JP2004129084A - Message distribution system and method, as well as program and record medium - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a message distribution system and method which can realize message distribution highly quickly and can improve its operability upon transmission and reception, and also to provide a program and a recording medium therefor. <P>SOLUTION: A means for transmitting a new arrival notification via a first communication line to a specified destination terminal when a message server receives a message emitted from a transmission originator terminal, is provided. A message downloading means for starting its operation when the destination terminal receives the notification from the message server to be connected to the message server via a second communication line having a delay larger than that of the first line and for receiving the corresponding message from the message server, is provided. A means for transmitting the corresponding message to the destination terminal according to an inquiry or request from the destination terminal to the server, is provided. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a message delivery system and method, a program and a recording medium, and is used to deliver a message like an electronic mail using a server / client system.
[0002]
[Prior art]
2. Description of the Related Art Conventionally, a service for distributing a message to a specific destination, that is, an information terminal such as a personal computer (hereinafter abbreviated as a PC) or a PDA or a mobile phone terminal via the Internet or a mobile communication network using various mail systems. Has been implemented.
[0003]
In general Internet mail used by PCs, a mail server that stores and manages the mail of the destination user is used, and the user sends and receives mail to and from the mail server using client software for sending and receiving mail. I do.
[0004]
Such an Internet mail system is a PULL type distribution system. That is, the mail stored in the mail server is not delivered to the destination user until a download request from the client software activated by the destination user occurs. This causes a delay in mail delivery.
However, in a PC environment, there is less time and cost restrictions on the use of power and network resources as compared to a mobile phone terminal or the like. Therefore, for example, a new arrival inquiry to the mail server can be frequently made from the client software. Therefore, it is not impossible for the destination user to receive the new mail immediately after the mail arrives at the mail server.
[0005]
On the other hand, in a mail system that communicates via a mobile phone terminal, if the destination mobile phone terminal can communicate at the time of reception, PUSH type mail delivery is performed. That is, the mail server delivers the mail to the destination mobile phone immediately after receiving the new mail from the sender. Therefore, immediately after the new mail arrives at the mail server, the destination user can receive the mail.
[0006]
Also, when sending and receiving mail between terminals of the same mobile carrier (communication carrier), mail delivery is realized by communication closed in a dedicated network for the carrier. Further, when the destination mobile phone terminal receives mail via the external Internet, filtering is performed using a gateway connected to the boundary between the carrier network and the Internet for the purpose of preventing unsolicited mail. It is common.
[0007]
It is also known that when communication becomes congested at the position of the gateway, a considerably long delivery delay occurs in mail delivery.
In order to prevent the occurrence of such a delay, a system in which a mobile phone is connected via a cable to a PC from which a mail is transmitted and a mail is transmitted from the PC via the mobile phone is also commercially available (http: // // www. www.dnki.co.jp/MLsystem/MLsys_index.html).
[0008]
Further, the following “Patent Literature 1” and “Patent Literature 2” are known as related art related to the present invention. However, since the techniques of these patent documents are based on the assumption that control is performed inside a mobile communication network, only the mobile communication service provider can use this technology.
[Patent Document 1] JP-A-2000-78192
[Patent Document 2] JP-A-2001-175577
[0009]
[Problems to be solved by the invention]
Considering the possibility of using a system that delivers messages such as e-mails as a broadcast system in an emergency, for example, use a fixedly installed desktop PC or a notebook PC that is not always connected as a system terminal It is not appropriate to do so.
[0010]
When emphasis is placed on the diffusion rate and portability, it is desirable to use a mobile phone, which is currently the most common portable information communication device, as a terminal of the system from the viewpoint of cost and convenience.
However, it is difficult to say that the mail function (carrier mail) built into the current mobile phone realizes easy terminal operation for everyone, and the operability is an obstacle depending on the user demographics and applications. May be. In particular, for middle-aged and elderly people who have low literacy related to information devices, there are cases where sending and receiving e-mails via a mobile phone and even voice call operations are not easy.
[0011]
In addition, the user interface such as a mail function built into the mobile phone can be slightly customized according to each user's preference, but the functions that can be actually customized are extremely limited. Unless it is a manufacturer of telephone terminals, it is impossible to significantly change the user interface, and there is a problem in operability.
[0012]
An object of the present invention is to provide a message distribution system and method, a program, and a recording medium that can realize high-speed message distribution and improve operability during transmission and reception.
[0013]
[Means for Solving the Problems]
2. The method according to claim 1, wherein at least one source terminal sends a message including information such as text, a message server that receives and stores the message sent by the source terminal, and a destination terminal that receives a message from the message server. The destination terminal can use a first communication path in which a server PUSH type connection used when receiving a message from a server cannot be used, and the terminal can make an instantaneous communication call from the server. In a message delivery system including at least one mobile phone terminal that can also use a second communication path capable of performing the communication, the message server is configured to respond to the reception of a message transmitted from any of the source terminals, A new arrival notification is sent to the destination terminal via the second communication path. Providing a notification transmitting means, activating an operation in response to the reception of the new arrival notification from the message server, connecting to the message server via the first communication path, and transmitting the corresponding message to the destination terminal; Message download means for receiving from the message server is provided, and the message server is provided with message transmission means for transmitting a corresponding message to the destination terminal according to an inquiry or request from the destination terminal.
