JP5356440B2 - Information distribution system, server, information distribution method, and program - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an information distribution system which can reduce server load and achieve more efficient server processes. <P>SOLUTION: In an information distribution system of the present embodiment, a portable terminal carried by a user is connected via a network with a server which transmits data information to the portable terminal. The portable terminal includes: a terminal status information acquisition section which acquires terminal status information; and a terminal status information transmission section which transmits the terminal status information to the server. The server includes: a terminal status information reception section which receives the terminal status information of the portable terminal; a status value calculation section which calculates a status value indicating the status of the portable terminal using the terminal status information; a status determination section which determines using the status value and criteria for determination whether the user of the portable terminal can respond if the server transmits data information; and a terminal management section which records the result of the determination in an information storage section. <P>COPYRIGHT: (C)2013,JPO&amp;INPIT

Description

  Embodiments described herein relate generally to an information distribution system, an information distribution method, and a program.

  In general, in a push-type communication service in which a message or the like is sent asynchronously from a server to a client terminal, when the server needs to send a message or the like to the client terminal, the server immediately A message is sent to the client terminal. Therefore, as a result of sending a message to a specific client terminal, if the client terminal is not receivable due to a power-off state or a radio wave not-transmitting state, or even if the client terminal is receivable, the client terminal When there is no response to the transmitted message, such as when the user who is the owner of the message cannot respond during work, the server retransmits the message to the client terminal.

JP 2002-344529 A

  The problem to be solved by the present invention is to provide an information distribution system capable of realizing reduction of server load and efficiency of server processing.

The information distribution system of this embodiment is an information distribution system in which a mobile terminal possessed by a user and a server that transmits data information to the mobile terminal are connected via a network. The portable terminal includes a terminal state information acquisition unit that acquires terminal state information, and a terminal state information transmission unit that transmits terminal state information to a server. The server includes a terminal state information receiving unit that receives the terminal state information of the mobile terminal, and a change in the movement distance and mobile terminal tilt of the mobile terminal based on the terminal state information.
A state value calculation unit for calculating the amount and whether the moving distance of the mobile terminal is equal to or less than a predetermined moving distance
However, when the movement distance of the mobile terminal is less than or equal to the predetermined movement distance, the amount of change in the inclination of the mobile terminal is
When it is determined whether the inclination is equal to or less than a predetermined inclination, and the amount of change in inclination of the mobile terminal is equal to or less than the predetermined inclination
In addition, the user includes a state determination unit that determines that the server can respond to the data information transmitted to the portable terminal, and a terminal management unit that registers the determination result in the information storage unit.

The figure which shows an example of the whole structure of the information delivery system of embodiment. The flowchart which shows an example of the operation | movement which concerns on the information delivery system of embodiment. The flowchart which shows an example of the terminal information registration process which concerns on the information delivery system of embodiment. The figure which shows an example of the data structure of the terminal information which concerns on the information delivery system of embodiment. The figure which shows an example of the data structure of the terminal state information which concerns on the information delivery system of embodiment. The flowchart which shows an example of the terminal state information registration process which concerns on the information delivery system of embodiment. The figure which shows an example of the state determination criteria which concern on the information delivery system of embodiment. The flowchart which shows an example of the state determination process which concerns on the information delivery system of embodiment. The flowchart which shows an example of the transmission possible terminal selection process which concerns on the information delivery system of embodiment, and a message delivery process message transmission process. The figure which shows an example of the delivery message which concerns on the information delivery system of embodiment.

  Hereinafter, the information distribution system of this embodiment will be described with reference to the drawings. In the present specification and drawings, components having substantially the same functional configuration are denoted by the same reference numerals, and redundant description is omitted.

  FIG. 1 is a block diagram showing an example of the overall configuration of an information distribution system to which an embodiment of the present invention is applied.

  As shown in FIG. 1, the information distribution system of the present embodiment is configured by connecting a server 1 and a mobile terminal 2 that is a client terminal via a network 3. This information distribution system is connected to the operator terminal 5 via the network 4. The operator terminal 5 transmits to the server 1 instruction information for giving an instruction, for example. The server 1 creates data to be distributed to the mobile terminal 2 based on the instruction information received from the operator terminal 5 (hereinafter referred to as a distribution message) and transmits it to the mobile terminal 2. The mobile terminal 2 is given an IP address for sending data information from the server 1.

  Note that the information distribution system of the present embodiment is used, for example, in delivery of a home delivery service. The operator terminal 5 according to the present embodiment receives a request for re-delivery from the customer to whom the parcel delivery service is delivered, and transmits this request content to the server 1 as instruction information.

  The network 3 and the network 4 are network environments such as a cellular phone network and a public wireless LAN (Local Area Network). The network 3 and the network 4 may be an intranet or the Internet. A plurality of portable terminals 2 connected to the server 1 may be used.

  The server 1 of the information distribution system includes a message transmission unit 10, a terminal management unit 13, and an information storage unit 17.

