

  Next, a detail ID (hereinafter referred to as DID), which is information for specifying a part that is not standardized by the terminal, is determined. The DID is obtained by connecting WiFi, WiMAX, Ethernet (registered trademark), SIM, keyboard and acceleration sensor presence / absence information (1 if present, 0 if not present) and screen size in this order. Therefore, the DID of the mobile phone A is “11011132048”.

  Then, a binary ID (hereinafter referred to as a BID), which is information for specifying a portion that affects the binary, is determined. The BID is determined by the CPU type and OS version. FIG. 19B shows a rule for determining the BID. According to this rule, the BID of the mobile phone A is “002”.

  Finally, a unique ID (hereinafter referred to as UID), which is information for specifying the terminal, is determined. The UID is created by connecting the hash values of the SIM, Mac address, and Bluetooth address. FIG. 19C shows the UID obtained from the SIM, Mac address, Bluetooth address, and hash value of the mobile phone A.

  The PFID, DID, BID, and UID obtained in this way are connected in this order to obtain a terminal ID. Therefore, the terminal ID of the mobile phone A is “01101113204800212345678890456456789”. Thus, by creating the terminal ID, the terminal configuration can be known from the terminal ID. The application ID can be similarly determined.

  Returning to FIG. 14, the user management server 500 includes a user management storage unit, and manages user information of the user of the usage terminal 20. FIG. 20 shows an example of the data configuration of the user management storage unit according to the second embodiment. As shown in the figure, in the user management storage unit, a user ID for identifying a user, a terminal ID indicating a terminal owned by the user, a profile indicating a user attribute, and a user owning a plurality of terminals In addition, a packet indicating whether or not the upper limit packet for the entire terminal is determined is stored.

  FIG. 21 is a diagram illustrating a configuration of the map server 100 according to the second embodiment. The map server 100 further includes an optimization unit 150.

  The optimization unit 150 receives the terminal ID, the advertisement level, and the communication level from the terminal management server 400. Further, the optimization unit 150 receives the profile and packet information from the user management server 500 based on the terminal ID. Then, the optimization unit 150 refers to the rules held based on the information received from the terminal management server 400 and the user management server 500, and optimizes the control information map, that is, optimizes the information associated with the control information map. To do.

  First, optimization of the communication method associated with the control information map will be described. The optimization unit 150 refers to the communication quality determination rule based on the type of terminal specified from the terminal ID received from the terminal management server 400 and the packet information of the user management server 500, and optimizes communication for the user terminal 20 Select a decision rule. FIG. 22 is a diagram illustrating an example of a communication quality determination rule according to the second embodiment. In the case of the user ID “0000000001” shown in FIG. 20, the mobile phone is specified from the terminal ID shown in FIG. 15, and it can be specified from the packet information shown in FIG. 20 that the packet is not shared. The communication determination rule 1 is selected with reference to the communication quality determination rule.

  Next, the optimization unit 150 determines a communication pattern by referring to the communication determination rule based on the degree of congestion and the communication strength for each communication method for each area of the control information map. FIG. 23 is a diagram illustrating an example of a communication determination rule according to the second embodiment. When the degree of congestion is high and the strength of each communication method is high, the communication pattern 1 is selected with reference to the communication determination rule shown in FIG.

  Then, the optimization unit 150 refers to the communication pattern based on the communication level received from the terminal management server 400, and determines the communication system priority. In the communication pattern, communication system priorities are set for each communication level.

  Finally, the optimization unit 150 associates a communication method with a lower priority under a communication method with a higher priority and associates a communication method with the control information map according to the determined communication method priority.

  Next, optimization of advertisement information associated with the control information map will be described. The optimization unit 150 selects an advertisement optimal for the user of the user terminal 20 based on the advertisement level received from the terminal management server 400 and the profile received from the user management server 500. FIG. 24 is a diagram illustrating an example of an advertisement determination rule according to the second embodiment. In the case of the user ID “0000000002” and the terminal ID “111013604800254321098776543215432” shown in FIG. 20, the advertisement level is specified as 1 from the advertisement level shown in FIG. The optimization unit 150 refers to the advertisement determination rule of FIG. 24 and selects an advertisement for women in their 20s as an optimal advertisement.

  And the optimization part 150 deletes the advertising information of the advertisement which was not selected as an optimal advertisement among the advertising information linked | related with the control information map.