[0014]
Recent mobile phone terminals execute various user application programs installed according to the user's desire on a computer on the mobile phone terminal, in addition to the basic programs installed from the beginning to realize the functions of the mobile phone. can do.
By using such a user application program, delivery of a message such as mail can be realized, and the user interface and the like can be freely changed.
[0015]
However, a user application program in a mobile phone terminal is often imposed on the specification in terms of security due to security issues, in terms of a much larger number of restrictions than an application on a PC. That is, communication between applications and native application functions such as telephone calls and mails are hardly available.
[0016]
For example, according to the specifications of mobile phone terminals of some mobile carriers, even if a call is made or received or an e-mail is sent or received during execution, the fact is detected directly from the user application, let alone the user application. I can't even do that.
Therefore, even if the mobile phone terminal has a function of realizing a highly immediate mail communication by the communication using the PUSH type connection, the mail function cannot be used when the user application program is used.
[0017]
Therefore, when message delivery is realized using a user application program on a mobile phone terminal, a new message arrives at the message server because a communication path available for a PUSH type connection cannot be used directly. However, the fact cannot be notified to the destination terminal as it is.
Therefore, in claim 1, a communication path used when the message server transmits a new arrival notification to the destination terminal and a communication path used when the destination terminal accesses the message server in response to the new arrival notification are defined. Assign another route.
[0018]
That is, the new arrival notification transmitting means of the message server transmits a new arrival notification to the designated destination terminal via the second communication path. For example, a new arrival notification can be transmitted immediately upon arrival of a new message by making a call to the destination terminal or sending an e-mail to the e-mail address of the destination terminal using the e-mail function of the mobile carrier network.
[0019]
Further, the message download means of the destination terminal activates the operation in response to receiving the new arrival notification, connects to the message server via the first communication path, and receives a corresponding message from the message server.
[0020]
At this time, since the communication is via the first communication path but from the inside of the mobile carrier network to the external Internet, and uses the same access protocol as the WWW, such as mail addressed to a mobile phone via the Internet, No delay occurs.
Even in a situation where a connection from the message server to the destination terminal cannot be used in the first communication path directly usable from the user application program executed on the mobile phone terminal, the overall system has high immediacy as a result. Push-type message delivery can be realized.
[0021]
According to a second aspect of the present invention, in the message distribution system according to the first aspect, the new arrival notification transmitting means uses at least one of a modem and a mobile phone directly connected to the message server, and transmits the destination terminal via a voice telephone network. Outgoing call to the telephone number of the destination terminal, or send an e-mail to the e-mail address of the destination terminal by using an e-mail function whose use range is limited to the inside of the mobile carrier network which provides the communication service of the mobile phone. Wherein the message download means includes an interrupt means for generating an interrupt for a message transmission / reception program that does not consume power or is in a standby state of low power consumption on the destination terminal in response to the new arrival notification; Inquiry to the message server for the presence or absence of a new message triggered by the occurrence of an interrupt Characterized in that a means was.
[0022]
When making a call to the telephone number of the destination terminal via the voice telephone network, there is naturally no delay. In addition, when an e-mail is sent to the e-mail address of the destination terminal by using an e-mail function limited to the inside of a mobile carrier network that provides a communication service of a mobile phone, a new arrival notification is issued because the e-mail does not pass through a gateway. Can be transmitted to the destination terminal in a short time.
[0023]
In addition, since the user application of a mobile phone consumes more power than the basic functions built into it from the beginning, simply continuing to wait for reception ensures the continuous driving time expected for a mobile phone. Can not. Therefore, a special execution method called standby activation is used in claim 2. Many modern mobile phone models support this feature.
[0024]
In the standby start, in a normal state, the logic of the application is stopped and no power is consumed, or the application is executed with low power consumption. Then, when a certain condition such as a timer or an external interrupt is satisfied, the process returns and the execution of the program is continued.
In addition, since the user application in the mobile phone terminal has a low priority at the time of execution, if there is an incoming / outgoing call, mail transmission / reception processing, user menu operation, or the like during execution, the user application is often interrupted by interruption.
[0025]
However, when the call or the like that caused the interruption ends and the application returns, it is possible to determine that the execution status of the application itself is the restart after the interruption. By utilizing this and generating an external interrupt, it is possible to indirectly transmit temporal information to the application.
That is, this interrupt can be used as a method of notifying the user application of the mobile phone terminal of a new message. As a result, it is possible to simultaneously use a user application on a mobile phone terminal with a high degree of freedom and secure a means for instantaneous notification of a new arrival.
[0026]
According to a third aspect of the present invention, in the message delivery system according to the first aspect, the message server manages a delivery status management unit that manages a delivery status of each of the stored messages, and the message server receives a request from a terminal having predetermined authority. A delivery status transmitting unit for transmitting, to the requesting terminal, information indicating the delivery status of each message managed by the delivery status management unit when receiving the message;
[0027]
According to the third aspect, the distribution status of each message transmitted from the source terminal and stored in the message server, for example, "reception completed" indicating the state in which the destination terminal has received the message, and the message received by the destination terminal is displayed on the screen. "Terminal screen display completed" indicating the already displayed state, "response completed" indicating the state in which the destination terminal has already transmitted the answer message to the received message, and the like are grasped and held. Therefore, by making a request or inquiry to the message server from, for example, a source terminal or a management terminal that has been authorized in advance, the source terminal or the management terminal indicates the distribution status of each transmitted message. Information can be obtained.