  The message transmission unit 10 includes an instruction information reception unit 11 and a transmission terminal selection unit 12.

  The instruction information receiving unit 11 receives instruction information from the operator terminal 5. Then, the instruction information receiving unit 11 creates a delivery message based on the received instruction information. The transmission terminal selection unit 12 selects the mobile terminal 2 that transmits the delivery message based on the instruction information and the terminal state information. The message transmission unit 10 transmits the delivery message to the mobile terminal 2 selected by the transmission terminal selection unit 12.

  The terminal management unit 13 includes a terminal state information reception unit 14, a state value calculation unit 15, and a state determination unit 16, and manages the mobile terminal 2.

  The terminal status information receiving unit 14 receives data related to the status of the mobile terminal 2 (hereinafter referred to as terminal status information) from the mobile terminal 2. The state value calculation unit 15 calculates the state value based on the terminal state information. The state value is a value calculated using the terminal state information, and is used when the state determination unit 16 described later performs a state determination process.

  The state determination unit 16 uses the state value calculated by the state value calculation unit 15 and the state determination reference 21 stored in the information storage unit 17 to determine whether to transmit a delivery message to the mobile terminal 2 Judgment processing is performed. The state determination reference 21 and the state determination process will be described later.

  The state determination unit 16 of the present embodiment determines that the user of the mobile terminal 2 (hereinafter referred to as a user) is in a “response impossible” state when the state value is equal to or greater than a reference value included in the state determination reference 21. To do. Further, the state determination unit 16 of the present embodiment determines that the user is in a “response possible” state when the state value is less than the reference value included in the state determination reference 21.

  The terminal status information received by the terminal status information reception unit 14 and the status determination result of the status determination unit 16 based on the terminal status information are registered in the information storage unit 17 as the terminal status information table 19 by the terminal management unit 13. .

  The information storage unit 17 includes a terminal information table 18 that stores terminal information that is information for managing the mobile terminal 2, a terminal state information table 19 that stores terminal state information received from the mobile terminal 2, and instruction information reception A delivery message table 20 for storing delivery messages created by the unit 11 and a state determination criterion 21 are stored. The state determination standard 21 is used when the state determination unit 16 performs the state determination process, and is set in advance when the information distribution system according to the present embodiment is created.

  The mobile terminal 2 of the information distribution system of this embodiment is a mobile phone or a smart phone, for example. The portable terminal 2 includes a terminal state information acquisition unit 22, a terminal state information transmission unit 23, a message reception unit 24, and a business application unit 25. The portable terminal 2 periodically transmits terminal state information to the server 1, receives a distribution message from the server, and transmits a response content of the user to the distribution message.

  The terminal state information acquisition unit 22 acquires terminal state information. The terminal state information acquisition unit 22 is a sensor, for example, and various sensors are used. The terminal state information acquisition unit 22 of the present embodiment includes an acceleration sensor that measures acceleration, a GPS sensor of a global positioning system (GPS) that measures the position of the mobile terminal 2, and the inclination of the mobile terminal 2. It has a tilt sensor that measures the direction.

  It is assumed that the acquisition of the terminal state information by the terminal state information acquisition unit 22 is periodically performed based on a predetermined cycle. For example, the mobile terminal 2 of the present embodiment acquires terminal state information every 15 minutes. Note that the acquisition of the terminal state information can be performed by an instruction from the server 1. Also, the acquisition of the terminal state information can be performed by the user voluntarily operating the mobile terminal 2 and transmitting it to the server 1.

  The terminal state information transmission unit 23 transmits the terminal state information acquired by the terminal state information acquisition unit 22 to the server 1. The message receiving unit 24 receives a delivery message from the message transmitting unit 10 of the server 1. The business application unit 25 activates the application based on the delivery message received by the message receiving unit 24. The user of the portable terminal 2 responds that the delivery message has been confirmed to the server 1 using this application.

  Here, an information distribution process in the information distribution system of this embodiment will be described with reference to FIGS.

  FIG. 2 is a flowchart showing an example of information distribution processing in the information distribution system of the present embodiment. The information distribution system of this embodiment first registers the terminal information of the portable terminal 2 in the terminal information table 18 in the terminal information storage unit 17 of the server 1 (step S1). The terminal information is information for managing the mobile terminal such as the terminal ID that is the identifier of the mobile terminal 2, the name of the user who uses the mobile terminal, the affiliation of the user, and the telephone number and mail address of the mobile terminal 2. including.

  In the present embodiment, the user inputs terminal information using the mobile terminal 2, the input terminal information is transmitted from the mobile terminal 2 to the server 1, and the server 1 registers this terminal information in the terminal information table 18. The terminal information registration process in step S1 may be performed in advance when the system is created. The server 1 may have an input unit such as a keyboard, and terminal information may be input from the input unit.

  Here, the terminal information registration process in step S1 of FIG. 2 will be described with reference to FIGS.