  FIG. 25 is a diagram illustrating an optimized control information map according to the second embodiment. FIGS. 25A and 25B are control information maps that are optimized by the optimization unit 150 based on the information of the user terminal 20 and its users from the same control information map. In this way, by being optimized by the optimization unit 150, a different control information map can be created for each use terminal 20.

  As described above, according to the second embodiment, by optimizing the control information map based on information on user attributes and information on terminal functions, control optimized for each user and each terminal is performed. An information map can be created.

<Third Embodiment>
A third embodiment of the present invention will be described with reference to FIGS. The terminal control system 3 of the third embodiment is the same as that of the first embodiment, except that a fee management server 600 is added and a contribution information table 114 and a discount calculation unit 160 are added to the map server 100. It has a form. Therefore, parts having the same functions as those of the first embodiment described above are denoted by the same reference numerals, and redundant description is omitted as appropriate.

  FIG. 26 is a diagram illustrating a terminal control system 3 according to the third embodiment. The terminal control system 3 according to the third embodiment is different in that a charge management server 600 is further provided. The fee management server 600 manages the usage fee for each terminal. The fee management server 600 includes a fee management storage unit, and stores a user ID, a terminal ID, and a terminal usage fee in association with each other. When the fee management server 600 receives the discount fee associated with the user ID from the map server 100, the fee management server 600 subtracts the discount fee from the terminal usage fee because it is stored in the fee management storage unit, and calculates the user's terminal usage fee. To do.

  FIG. 27 is a diagram illustrating a configuration of the map server 100 according to the third embodiment. The map server 100 further includes a discount calculation unit 160, and the information storage unit 110 further includes a contribution information table 114.

  The contribution information table 114 manages the number of times information is provided to the map server 100 for each user. FIG. 28 shows an example of the data configuration of the contribution information table 114 according to the third embodiment. As shown in the figure, the contribution information table includes a “user ID” that identifies a user who has provided information to the map server 100, a “new provision count” that indicates the number of times the user has newly provided information, The “total number of times of providing” indicating the number of times of providing information, the “number of times of other providing” indicating the number of times of providing information by another user, and the “number of times of setting advertisement” indicating the number of times the user has set an advertisement are stored. The new provision count is the number of times the user has provided information within a predetermined period. After the predetermined period, the value is reset to “0”.

  The discount calculation unit 160 acquires information from the contribution information table 114 and calculates a discount amount for each user. The discount amount is calculated periodically, for example, at the timing when the user's terminal usage fee is calculated. The discount amount is determined according to the contribution degree of the user of the providing terminal 10. For example, past information provision is 2 yen for each time, new information provision is 5 yen for each time, advertisement setting is 10 yen for each time, and other service is subtracted 0.1 yen for each time. Then, the user with the user ID “0000000001” can receive a discount of 100 × 2 + 20 × 5-0.1 × 1000 = 200 yen. Further, the discount calculation unit 160 transmits the calculated discount amount to the fee management server 600.

  As described above, according to the third embodiment, the terminal user who provided the information (terminal status information associated with the position information) necessary for creating the control information map is determined according to the degree of contribution. Thus, the terminal usage fee can be discounted, and the number of providing terminals 10 that provide information necessary for creating the control information map can be increased.

DESCRIPTION OF SYMBOLS 10 Provision terminal 20 Use terminal 100 Map server 110 Information storage part 120 Map information creation part 130 Map creation part 140 Map storage part 150 Optimization part 160 Discount calculation part

Claims (10)