[0028]
In the case of mobile carrier mail or FAX, it is possible to confirm that the transmitting terminal has received the information at the transmission source, but it is not known whether the user who is the actual destination has viewed the information or has confirmed the information. On the other hand, in the system of the present invention, since the distribution status can be grasped more finely by the message server, it is possible to confirm according to the stage, such as whether the user has seen the message or answered.
[0029]
According to a fourth aspect of the present invention, in the message delivery system of the first aspect, the transmission source terminal includes option information insertion means for including an option of information to be returned by the destination user as an answer in a message to be transmitted. I do.
The recipient of the message may be a person who is unfamiliar with the operation of the system, such as an elderly person, or may be a busy person who has no time to enter sentences. Therefore, when it is necessary to reply to the received message, there is a problem in the operability because the reply method such as a general mail system is difficult to operate or takes a long time to input.
[0030]
In claim 4, since the message transmitted by the source terminal includes information options to be answered by the receiver, the receiver only needs to select one answer from the options, and You can enter the answer you are requesting.
According to a fifth aspect of the present invention, in the message delivery system of the first aspect, a path passing through a mobile carrier network and the Internet is used as the first communication path.
[0031]
According to a sixth aspect of the present invention, in the message delivery system of the second aspect, the message download unit is configured as a user application program executed on a mobile phone terminal.
According to the sixth aspect, since the user application program executed on the mobile phone terminal is used, the user interface can be freely changed, and user-friendly message distribution can be realized according to the purpose and the difference of users. . Further, a simple reply can be realized by using a reply option as described in claim 4.
[0032]
According to a seventh aspect of the present invention, in the message distribution system according to the second aspect, the new arrival notification transmitting means includes a correspondence between a message destination and a corresponding telephone number and a correspondence between a message destination and a corresponding mail address. A destination conversion table that holds at least one is provided.
According to the seventh aspect, the telephone number or the mail address of the receiver can be obtained from the destination of the message by referring to the destination conversion table.
[0033]
9. The at least one source terminal for transmitting a message including information such as text, a message server for receiving and storing a message transmitted by the source terminal, and a destination terminal for receiving a message from the message server. The destination terminal can use a first communication path in which a server PUSH type connection used when receiving a message from a server is unavailable, and the terminal can make an immediate communication call from the server. In a message delivery method using a communication system including at least one mobile phone that can also use a second communication path that can use the message server, the message server responds to reception of a message transmitted from any of the source terminals. To the designated destination terminal via the second communication path. Transmitting destination information, the destination terminal starts operation in response to receiving the new arrival notification from a message server, and connects to the message server via the first communication path. A corresponding message is transmitted to the destination terminal according to an inquiry or request from the destination terminal connected via the first communication path.
[0034]
By using the method of claim 8, the same result as in claim 1 can be obtained.
A ninth aspect is the message distribution method according to the eighth aspect, wherein the message server uses at least one of a modem and a mobile phone directly connected to the message server when transmitting the new arrival notification. A telephone call to the telephone number of the destination terminal via the mobile terminal, or use the mail function of the destination terminal using a mail function whose use range is limited to the inside of a mobile carrier network that provides a communication service of a mobile phone. It is characterized by sending an e-mail to an address.
[0035]
By using the method of claim 9, the same result as in claim 2 can be obtained.
11. The at least one source terminal for transmitting a message including information such as text, a message server for receiving and storing a message transmitted by the source terminal, and a destination terminal for receiving a message from the message server. The destination terminal can use a first communication path in which a server PUSH type connection used when receiving a message from a server is unavailable, and the terminal can make an immediate communication call from the server. A program executed on a computer on the message server for controlling a message delivery system including at least one mobile phone that can also use a second communication path capable of performing the communication, wherein the message server is connected to any of the sources. Responds to receiving a message sent from the terminal A new arrival notification transmitting procedure for transmitting a new arrival notification to a designated destination terminal via a second communication path, and the message server transmits a corresponding message according to an inquiry or request from the destination terminal. And a message transmission procedure for transmitting to the destination terminal.
[0036]
By executing the program of claim 10 on a computer on a message server, a system similar to that of claim 1 can be realized.
According to a twelfth aspect of the present invention, in the program according to the tenth aspect, in the new arrival notification transmitting procedure, at least one of a modem and a mobile phone directly connected to the message server is used, and a telephone of the destination terminal is connected via a voice telephone network. Calling a number or sending an e-mail to the e-mail address of the destination terminal using an e-mail function whose use range is limited to the inside of a mobile carrier network that provides a mobile phone communication service. Features.
[0037]
By executing the program of claim 11 on a computer on a message server, a system similar to that of claim 2 can be realized.
13. The at least one source terminal for transmitting a message including information such as text, a message server for receiving and storing a message transmitted by the source terminal, and a destination terminal for receiving a message from the message server. The destination terminal can use a first communication path in which a server PUSH type connection used when receiving a message from a server cannot be used, and the terminal can make an instantaneous communication call from the server. Receiving a new arrival notification from a message server in a program executed by a computer on the mobile phone terminal for controlling a message delivery system including at least one mobile phone capable of also using a second communication path capable of performing the communication And starts the operation in response to the first communication path. And in connection with the message server, characterized in that a message download procedure for receiving the corresponding message from the message server.