  FIG. 3 is a flowchart showing an example of terminal information registration processing in the information distribution system of this embodiment. First, terminal information is input from the portable terminal 2 by the user (step S11). In addition, the input of terminal information is input from the terminal information registration screen displayed on the portable terminal 2, for example.

  The input terminal information is transmitted from the portable terminal 2 to the server 1 (step S12). The server 1 receives terminal information from the portable terminal 2 (step S13). When the terminal information is received, the terminal management unit 13 of the server 1 registers the terminal information in the terminal information table 18 (step S14).

  The data structure of the terminal information table 18 stored in the information storage unit 17 will be described with reference to FIG. FIG. 4 is an example of the data structure of the terminal information table 18 according to the present embodiment. As shown in FIG. 4, the data structure of the terminal information table 18 of the present embodiment is a structure having a data item 181, a detailed description 182, a primary key 183, an external key 184, and a size.

  The data item 181 is an item name of data registered in the terminal information table 18. As shown in FIG. 4, there are seven data items 181 in the terminal information table 18 in this embodiment, the terminal identification ID 181-1, the name 181-2, the affiliation 181-3, the telephone number 181-4, and the user name 181. -5, password 181-6, and mail address 181-7.

  The detailed description 182 is a description for each data item 181. That is, as shown in FIG. 4, the terminal identification ID 181-1 is an identifier for uniquely identifying the mobile terminal. The name 181-2 is the name of the user of the mobile terminal 2. The affiliation 181-3 is the affiliation of the user of the mobile terminal 2. A telephone number 181-4 is a telephone number that the portable terminal 2 has. The login name 181-5 is a login user name. The password 181-6 is a login password. This login name 181-5 and password 181-6 are used for authentication when the mobile terminal 2 connects to the server 1. The e-mail address 181-7 is an e-mail address that the portable terminal 2 has. Using this mail address 181-7, the server 1 transmits a delivery message to the mobile terminal 2.

  The main key 183 sets which of the data items 181 is the main key. In the present embodiment, the terminal identification ID 181-1 is used as the main key. The external key 184 sets which of the data items 181 is an external key. In the present embodiment, the terminal identification ID 181-1 is used as an external key.

  That is, a certain data set is uniquely identified from the terminal information table 18 by the main key 183. Further, another table is referenced based on the external key 184.

  The size is the data size of each data item 181, and the data size may be fixed or variable.

  When the terminal management unit 13 of the server 1 registers the terminal information in the terminal information table 18 in step S14 of FIG. 3, the terminal management unit 13 notifies the mobile terminal 2 that the terminal information registration is completed (step S15). When the portable terminal 2 receives the terminal information registration completion notification from the server (step S16), the portable terminal 2 ends the terminal information registration process. Note that the portable terminal 2 may display a screen indicating the completion of terminal information registration on the display unit of the portable terminal 2 when the terminal information registration completion is received from the server.

Subsequently, the description returns to FIG. When the terminal information of the portable terminal 2 is registered in the terminal information table 18 in step S1 of FIG. 2, the terminal state information acquisition unit 22 periodically acquires the terminal state information of the portable terminal 2 based on a preset period. (Step S2). The terminal state information transmission unit 23 transmits the acquired terminal state information to the server 1 (step S3). When receiving the terminal state information, the terminal management unit 13 of the server 1 performs terminal state information registration processing for registering the terminal state information in the terminal state information table 19 of the information storage unit 17 (step S4).
Here, the data structure of the terminal state information registered in the terminal state information table 19 of the present embodiment will be described with reference to FIG. As shown in FIG. 5, the terminal status information is a data structure having a data item 191, a detailed description 192, a primary key 193, an external key 194, and a size. The data item 191 is an item name of data included in the terminal state information. As shown in FIG. 6, in this embodiment, the terminal status information data item 191 includes a terminal identification ID 191-1, a latitude 191-2, a longitude 191-3, a direction 191-4, an inclination 191-5, an acceleration (x-axis). ) 191-6, acceleration (y-axis) 191-7, acceleration (z-axis) 191-8, and user status flag 191-9.

  The detailed description 192 is a description for each data item included in the data item 191, similarly to the detailed description 182 of FIG. 4. That is, as shown in FIG. 5, the terminal identification ID 191-1 is an identifier for uniquely identifying the mobile terminal. The latitude 191-2 is the latitude information of the mobile terminal 2 acquired by the GPS of the terminal state information acquisition unit 22. The longitude 191-3 is the longitude information of the mobile terminal 2 acquired by the GPS of the terminal state information acquisition unit 22.

  The azimuth 191-4 is information indicating the azimuth facing the mobile terminal 2 measured by the inclination sensor of the terminal state information acquisition unit 22. The inclination 191-5 is information indicating the inclination angle of the mobile terminal 2 measured by the inclination sensor of the terminal state information acquisition unit 22.