A first terminal that provides information, a map server that creates a control information map based on the information, a second terminal controlled based on the control information map, and a terminal identification for identifying the second terminal A terminal management server for managing information and terminal attribute information representing the attribute of the second terminal, user identification information for identifying a user of the second terminal, and user attribute information representing the attribute of the user A terminal control system comprising a user management server for managing ,
The first terminal is
A transmission means for transmitting the location information and the terminal status information of the device to the map server;
The map server
Information storage means for storing the location information of the first terminal and the terminal status information of the first terminal received from the first terminal;
One or more predetermined areas are determined based on the stored position information, and each of the predetermined areas is stored based on the terminal status information associated with the position information included in each predetermined area. Map information creating means for determining terminal state information of a predetermined area and associating the determined terminal state information with each predetermined area;
Map creating means for integrating the associated predetermined area group and creating the control information map;
Control information suitable for the second terminal out of the terminal status information associated with the created control information map based on the stored terminal attribute information and the stored user attribute information Selecting the terminal state information to be associated with a map, and optimizing means for optimizing the control information map;
With
The second terminal is
A terminal control system comprising: control means for performing control based on a control information map received from the map server. The optimization means includes a rule for selecting terminal state information associated with a control information map suitable for the second terminal based on the stored terminal attribute information and the stored user attribute information. The terminal control system according to claim 1, wherein the terminal information is stored in advance and the control information map is optimized according to the rules. When the terminal state information is a communication strength for each communication method, the rule includes a rule for determining a priority of a communication method associated with the control information map,
The terminal control system according to claim 2, wherein the optimization unit optimizes the control information map by associating a communication method with a low priority with a communication method with a high priority. 2. The apparatus according to claim 1, further comprising discount calculation means for calculating a discount amount for the usage fee of the first terminal according to the number of times the first terminal has provided the terminal status information to the map server. 4. The terminal control system according to any one of items 1 to 3. When the terminal state information is state change information that identifies a state change of the terminal based on a user operation of the first terminal,
The transmission means of the first terminal uses an ad hoc network to transmit the state change information and its own terminal identification information to a third terminal,
The third terminal may change the state of its own terminal based on the received state change information.
5. The terminal control system according to claim 1, wherein the state change information, the first terminal, and its own terminal identification information are transmitted to the map server. The terminal status information includes communication strength for each communication method, application identification information for specifying an application activated on the first terminal, and mode identification information for specifying an operation mode of the first terminal. The terminal control system according to claim 1, wherein the terminal control system is at least one of content identification information for specifying content displayed on the first terminal. The communication method is determined by referring to the received control information map based on its own location information when the second terminal performs communication. Terminal control system. The second terminal refers to the received control information map based on its own position information at a predetermined timing, and optimally arranges applications displayed by the second terminal. The terminal control system according to any one of 1 to 7. A first terminal that provides information, a map server that creates a control information map based on the information, a second terminal controlled based on the control information map, and a terminal identification for identifying the second terminal A terminal management server for managing information and terminal attribute information representing the attribute of the second terminal, user identification information for identifying a user of the second terminal, and user attribute information representing the attribute of the user A terminal control method in a terminal control system including a user management server for managing,
A first step in which the first terminal transmits its location information and its terminal status information to the map server;
A second step in which the map server stores the location information of the first terminal and the terminal status information of the first terminal received from the first terminal;
The map server determines one or more predetermined areas based on the stored position information, and the terminal state information associated with the position information included in each predetermined area of the stored position information A third step of determining terminal state information of each predetermined area on the basis of, and associating the determined terminal state information with each predetermined area;
  A fourth step in which the map server integrates the associated predetermined area group and creates the control information map;
Of the terminal status information associated with the control information map created in the fourth step, the map server is based on the stored terminal attribute information and the stored user attribute information, Selecting the terminal state information associated with a control information map suitable for the second terminal and optimizing the control information map;
A terminal control method comprising: a sixth step in which the second terminal performs control based on a control information map received from the map server. A first terminal that provides information, a map server that creates a control information map based on the information, a second terminal controlled based on the control information map, and a terminal identification for identifying the second terminal A terminal management server for managing information and terminal attribute information representing the attribute of the second terminal, user identification information for identifying a user of the second terminal, and user attribute information representing the attribute of the user A program for causing a computer to execute a terminal control method in a terminal control system including a user management server for management,
A first step in which the first terminal transmits its location information and its terminal status information to the map server;
A second step in which the map server stores the location information of the first terminal and the terminal status information of the first terminal received from the first terminal;
The map server determines one or more predetermined areas based on the stored position information, and the terminal state information associated with the position information included in each predetermined area of the stored position information A third step of determining terminal state information of each predetermined area on the basis of, and associating the determined terminal state information with each predetermined area;
A fourth step in which the map server integrates the associated predetermined area group and creates the control information map;
Of the terminal status information associated with the control information map created in the fourth step, the map server is based on the stored terminal attribute information and the stored user attribute information, Selecting the terminal state information associated with a control information map suitable for the second terminal and optimizing the control information map;
A sixth step in which the second terminal performs control based on the control information map received from the map server;
For running a computer on a computer

Images