[0038]
By executing the program of claim 12 on a computer on a mobile phone terminal, a system similar to that of claim 1 can be realized.
14. The terminal according to claim 13, wherein the terminal transmits a message including information such as text, a message server that receives and stores the message transmitted by the terminal, and a destination terminal that receives a message from the message server. The destination terminal can use a first communication path in which a server PUSH type connection used when receiving a message from a server or the like cannot be used, and the terminal can immediately communicate with the server from the server. In a program executed on a computer on the source terminal for controlling a message delivery system including at least one mobile phone terminal that can also use a second communication path capable of calling, a destination user replies as an answer Option information to include information choices to be included in the message to be sent Characterized in that a insertion procedure.
[0039]
By executing the program of claim 13 on a computer on the transmission source terminal, a system similar to that of claim 4 can be realized.
A fourteenth aspect is a recording medium storing a computer-readable program according to any one of the tenth, eleventh, twelfth, and thirteenth aspects.
By executing the program read from the recording medium of claim 14 on any one of the message server, the destination terminal, and the source terminal, a system similar to that of claim 1 or claim 4 can be realized.
[0040]
BEST MODE FOR CARRYING OUT THE INVENTION
One embodiment of a message delivery system and method, a program, and a recording medium according to the present invention will be described with reference to FIGS. This form corresponds to all claims.
FIG. 1 is a sequence diagram showing an operation example of the message delivery system. FIG. 2 is a block diagram illustrating a configuration example of the message delivery system. FIG. 3 is a block diagram showing an operation example of the message delivery system. FIG. 4 is a schematic diagram showing a configuration example of the destination conversion table.
[0041]
FIG. 5 is a front view showing an example of a new message editing screen. FIG. 6 is a front view showing an example of the distribution status list screen. FIG. 7 is a schematic diagram showing a list of distribution status types. FIG. 8 is a schematic diagram showing a list of items that can be assigned to a message. FIG. 9 is a sequence diagram illustrating an operation example regarding the transmission processing of a new arrival notification. FIG. 10 is a flowchart showing an outline of the operation of the new arrival notification response.
[0042]
In this embodiment, the source terminal, the message server, the destination terminal, the new arrival notification transmitting means, the message downloading means, and the message transmitting means of claim 1 are the PC terminal 21, the message server 10, the mobile telephone terminal 22, steps S12, S32, respectively. And S13.
In this embodiment, it is assumed that a message distribution system is configured using a communication system as shown in FIG. 2, for example.
[0043]
In this message delivery system, a message server 10 is provided for controlling storage and relay of a message. The message server 10 is connected to a LAN 31 and the Internet 32. The PC terminal 21 (1) is connected to the LAN 31, and the PC terminal 21 (2) is connected to the Internet 32.
[0044]
As each PC terminal 21, for example, a general personal computer can be used. Each PC terminal 21 is used for transmitting a message, managing the status of a transmitted message, and the like.
Of course, if an Internet access function is provided, a message can be transmitted using a personal digital assistant (PDA), a mobile phone, or the like. In that case, for example, a card-type communication module may be used, or some kind of Internet access means may be prepared and a WWW browser may be used.
[0045]
In this example, it is assumed that the mobile phone terminal 22 is used as the destination of the message. Of course, the message can be transmitted to a device other than the mobile phone terminal 22. In the example of FIG. 2, the mobile phone terminals 22 (1) and 22 (2) form a wireless line with a mobile carrier network (mobile communication network provided by a mobile phone communication carrier) 33.
It is assumed that the mobile phone terminal 22 used here has a mail communication function (ie, carrier mail) dedicated to the mobile carrier network 33 provided by the mobile communication carrier and an Internet access function and can execute a user application program. are doing.
[0046]
The mobile carrier network 33 is connected to the Internet 32 via a gateway 34. Accordingly, communication that can pass through the gateway 34 can be performed with a terminal on the Internet 32. Carrier mail can be transmitted and received with low delay without passing through the gateway 34 between mobile phones in the mobile carrier network 33. In the case of sending and receiving mail between an external PC or the like and an internal mobile phone, the gateway 34 is used. In some cases, a delay may occur due to the processing at that time.
[0047]
The message server 10 includes a server main body 11, a mobile phone 12, a modem 13, and a destination conversion table 14. The modem 13 is connected to a telephone line 35.
The mobile phone 12 is a mobile phone that can be used in a communication network of the same mobile carrier as the mobile phone terminal 22. The mobile phone 12 has a function of transmitting carrier network mail provided by the mobile carrier, and further has a built-in function for controlling functions such as mail transmission from the server main body 11 connected via a cable. ing.
[0048]
Therefore, the server body 11 can connect to each mobile phone terminal 22 by controlling the modem 13 to make a voice call. In this case, since the connection is made from the telephone line 35 to the mobile carrier network 33 via an exchange (not shown), the gateway 34 does not pass.
In addition, the server main body 11 can transmit a carrier mail to each mobile phone terminal 22 by transmitting a mail using the mobile phone 12. In this case, since the mail is a carrier mail, the mail arrives directly from the mobile carrier network 33 (mobile carrier packet network 33 a) to the other mobile phone terminal 22 without passing through the gateway 34.