  Acceleration (x-axis) 191-6 to acceleration (z-axis) 191-8 are accelerations in the respective axial directions of the portable terminal 2 measured by the acceleration sensor of the terminal state information acquisition unit 22. That is, it is assumed that the acceleration sensor of the present embodiment is an acceleration sensor having three axes. An acceleration sensor other than the above-described acceleration sensor having three axes may be used.

  The user status flag 191-9 determines whether or not the user can respond to the server using the mobile terminal 2 when the server 1 transmits a delivery message to the mobile terminal 2 when the status determination unit 16 transmits the delivery message to the mobile terminal 2. This is a flag to be registered based on the determination result. TRUE is a value indicating that the response is possible, and FALSE is a value indicating that the response is impossible. In this embodiment, when the terminal status information table 19 is newly registered, the user status flag 191-9 is assumed to be null.

  The main key 193 sets which item of the data items 191 is the main key, like the main key 183 in FIG. In the present embodiment, the terminal identification ID 191-1 is used as the main key. The external key 194 also sets which item of the data items 191 is the external key, as with the external key 184 of FIG. In the present embodiment, the terminal identification ID 191-1 is used as an external key. 5 is an external table of FIG.

  The size is the data size of each data item, similar to the size of FIG.

  With reference to FIG. 6 thru | or FIG. 8, the terminal state information acquisition process and terminal state information registration process which concern on this embodiment in step S2 thru | or step S4 of FIG. 2 are demonstrated. As described above, the terminal state information acquisition unit 22 of the present embodiment includes an acceleration sensor, a tilt sensor, and a GPS.

  FIG. 6 is a flowchart illustrating an example of terminal state information registration processing according to the information distribution system of the present embodiment.

  First, the terminal state information acquisition unit 22 acquires position information by GPS (step S20). The position information is information including latitude 191-2 and longitude 191-3. This position information is information indicating the current position of the mobile terminal 2.

  Next, the terminal state information acquisition part 22 acquires inclination sensor information with an inclination sensor (step S21). The tilt sensor information includes an orientation 191-4 regarding which orientation the mobile terminal 2 is facing and an inclination 191-5 regarding the tilt degree of the mobile terminal 2 body.

  Subsequently, the terminal state information acquisition unit 22 acquires acceleration information (acceleration (x-axis) 191-6 to acceleration (z-axis) 191-8) that is information indicating the acceleration of the mobile terminal 2 by the acceleration sensor (step S22). ). Thereby, acquisition of terminal state information is completed. In addition, acquisition of the terminal state information in step S20 to step S22 may be acquired in another order instead of the order described above. Moreover, you may acquire simultaneously.

  When the terminal state information acquisition unit 22 acquires the terminal state information, the terminal state information transmission unit 23 transmits the acquired terminal state information and the terminal identification ID of the mobile terminal 2 to the terminal management unit 13 of the server 1. (Step S23).

  When the server 1 receives the position information, the tilt sensor information, the acceleration information, and the terminal identification ID transmitted from the terminal state information transmission unit 23 of the mobile terminal 2 (step S24), the server 1 performs a terminal state information registration process. Specifically, the terminal status information receiving unit 14 of the server 1 refers to the received terminal identification ID to check whether the terminal status information of the portable terminal 2 is registered in the terminal status information table 19 of the information storage unit 17. Search is performed (step S25). That is, it is searched whether a terminal identification ID that matches the terminal identification ID of the portable terminal 2 is registered in the terminal state information table 19.

  As a result of the search, when the terminal state information of the portable terminal 2 does not exist in the terminal state information table 19 (Yes in Step S25), the terminal state information receiving unit 14 displays the terminal state information of the portable terminal 2 in the terminal state information table 19 Is newly registered (step S26).

  When the terminal state information corresponding to the portable terminal 2 exists as a result of the search of the terminal state information table 19 (No in step S25), the terminal state information receiving unit 14 of the server 1 searches the terminal of the search result from the information storage unit 17. Status information is acquired (step S27). That is, the terminal state information receiving unit 14 acquires terminal state information having a terminal identification ID that matches the terminal identification ID transmitted from the mobile terminal 2.

  The terminal management unit 13 compares the terminal state information acquired from the terminal state information table 19 with the terminal state information received in step S24 of FIG. 6, and determines whether the mobile terminal state has changed (step S28). ). That is, if the terminal state information table 19 and the terminal state information received in step S24 do not match, it is determined that the terminal state has changed. Even if the terminal state information 19 and the terminal state information received in step S24 do not match, it is determined that the terminal state has not changed if the difference is equal to or smaller than a predetermined reference value. Also good.

  If the terminal state information has not changed (No in step S28), the terminal management unit 13 does not perform the update process of the terminal state information table 19 and ends the terminal state information registration process.

  When the terminal status information has changed (Yes in step S28), the terminal management unit 13 determines whether or not a response is possible from the user when a delivery message is transmitted to the mobile terminal 2. Is performed (step S29). This state determination process is performed by the state value calculation unit 15 and the state determination unit 16 of the terminal management unit 13 with reference to the terminal state information table 19 and the state determination reference 21.