[0049]
If packet communication of the mobile carrier is available, a one-to-one connection request is issued to the destination terminal, and if the destination terminal can receive the call correctly, the mobile phone 12 is used. This packet communication call can be used as a new arrival notification. Further, the mobile phone 12 can be used to make a call for a new arrival notification instead of using the modem 13.
[0050]
In the destination conversion table 14 connected to the server main body 11, for example, as shown in FIG. 4, the mobile phone number and mobile mail address (carrier mail address) of the corresponding mobile phone terminal 22 are previously stored for each message destination. It is registered.
Therefore, the server body 11 can acquire the mobile phone number and the mobile mail address of the mobile phone terminal 22 associated with each destination of each message arriving from the source.
[0051]
The message server 10 is the core of the operation of the present system, and all messages are exchanged via the message server 10. The message transmitted from the source terminal is temporarily stored in the message server 10 and then delivered to each destination terminal. Communication with each terminal is performed via the Internet 32 or the LAN 31.
[0052]
Also, when a new message arrives at the message server 10, the message server 10 is provided with a new arrival notification function to notify the destination terminal of the fact without delay.
In this new arrival notification function, the modem 13 or the mobile phone 12 is used to make a call as a new arrival notification, and the mobile phone 12 is used to send a carrier mail as a new arrival notification or make a packet communication call. .
[0053]
Each of the PC terminals 21 (1) and 21 (2) edits a message, transmits a message, displays a distribution status of each message, and performs various settings and management of the entire system.
Each of the mobile phone terminals 22 (1) and 22 (2) is a terminal carried by the user, and is mainly used for receiving a message. Of course, by changing the settings, some of the functions assigned to the PC terminal 21, such as message transmission and display of the distribution status, can also be realized on the mobile phone terminal 22.
[0054]
The message transmitted from the source terminal, for example, the PC terminal 21 (1) is stored in a hard disk built in the server main body 11 of the message server 10. Then, the message server 10 creates an access page for distribution to the destination terminal (mobile phone terminal 22) for each stored message. The messages stored in the message server 10 are downloaded from the message server 10 according to a request from each destination terminal.
[0055]
For a message newly stored in the message server 10, a new arrival notification is sent to the destination terminal. That is, after receiving and storing a new message, the message server 10 starts transmitting a message new message notification to all destination terminals.
Although the function of the new arrival notification is always implemented in the message server 10, if a part of the function is implemented in another PC terminal 21, the function can be shared and executed.
[0056]
For example, as shown in FIG. 9, the message server 10 that has received the new message first divides the list of destination terminals, and sends a new arrival notification together with the sharing list to a specific PC terminal 21 assigned in advance for function sharing. Issue the start command for This new arrival notification function is sequentially executed for each terminal of the destination, but skips for terminals whose distribution status described later is “message DL completed” or later.
[0057]
It is necessary to connect the modem 13 or the mobile phone 12 to the PC terminal 21 sharing the functions.
There are two types of new arrival notification functions: carrier mail transmission from the mobile phone 12 and voice call transmission from the modem 13.
When transmitting the carrier mail from the mobile phone 12, the server main body 11 or the PC terminal 21 controls the mobile phone 12 connected thereto, and transmits the carrier mail without passing through the general Internet 32. The purpose of this carrier mail is to receive it at the destination terminal, so that the contents of the mail are not limited.
[0058]
As for the voice call originating function, the server main body 11 or the PC terminal 21 controls the modem 13 connected thereto to make a call via the voice telephone network to the destination mobile telephone terminal 22. Since the purpose of this transmission is to make an incoming call at the destination terminal, the length of the incoming time may be as short as necessary.
The message server 10 keeps track of the progress status of each message delivery for each destination terminal and holds the information. The types of distribution status to be grasped are as shown in FIG.
[0059]
After the message server 10 receives the new arrival message, it activates the new arrival notification function and creates a distribution status table. In this distribution state table, all the destination terminals are entries, and hold a state as shown in FIG. 7 as a value. When the distribution status table is created, the values of all terminal entries are initialized to “not notified”.
Next, the value of the distribution status table is sequentially updated to “new arrival notification completed” for the destination terminals to which the new arrival notification has been performed by the new arrival notification function.
[0060]
In addition, the destination terminal inquires of the message server 10 about the message in response to the new arrival notification. At this time, if there is a new message, the destination terminal downloads the message. At this time, the value of the distribution status table is updated to “message DL completed”.
Even if the value of the distribution status table has not been updated to “new arrival notification” by executing the new arrival notification function, the value of the distribution status table is changed if the corresponding message is downloaded. Update directly to "Message DL completed".
[0061]
Next, when displaying the full text of the received message, the destination terminal notifies the message server 10 to that effect. Upon receiving this notification, the message server 10 updates the value of the distribution status table to “message has been displayed”.
[0062]
When the reply to the message received by the destination terminal is performed by the input operation of the receiver, the reply result is transmitted from the destination terminal to the message server 10. Upon receiving this response result, the message server 10 updates the value of the distribution status table to “answered”. The contents of the answer result are also recorded in a table on the message server 10.
[0063]
The message server 10 has a distribution status list function. That is, when there is a status inquiry from a terminal having a predetermined authority, the message server 10 refers to the contents of the distribution status table and returns a response to the inquiry.
The message transmission function is implemented in each PC terminal 21 as a transmission source terminal and each mobile phone terminal 22 as a destination terminal.
[0064]
Further, in this example, since it is assumed that a message of an arbitrary free sentence or a fixed sentence is delivered to a designated destination (individual or group), each of the PC terminal 21 and the mobile phone terminal 22 transmits the message. Editing function and transmission function.
The message created by the editing function is transmitted to the message server 10 via a predetermined network by the transmission function. At the time of transmission, the message is encrypted using a predetermined encryption key to ensure security.
[0065]
When editing a new message or the like, for example, an editing screen as shown in FIG. 5 is displayed. Items that can be assigned to a message to be created are shown in FIG.
That is, it is possible to create and transmit a message including five items of information of “address”, “title”, “body”, “urgency”, and “options for reply”. By transmitting a message including "option" information, the operation when the receiving side answers is simplified.
[0066]
Note that, similarly to a general mail, information other than text, that is, information such as voice or image may be included in a message and transmitted.
Each PC terminal 21 has a message receiving function. In the PC terminal 21, since there are few restrictions on resources such as power consumption, the message server 10 does not notify a new arrival when the destination terminal is the PC terminal 21.
[0067]
Therefore, in order to reduce the delay time, the PC terminal 21 periodically accesses the message server 10 at a predetermined time interval and checks whether there is a message addressed to itself. Then, when the new message is downloaded from the message server 10, the display window is automatically opened and the contents of the message are displayed.
Each PC terminal 21 also has a function of storing a message received in the past on its own local hard disk.
[0068]
A function for displaying a list of the distribution status of each destination terminal for a specific message, that is, a distribution status list function is implemented in the PC terminal 21 and the mobile phone terminal 22. The data displayed by this function is obtained by inquiring of the message server 10 about the value of the distribution status table held by the message server 10.
In practice, the server periodically inquires the message server 10 at predetermined time intervals to obtain the latest data. Therefore, the display content is updated periodically.
[0069]
Specifically, as shown in FIG. 6, a new line is displayed for each destination user or group, and the distribution status for each is displayed. If the destination user who has received the message has already sent a reply to the message, the content of the reply is also displayed. In the remarks column, secondary contact information in the event that contact using the system cannot be made due to some trouble or the like is also displayed.
[0070]
Further, in order to cope with a case where a telephone call is made directly outside the present system, the contents of the distribution status column and the like can be overwritten by direct input. Further, a new arrival inquiry function can be forcibly executed for a user or a group designated by an input operation.
The message inquiry function is implemented in the PC terminal 21 and the mobile phone terminal 22. By using this function, when a message received in the past is to be received again, search and redownload of the message can be realized.
[0071]
Every message is assigned a unique ID. If this ID is known, it can be re-downloaded by directly specifying it and requesting it to the message server 10.
In addition, it is also possible to specify the sender, the date, etc., inquire the message server 10 of the corresponding message, and specify the message to be received from the search result and download again.
[0072]
The mobile phone terminal 22 is normally in a sleep state, suppresses power consumption, and contributes to improving the continuous operation time of the terminal. When receiving or receiving a new arrival notification in the sleep state, the mobile phone terminal 22 uses the trigger as a trigger to inquire of the message server 10 whether or not there is a new arrival message. This is called a new arrival notification response function.
[0073]
Actually, not only when a call is received or received by the mobile phone terminal 22 by the new arrival notification function implemented in the message server 10 or the like, but also when an interrupt occurs due to an arbitrary incoming / outgoing call, mail transmission / reception, or telephone menu operation, the interrupt is generated. This triggers this function and inquires of the message server 10 about the presence or absence of a message.
When a message addressed to the destination terminal is on the message server 10, the message itself is downloaded from the message server 10 to the mobile phone terminal 22 as a reply to the inquiry. If the message server 10 returns no message, the application program on the mobile phone terminal 22 returns to the sleep state. An overview of this function is shown in FIG.
[0074]
In addition, it is also possible to periodically execute an inquiry at each time interval determined on each terminal in advance. This time is determined via a mobile terminal setting function described later or via the message server 10.
When the time is determined via the message server 10, at the time of a new arrival inquiry, information of the time determined on the message server 10 is included in a reply from the message server 10 and notified. The mobile phone terminal 22 receiving this changes the set time on the mobile phone terminal 22 so as to reflect the automatically notified time.
[0075]
The method of determining the time in the message server 10 is performed by making a request to register the set time of the message server 10 from the PC terminal 21 or the mobile phone terminal 22 to which the appropriate authority is given.
In addition, when a message is downloaded by the new arrival notification response function, the subject of the message is displayed on the destination terminal to notify the user that the message has arrived, and an alert is given by sound reproduction or vibration by a vibrator. I do.
[0076]
In order for the user to reply to the message received by the destination terminal, it is necessary to validate button input (transfer control of button input from the telephone function native to the telephone to the application program). To do so, it is necessary to press a special button unique to the telephone.
Therefore, when the above-mentioned alert is issued, the special button is displayed on the screen to urge the user to press the button. After the button input is activated, the application program displays the subject, body, urgency, sender, etc. of the message and, based on the information on the options included in the received message, presses the answer option button. Create and display it.
[0077]
When the user operates a cursor button to select an appropriate answer from options and presses a decision button, for example, the answer is transmitted to the message server 10.