  Here, the state determination criteria 21 of this embodiment are shown in FIG. As shown in FIG. 7, the state determination criterion 21 is information including a state 211 and a reference value 212 in the state 211.

  The state 211 of the present embodiment indicates a state determined in the state determination process. The states 211 determined in the present embodiment are “operating” 213 and “working” 214.

  When the state 211 is “running” 213, the reference value 212 of the “running” 213 of the state determination criterion 21 is 5 km. In other words, the state determination unit 16 determines the state based on whether or not it has moved 5 km or more from the previous position. The reference value 212 of “working” 214 in the state 211 is 45 degrees. That is, the state determination unit 16 determines the state based on whether the change from the previous inclination of the mobile terminal 2 is 45 degrees or more. Further, the state determination criterion 21 can be set in advance by the information distribution system user or the system producer.

  The state determination unit 16 compares the state value calculated by the state value calculation unit 15 for each state 211 with the reference value 212 to determine whether or not the user of the target mobile terminal 2 can respond to the delivery message. judge. For example, if the state value calculated by the state value calculation unit 15 is greater than or equal to the reference value 212, the state determination unit 16 cannot respond because the user is driving or working and cannot respond to the delivery message. judge.

  The state determination process performed by the state value calculation unit 15 and the state determination unit 16 will be described with reference to FIG. 8. FIG. 8 is a flowchart illustrating an example of the state determination process.

  First, the state value calculation unit 15 refers to the position information of the mobile terminal 2 and calculates the movement distance from when the previous terminal state information was received (step S50). The position information is the latitude and longitude acquired from the GPS of the mobile terminal 2. Specifically, using the latitude 191-2 and longitude 191-3 (previous position) of the mobile terminal 2 in the terminal status information table 19, and the latitude and longitude (current position) received in step S24 of FIG. Calculate the travel distance. A method for calculating a distance using latitude and longitude is known.

  The state determination unit 16 refers to the movement distance of the mobile terminal 2 based on the position information calculated by the state value calculation unit 15 and the state determination criterion 21 stored in the information storage unit 17 to determine whether the user is driving. Is determined (step S51).

  When the movement distance calculated by the state value calculation unit 15 in step S51 of FIG. 8 is 5 km or more of the reference value 212 with respect to the driving state 213 of the state determination reference 21 (step S52 is No), the state determination unit 16 indicates that the mobile terminal 2 It is determined that the vehicle is moving, that is, the user is driving a vehicle (step S57). Therefore, the state determination unit 16 determines that the user of the mobile terminal 2 is in a state incapable of responding to the message (step S59). Thereby, the state determination process ends.

  When the moving distance is less than 5 km (Yes in step S52), the state value calculating unit 15 calculates the moving distance of the mobile terminal 2 with reference to the acceleration information and the azimuth information received in step S24 of FIG. S53).

  If the movement distance calculated by the state value calculation unit 15 in step S53 is equal to or greater than 5 km of the reference value 212 for the exercise 213 of the state determination reference 21 (No in step S54), the state determination unit 16 moves by car. That is, it is determined that the user is driving a car (step S57). Therefore, the state determination unit 16 determines that the user cannot respond to the delivery message (step S59).

  When the movement distance calculated in step S53 is less than 5 km (Yes in step S54), the state determination unit 16 determines the current inclination of the portable terminal 2 and the inclination when the terminal state information of the portable terminal 2 was transmitted last time. Information (hereinafter referred to as the previous inclination) is acquired, and the difference between the acquired inclination information is calculated (step S55). Specifically, the state determination unit 16 first acquires the inclination information of the inclination sensor information received in step S24 of FIG. Subsequently, the state determination unit 16 acquires the inclination 191-5 from the terminal state information table 19 stored in the information storage unit 17. That is, the inclination information acquired from the terminal state information table 19 is the previous inclination information.

  When the difference between the previous inclination information and the current inclination information is 45 degrees or more of the reference value 212 in the work 214 of the state determination reference 21 (No in step S56), the state determination unit 16 indicates that the user is working. It is determined that there is (step S58). Therefore, the state determination unit 16 determines that the user cannot respond to the delivery message (step S59).

  When the difference between the calculated previous inclination information and the current inclination information is less than 45 degrees (step S56 is Yes), the state determination unit 16 determines that the user can respond to the delivery message (step S60). .

  Returning to the flowchart of FIG. When the state determination process in step S29 in FIG. 6 ends, the terminal management unit 13 updates the terminal state information table 19 of the mobile terminal 2 (step S30). That is, the terminal management unit 13 overwrites and updates the terminal state information table 19 stored in the information storage unit 17 with the terminal state information received in step S24 of FIG. Further, based on the determination result determined in step S29, the terminal management unit 13 sets a flag on the user status flag 191-9 of the terminal status information table 19. In the present embodiment, the terminal management unit 13 registers a “TRUE” flag when the state determination unit 16 determines that a response is possible, and registers a “FALSE” flag when it is determined that a response is not possible.