[0078]
As shown in FIG. 3, a communication path using the http protocol is used for a new arrival inquiry and a download of a message. For outgoing calls, a different communication path is used.
Next, as a typical example, FIG. 1 shows an outline of a communication procedure in the case where a message is distributed among three parties, that is, a message server 10, a PC terminal 21 (source terminal), and a mobile phone terminal 22 (destination terminal). ing. This will be described below.
[0079]
1. A message is created on the source terminal and transmitted to the message server 10 (S21, S22).
2. The message server 10 sequentially executes a new arrival notification to each destination terminal (S12). The destination of the new arrival notification is specified by a mobile phone number or a mobile mail address obtained from the destination conversion table shown in FIG.
[0080]
3. On the destination terminal (mobile phone terminal 22) that receives a mail of the new arrival notification (for example, i-mode mail) or a voice call, the user application is automatically activated by the reception or the call (S31). Then, the user application inquires of the message server 10 whether or not there is a message, and downloads the message, if any (S32). Actually, when there is a message, the message is transmitted from the message server 10 as an answer to the inquiry. The inquiry destination of the destination terminal is an address (for example, a URL) assigned to the access page prepared by the message server 10, and the information is stored in the destination terminal in advance, or by inquiring the message server 10 in advance. get.
[0081]
4. When the new message is downloaded, the destination terminal alerts the user using voice, screen display, vibrator or the like (S33).
5. When it is necessary to reply to the message received by the destination terminal, a reply is sent from the destination terminal to the message server 10 by the user's input operation (selection of options) (S34).
[0082]
6. The message server 10 knows the message distribution status for each destination terminal. When an inquiry is made to the message server 10 from a terminal having a specific authority, such as a sender terminal, the message server 10 returns information indicating the state of the corresponding message to the inquiry source (S11, S14, S23, S24).
As described above, the communication path used when the message server 10 or the like notifies the destination terminal of a new arrival notification is different from the communication path used when the message on the message server 10 is downloaded. .
[0083]
In the operation example shown in FIG. 3, when the new arrival notification is made by voice transmission, the route of the modem 13, the telephone line 35, the mobile carrier voice network 33b, and the mobile telephone terminal 22 (1) is used, and the new arrival notification is sent by mail. In this case, the route of the mobile phone 12-the mobile carrier packet network 33a-the mobile phone terminal 22 (1) is used.
When the mobile phone terminal 22 (1) makes an inquiry and downloads a new message to the message server 10, the mobile phone terminal 22 (1) and the server body 11 are connected via the mobile carrier packet network 33a-gateway 34-internet 32. Is used to connect to the server.
[0084]
Note that the programs necessary for the operation of the PC terminal 21, the server body 11, and the mobile phone terminal 22 may be read from a recording medium such as a CD-ROM, or may be downloaded and executed online.
[0085]
【The invention's effect】
As described above, according to the present invention, it is possible to realize a message delivery system with immediacy while utilizing a user application program on a mobile phone that can be customized, and a mobile phone that is inexpensive and widely used By using a telephone terminal, the introduction cost of the system is low, and the burden on the user is small in terms of operation and portability.
[0086]
In addition, even when considering an emergency message system, it is important for a terminal that is always carried to be accustomed to regular use, and in this respect, the system according to the present invention is optimal, and a standby startup application is used. Therefore, it has a feature that it has little effect on daily operations as a mobile phone.
Further, in the present invention, the user notification when a message arrives can be freely customized by a user application. With the mail function built into a normal mobile phone, the user notification at the time of new arrival can hardly be customized, and it is sometimes difficult to notice new arrival. According to the present invention, it is possible to cope with various purposes, such as changing a display method according to the importance of a message, and continuing to reproduce sound or display a screen until a user responds.
[Brief description of the drawings]
FIG. 1 is a sequence diagram illustrating an operation example of a message delivery system.
FIG. 2 is a block diagram illustrating a configuration example of a message delivery system.
FIG. 3 is a block diagram illustrating an operation example of the message delivery system.
FIG. 4 is a schematic diagram illustrating a configuration example of a destination conversion table.
FIG. 5 is a front view showing an example of a new message editing screen.
FIG. 6 is a front view showing an example of a distribution status list screen.
FIG. 7 is a schematic diagram showing a list of types of distribution status.
FIG. 8 is a schematic diagram showing a list of items that can be assigned to a message.
FIG. 9 is a sequence diagram illustrating an operation example of a new arrival notification transmission process.
FIG. 10 is a flowchart showing an outline of an operation of a new arrival notification response.