  In step S30, the terminal status information table 19 of the mobile terminal 2 is not overwritten and updated, but the received terminal status information can be additionally registered. In this case, in order to uniquely identify the terminal status information related to the same terminal identification ID 191-1, an ID based on the reception time of the terminal status information, the registration order, or the like is added to the items of the terminal status information table 19. Realize.

  When the terminal management unit 13 updates the terminal state information table 19, the terminal state information acquisition process and the terminal state information registration process according to the present embodiment are finished.

  Subsequently, the description returns to FIG. The instruction information receiving unit 11 of the server 1 receives instruction information from the operator terminal 5 (step S5 in FIG. 2). That is, the operator terminal 5 inputs instruction information to the server 1. The instruction information includes, for example, a delivery address, a delivery package identification number, a delivery package type, and a designated delivery time.

  In the present embodiment, as shown in FIG. 2, the terminal information is registered in the information storage unit 17 and then the operator transmits instruction information. However, actually, the terminal status information is periodically transmitted from the mobile terminal 2 to the server 1. Therefore, the instruction information is not necessarily received from the operator terminal 5 after the terminal state information is registered.

  The transmission terminal selection unit 12 performs information distribution processing with reference to the instruction information received by the instruction information reception unit 11 of the server 1. Specifically, the transmission terminal selection unit 12 selects the portable terminal 2 that transmits the delivery message created by the instruction information reception unit 11 based on the terminal state information table 19 (step S6). Note that the mobile terminal 2 that transmits the delivery message is a mobile terminal (hereinafter referred to as a sendable terminal) that allows the holder of the mobile terminal 2 to respond to the delivery message.

  The message transmission unit 17 transmits the distribution message to the mobile terminal 2 that is the selected transmission enabled terminal (step S7), and the information distribution process is terminated.

  With reference to FIGS. 9 to 10, the transmission terminal selection process and the message delivery process in steps S6 and S7 in FIG. 2 will be described in detail.

  FIG. 9 is a flowchart illustrating an example of a transmittable terminal selection process and a message distribution process by the transmission terminal selection unit 12 in the information distribution system of the present embodiment.

  The instruction information receiving unit 11 of the server 1 receives the instruction information input from the operator terminal 5 in step S5 of FIG. 2 (step S31). The instruction information receiving unit 11 creates a delivery message table to be transmitted to the mobile terminal 2 based on the received instruction information, and registers it in the information storage unit 17 (step S32).

  Here, the delivery message table 20 registered in the information storage unit 17 of this embodiment will be described with reference to FIG. FIG. 10 is a diagram illustrating an example of a data structure of the delivery message table 20 according to the present embodiment.

  As shown in FIG. 10, the delivery message table 20 has a data structure including a data item 201, a detailed description 202 of the data item, a primary key 203, a foreign key 204, and the size of each data item.

  The data items 201 of the distribution message table 20 are a message ID 201-1, a terminal identification ID 201-2, a distribution message body 201-3, a transmission flag 201-4, a response flag 201-5, and a response flag 201-6.

  The detailed description 202 is a description for each data item included in the data item 201, similarly to the detailed description 182 of FIG. 4 and the detailed description 192 of FIG.

  That is, the message ID 201-1 is an identifier for uniquely identifying the delivery message. The terminal identification ID 201-2 is a terminal identification ID of the mobile terminal 2 that transmits the delivery message. The delivery message body 201-3 is a message delivered to the mobile terminal 2. The transmission flag 201-4 is a flag for identifying whether the server 1 has delivered a message to the mobile terminal 2. The response flag 201-5 is a flag for identifying whether or not there is a response from the mobile terminal 2. The response availability flag 201-6 registers a flag based on whether or not the response content is available when there is a response from the mobile terminal 2 that has received the delivery message.

  In addition, in the transmission flag 201-4, when the message transmission unit 10 of the server 1 normally ends transmission of the delivery message, TRUE that is a value indicating “transmission normal end” is registered, and transmission of the delivery message has failed. In this case, FALSE, which is a value indicating “transmission failure”, is registered. When FALSE is registered in the transmission flag 201-4, the message transmission unit 10 transmits the message again.

The response flag 201-5 registers TRUE, which is a value indicating “response”, when there is a response within a predetermined time set in advance, and “response” when there is no response within the predetermined time. It is assumed that FALSE, which is a value indicating “None”, is registered. In addition, when the response is received from the mobile terminal 2, the response availability flag 201-6 registers TRUE if the response content is “response enabled”, and registers FALSE if the response is “response disabled”.
The terminal identification ID 201-2 is registered by the terminal management unit 13 when the transmission terminal selection unit 12 selects the portable terminal 2 that transmits the delivery message in the transmission terminal selection process described later.

  The main key 203 sets which item of the data items 201 is the main key, like the main key 183 in FIG. 4 and the main key 193 in FIG. 5. In this embodiment, the message ID 201-1 is the primary key. Similarly to the external key 184 in FIG. 4 and the external key 194 in FIG. 5, the external key 204 also sets which item of the data items 201 is the external key. In this embodiment, the terminal identification ID 201-2 is used as an external key. FIG. 10 is an external table of FIG.

  When the message ID 201-1 and the distribution message body 201-3 are registered in the distribution message table 20, the message transmission unit 10 transmits distribution message registration completion to the operator terminal 5 (step S33). The transmission terminal selection unit 12 of the server 1 refers to the terminal state information table 19 registered in the information storage unit 17, selects the portable terminal 2 that can transmit the delivery message body 201-3, and the terminal management unit 13 Then, the terminal identification ID of the selected portable terminal 2 capable of transmission is registered in the terminal identification ID 201-2 of the distribution message table 20 (step S34).

  For example, the transmission terminal selection unit 12 searches for the mobile terminal 2 in which the “TRUE” flag is registered in the user state flag 191-9 of the terminal state information table 19, and selects the mobile terminal 2 as a search result as a transmittable terminal. When there are a plurality of mobile terminals that can be transmitted, the most appropriate mobile terminal is selected from the target mobile terminals. For example, when used as a courier system as in this embodiment, the current position of the portable terminal 2 based on the latitude 191-2 and longitude 191-3 of the terminal status information table 19 and the instruction information from the operator terminal 5 The mobile terminal that is the closest to the address of the delivery address included in may be selected.

  Alternatively, when the terminal information of the portable terminal 2 is registered in advance, the delivery charge range information may also be registered, and the mobile terminal whose delivery address included in the instruction information is included in the delivery charge range may be selected.

  The message transmitting unit 10 transmits the distribution message body 201-3 in the distribution message table 20 to the selected portable terminal 2 that can be transmitted (step S35). At this time, the message transmission unit 10 registers the TRUE flag in the transmission flag 201-4 of the distribution message table 20.

  When the message receiving unit 24 of the portable terminal 2 receives the delivery message body 201-3 (step S36), the business application unit 25 displays the delivery message body 201-3 (step S37).

  The user confirms the displayed delivery message body 201-3 and inputs correspondence information as to whether or not the instruction contents can be handled using the business application unit 25 (step S38). Here, it is assumed that the corresponding / not-available button of the business application unit 25 is clicked. The business application unit 25 transmits the correspondence information input by the user to the server 1 (step S39).

  When receiving the correspondence information from the portable terminal 2, the terminal management unit 13 registers the TRUE flag in the response flag 201-5 of the distribution message table 20 (step S40). When the correspondence information is “available” (Yes at Step S41), the terminal management unit 13 registers the TRUE flag in the correspondence availability flag 201-6 of the delivery message table 20, and the information delivery process ends.

  When the correspondence information is “not available” (No at Step S41), the terminal management unit 13 registers the TRUE flag in the availability flag 201-6, returns to Step S34, and repeats the process.

  As described above, according to the information system of the present embodiment, in order to send a delivery message to the mobile terminal 2 owned by the user in a state that can respond when sending a message in a push type from the server 1 to the mobile terminal 2, Work efficiency can be improved. Further, since there is no need to perform processing such as periodic retransmission from the server 1 when there is no response, the processing of the server 1 can be reduced. Therefore, it is possible to reduce the server load. In addition, it is possible to prevent an influence such as a delay in data distribution in an emergency case.

  As mentioned above, although embodiment of this invention was described, this embodiment is shown as an example and is not intending limiting the range of invention. The novel embodiment can be implemented in various other forms, and various omissions, replacements, and changes can be made without departing from the scope of the invention. This embodiment and its modifications are included in the scope and gist of the invention, and are included in the invention described in the claims and the equivalents thereof.

  For example, in the present embodiment, in the state determination process for determining whether or not a response is possible when the state determination unit 16 transmits a message to the mobile terminal 2, it is determined whether the state is “Driving” or “Working”. Although determined, it is also possible to determine by other methods. For example, a change in acceleration information may be detected, and it may be determined that the user is working if the acceleration changes abruptly.

  If the terminal status information is not transmitted from the portable terminal 2 even after a predetermined period has elapsed, the state determination unit 16 is in the power-off state or the radio wave-off state, and the user cannot respond. May be determined. Alternatively, the moving speed of the mobile terminal 2 may be calculated, and when the speed is equal to or higher than a predetermined speed set in advance, it may be determined that the user is moving in a car and the user cannot respond.

In addition, a reference value of inclination information of the mobile terminal 2 may be set in advance, and when the acquired inclination information of the mobile terminal 2 is greater than or equal to the reference value, it may be determined that the user is working and cannot respond.