[Explanation of symbols]
10 Message server
11 Server body
12 Mobile phone
13 Modem
14 Destination conversion table
21 PC terminal
22 Mobile phone terminals
31 LAN
32 Internet
33 Mobile carrier network
34 Gateway
35 telephone line

Claims (14)

At least one source terminal for transmitting a message including information such as text, a message server for receiving and storing a message transmitted by the source terminal, and a destination terminal for receiving a message from the message server, As a destination terminal, a first communication path that cannot use a server PUSH type connection used when receiving a message from a server or the like can be used, and the terminal can make an immediate communication call from the server. In a message delivery system including at least one mobile phone terminal that can also use two communication paths,
The message server further includes a new arrival notification transmitting unit that transmits a new arrival notification to a designated destination terminal via a second communication path in response to reception of a message transmitted from any of the source terminals. Provided,
A message that activates an operation in response to the reception of the new arrival notification from a message server, connects to the message server via the first communication path, and receives a corresponding message from the message server; Provide download means,
A message delivery system, wherein the message server is provided with a message transmitting means for transmitting a corresponding message to the destination terminal according to an inquiry or request from the destination terminal. The message delivery system according to claim 1,
The new arrival notification transmitting means uses at least one of a modem and a mobile phone directly connected to the message server to make or use a call to the destination terminal's telephone number via a voice telephone network. A mail is sent to the mail address of the destination terminal using a mail function limited to the inside of a mobile carrier network that performs a communication service of a mobile phone,
The message download unit includes an interrupt unit that generates an interrupt for a message transmission / reception program that does not consume power or is in a standby state of low power consumption on the destination terminal in response to the new arrival notification; An inquiry means for inquiring of the message server about the presence or absence of a new message with the occurrence of a message as a trigger. The message delivery system according to claim 1, wherein the message server comprises:
A delivery status management means for managing the delivery status of each of the stored messages;
When the message server receives a request from a terminal having predetermined authority, a distribution status transmitting unit that transmits information representing a distribution status of each message managed by the distribution status management unit to a request source terminal; The message delivery system characterized by having provided. 2. The message delivery system according to claim 1, wherein said source terminal includes option information insertion means for including an option of information to be returned as an answer by a destination user in a message to be sent. 2. The message delivery system according to claim 1, wherein a route passing through a mobile carrier network and the Internet is used as the first communication route. 3. The message delivery system according to claim 2, wherein said message download means is configured as a user application program executed on a mobile phone terminal. The message delivery system according to claim 2,
The new arrival notification transmitting means is provided with a destination conversion table for holding at least one of a correspondence between a message destination and a corresponding telephone number and a correspondence between a message destination and a corresponding mail address. Message delivery system. At least one source terminal for transmitting a message including information such as text, a message server for receiving and storing a message transmitted by the source terminal, and a destination terminal for receiving a message from the message server, As a destination terminal, a first communication path that cannot use a server PUSH type connection used when receiving a message from a server or the like can be used, and the terminal can make an immediate communication call from the server. A message delivery method using a communication system including at least one mobile phone terminal that can also use two communication paths,
The message server transmits a new arrival notification to a designated destination terminal via a second communication path, in response to receiving a message transmitted from any of the source terminals,
The destination terminal starts an operation in response to receiving the new arrival notification from a message server, connects to the message server via the first communication path,
The message delivery method, wherein the message server transmits a corresponding message to the destination terminal according to an inquiry or a request from the destination terminal connected via the first communication path. The message delivery method according to claim 8,
The message server, when transmitting the new arrival notification, uses at least one of a modem and a mobile phone directly connected to the message server to send a telephone call to the telephone number of the destination terminal via a voice telephone network. A message delivery characterized by sending a message or sending a message to the mail address of the destination terminal by using a mail function limited to the inside of a mobile carrier network that provides a communication service of a cellular phone. Method. At least one source terminal for transmitting a message including information such as text, a message server for receiving and storing a message transmitted by the source terminal, and a destination terminal for receiving a message from the message server, As a destination terminal, a first communication path that cannot use a server PUSH type connection used when receiving a message from a server or the like can be used, and the terminal can make an immediate communication call from the server. A program executed by a computer on the message server for controlling a message delivery system including at least one mobile phone terminal that can also use two communication paths,
The message server sends a new arrival notification to a designated destination terminal via a second communication path in response to receiving a message transmitted from one of the source terminals. Instructions and
A message transmission procedure for transmitting a corresponding message to the destination terminal in accordance with an inquiry or request from the destination terminal. 11. The program according to claim 10, wherein, in the new arrival notification transmission procedure, a call is transmitted to a telephone number of the destination terminal via a voice telephone network using at least one of a modem and a mobile phone directly connected to the message server. A program for transmitting an e-mail to an e-mail address of the destination terminal by using an e-mail function limited to an inside of a mobile carrier network which performs a communication service of a mobile phone for making a call. At least one source terminal for transmitting a message including information such as text, a message server for receiving and storing a message transmitted by the source terminal, and a destination terminal for receiving a message from the message server, As a destination terminal, a first communication path that cannot use a server PUSH type connection used when receiving a message from a server or the like can be used, and the terminal can make an immediate communication call from the server. A program executed by a computer on the mobile phone terminal for controlling a message delivery system including at least one mobile phone terminal that can also use two communication paths,
A message download procedure for activating an operation in response to receiving the new arrival notification from the message server, connecting to the message server via the first communication path, and receiving a corresponding message from the message server; A program characterized by the following. At least one source terminal for transmitting a message including information such as text, a message server for receiving and storing a message transmitted by the source terminal, and a destination terminal for receiving a message from the message server, As a destination terminal, a first communication path that cannot use a server PUSH type connection used when receiving a message from a server or the like can be used, and the terminal can make an immediate communication call from the server. A program executed by a computer on the source terminal for controlling a message delivery system including at least one mobile phone terminal that can also use two communication paths,
A program provided with an option information insertion procedure for including an option of information to be returned as an answer by a destination user in a message to be transmitted. 14. A recording medium having recorded thereon the computer-readable program according to any one of claims 10, 11, 12, and 13.

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