  For example, when the speed is calculated from the acceleration information of the mobile terminal 2 and the speed is equal to or less than a preset reference, it may be determined that the user can respond because the user is not driving.

  In addition, since the accuracy of GPS for commercial use is not so good, there is a possibility that a considerable shift occurs in the position specified by the latitude and longitude acquired by the GPS. Therefore, in order to correct the deviation, in the present embodiment, the current position may be calculated using the azimuth obtained from the mobile terminal 2 and the movement distance calculated from the acceleration information as the correction information of the position information by GPS. . That is, the current position is calculated using the position information included in the terminal state information table 19 and the acceleration information and the direction information included in the terminal state information received by the terminal management unit 13 in step S24 of FIG.

  The information distribution system of the present embodiment is used, for example, for a delivery system for a courier service or for dispatching workers on site in customer support.

DESCRIPTION OF SYMBOLS 1 ... Server, 2 ... Mobile terminal, 3 ... Network, 4 ... Network, 5 ... Operator terminal

Claims (7)

An information distribution system in which a mobile terminal possessed by a user and a server that transmits data information to the mobile terminal are connected via a network,
The portable terminal is
A terminal state information acquisition unit for acquiring terminal state information;
A terminal state information transmitting unit for transmitting the terminal state information to the server;
With
The server
A terminal state information receiving unit that receives terminal state information of the mobile terminal;
Based on the terminal state information, the movement distance of the mobile terminal and the change amount of the inclination of the mobile terminal
A calculation unit for calculating
It is determined whether the movement distance of the mobile terminal is equal to or less than a predetermined movement distance, and the movement distance of the mobile terminal
When the separation is less than or equal to a predetermined movement distance, the amount of change in the inclination of the mobile terminal is less than or equal to a predetermined inclination
If the amount of change in the inclination of the mobile terminal is equal to or less than a predetermined inclination, the user
The state determination unit that determines that the server can respond to the data information transmitted to the mobile terminal by the server ,
A terminal management unit that registers the determination result in an information storage unit;
An information distribution system comprising: The terminal state information acquisition unit includes a GPS sensor, an acceleration sensor, and a tilt sensor.
Information distribution system described in 1. The terminal state information acquisition unit acquires the terminal state information for each specific cycle,
The information distribution system according to claim 1 or 2 , wherein the state determination unit determines that the user is unable to respond when the terminal state information cannot be received from the portable terminal at specific intervals. The information distribution system according to any one of claims 1 to 3 , further comprising: a transmission terminal selection unit that selects, from the information storage unit, the portable terminal that transmits the data information based on the determination result. A server that connects via a network and transmits data information to a mobile terminal owned by the user,
A terminal state information receiving unit that receives terminal state information of the mobile terminal;
Based on the terminal status information, the mobile terminal travel distance of the mobile terminal and the mobile terminal
A calculation unit for calculating the amount of change in the slope of
It is determined whether the movement distance of the mobile terminal is equal to or less than a predetermined movement distance, and the movement distance of the mobile terminal
When the separation is less than or equal to a predetermined movement distance, the amount of change in the inclination of the mobile terminal is less than or equal to a predetermined inclination
If the amount of change in the inclination of the mobile terminal is equal to or less than a predetermined inclination, the user
The state determination unit that determines that the server can respond to the data information transmitted to the mobile terminal by the server ,
A terminal management unit that registers the determination result in an information storage unit;
A server comprising An information distribution method for a server that connects via a network and transmits data information to a mobile terminal owned by a user,
Receiving the terminal status information acquired by the mobile terminal;
Calculating a moving distance of the mobile terminal and a change amount of the inclination of the mobile terminal based on the terminal state information ;
Determining whether the mobile terminal travel distance is less than or equal to a predetermined travel distance;
Change in tilt of the mobile terminal when the mobile terminal travel distance is less than or equal to a predetermined travel distance
Determining whether the amount is below a predetermined slope;
When the amount of change in the inclination of the mobile terminal is equal to or less than a predetermined inclination, the user
Therefore, determining that it is possible to respond to the data information transmitted to the mobile terminal ,
Registering the determination result in an information storage unit;
An information delivery method comprising: A program of a server that connects via a network and transmits data information to a mobile terminal owned by a user,
On the computer,
A function of receiving terminal state information acquired by the mobile terminal;
A function of calculating a moving distance of the mobile terminal and an amount of change in inclination of the mobile terminal based on the terminal status information;
A function of determining whether a movement distance of the mobile terminal is equal to or less than a predetermined movement distance;
Change in tilt of the mobile terminal when the mobile terminal travel distance is less than or equal to a predetermined travel distance
A function of determining whether the amount is equal to or less than a predetermined slope;
When the amount of change in the inclination of the mobile terminal is equal to or less than a predetermined inclination, the user
Therefore, a function that determines that it can respond to the data information transmitted to the mobile terminal ,
A function of registering the determination result in an information storage unit;
A program that realizes

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