JP2005012627A - Mobile communication terminal, mobile communication system and mail communication control method - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a mobile communication terminal by which mails can be directly transmitted/received between terminals without interposing a base station in the mobile communication terminal such as a portable telephone set which exchanges mails with the base station via a radio communication line. <P>SOLUTION: The mobile communication terminal is composed of: a radio part 11 for mobile communications which exchanges mails with a base station 3 via a radio communication line; a communication protocol control part 12 for mobile communications; a radio part 13 for short-range communications which exchanges mails with the other mobile communication terminal by a weak radio wave; a communication protocol control part 14 for short-range communications; an ID storage part 21 for storing the ID of a present station with which the present station terminal is identified; an inquiry signal generating part 20 which generates an inquiry signal containing the present station ID and an opposite station ID designating an opposite station terminal, a transmitting party identifying part 19 for identifying whether or not the mail transmitting party is present within the area where mails can be exchanged by the weak radio wave; and a mail transmission control part 15 for performing mail transmission control on the basis of the identified result of whether or not the transmitting party is present within said area. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a mobile communication terminal, a mobile communication system, and a mail communication control method. More specifically, the present invention relates to an improvement of a mobile communication terminal such as a mobile phone that transmits / receives an electronic mail to / from a base station via a wireless communication line.
[0002]
[Prior art]
In recent years, portable communication terminals that can send and receive electronic mail (hereinafter referred to as mail) have become widespread. In addition to text information, mobile phones that can send and receive e-mails with attached image data and audio data are also being commercialized (for example, Patent Document 1).
[0003]
Generally, in such a mobile communication terminal, mail is transmitted / received to / from a partner station terminal via a communication network such as a base station and the Internet and a server. For this reason, for example, even if there is a mail sending partner within the reach of eyes such as in a school classroom, the mail is sent via the base station etc. Had a problem that mail arrival to the other station terminal was delayed. In other words, it was not possible to directly send mail from the local station terminal to the partner station terminal without going through the base station or the like.
[0004]
Another example of the conventional mobile communication terminal is disclosed in Patent Document 2. The portable communication terminal described in Patent Document 2 downloads mail stored in a personal computer via a local wireless link. Therefore, it is not possible to send and receive mail directly between portable communication terminals.
[0005]
[Patent Document 1]
JP 2001-282777 A
[Patent Document 2]
JP 2001-94610 A
[0006]
[Problems to be solved by the invention]
The present invention has been made in view of the above circumstances, and provides a mobile communication terminal, a mobile communication system, and a mail communication control method capable of sending and receiving e-mail between terminals without going through a base station. It is an object. Another object of the present invention is to provide a mobile communication terminal that suppresses delay of incoming e-mail. Another object of the present invention is to provide a mobile communication terminal that does not incur communication charges for sending and receiving e-mail between terminals.
[0007]
Another object of the present invention is to provide a portable communication terminal capable of reducing traffic on a communication line network in transmission / reception of electronic mail between terminals. Another object of the present invention is to provide a portable communication terminal that can reduce the load on the server in sending and receiving e-mail between terminals.
[0008]
[Means for Solving the Problems]
A mobile communication terminal according to the present invention includes a mobile communication means for sending and receiving electronic mail via a wireless communication line with a base station, a short-range communication means for sending and receiving electronic mail with other mobile communication terminals by weak radio waves, Based on the identification result of the transmission partner identification means for identifying whether or not the transmission partner of the electronic mail exists in an area where the electronic mail can be transmitted / received by weak radio waves, and the identification result of whether or not the transmission partner exists, It is comprised by the mail transmission control means which performs transmission control.
[0009]
According to such a configuration, it is identified whether or not a mail transmission partner exists in an area where mail can be transmitted and received by weak radio waves, and mail transmission control can be performed based on the identification result. For this reason, depending on whether or not there is a transmission partner in the area, either mail transmission via the base station or mail transmission by weak radio waves can be selectively performed.
[0010]
The identification of whether or not there is a mail transmission partner is, for example, storing a local station ID for identifying the local station terminal, and generating an inquiry signal including the local station ID and the remote station ID for designating the remote station terminal. This can be performed by causing the short-range communication means to transmit the inquiry signal, and based on a response from the counterpart station terminal to the inquiry signal, it is identified whether or not a transmission partner exists. Further, if the partner station ID is stored as telephone directory data in association with the mail address, and the inquiry signal is generated based on the telephone directory data, the partner station ID of the mail transmission partner is registered in advance. Thus, it is possible to generate an inquiry signal including the partner station ID corresponding to the mail address only by designating the mail address of the transmission partner.
[0011]
In addition, when the transmission partner exists in an area that can be transmitted and received by weak radio waves, if the e-mail is transmitted to the short-range communication means, the identification result as to whether or not the transmission partner exists is within the area. When it is determined that there is a transmission partner, an email can be transmitted with other mobile communication terminals by weak radio waves without going through the base station. Furthermore, if the transmission partner does not exist in an area that can be transmitted / received by weak radio waves, if the mobile communication means transmits an e-mail, depending on whether or not the transmission partner exists in the area, It is possible to automatically switch between a method for sending mail via a base station and a method for sending mail directly to another mobile communication terminal by weak radio waves without going through the base station.
[0012]
A mobile communication terminal according to the present invention is a mobile communication terminal that can be connected via a base station to a server that manages a local address assigned to the mobile communication terminal in the area of the base station. Mobile communication means for sending and receiving e-mails via a short distance communication means for sending and receiving e-mails with other mobile communication terminals by weak radio waves, local address obtaining means for obtaining local addresses, and an inquiry signal An inquiry signal generation means to be generated, a transmission destination identification means for identifying whether or not an electronic mail transmission partner exists, and a mail transmission control means for performing transmission control of the electronic mail. The local address acquisition unit generates an inquiry signal including a destination email address, causes the mobile communication unit to transmit the inquiry signal, and acquires a local address assigned to the mobile communication terminal corresponding to the destination email address from the server. is doing. The inquiry signal generation means generates an inquiry signal including the local station ID for identifying the local station terminal and the acquired local address. The transmission partner identification means causes the short-range communication means to transmit the inquiry signal, and based on the response from the partner station terminal, whether there is a transmission partner of the electronic mail in an area where the electronic mail can be transmitted / received by weak radio waves Identify whether or not. The mail transmission control means controls the transmission of electronic mail based on the identification result of whether or not there is a transmission partner.
[0013]
According to such a configuration, the local address can be acquired from the server based on the destination mail address of the mail transmission partner, so that the mail transmission control can be performed by designating the partner station terminal by this local address. Can do.
[0014]
DETAILED DESCRIPTION OF THE INVENTION
Embodiment 1 FIG.
FIG. 1 is an explanatory view showing a configuration example of a mobile communication system according to Embodiment 1 of the present invention. A mobile communication system 1 according to the present embodiment includes a mobile communication terminal 2 such as a mobile phone, a base station 3 connected to the mobile communication terminal 2 via a wireless communication line, and an Internet or telephone connected to the base station 3. It consists of a communication line network 4 such as a line network.
[0015]
The mobile communication terminal 2 is a small portable electronic device, and can send and receive mail (e-mail) via the base station 3. The mail transmitted from the mobile communication terminal 2 is received by the base station 3 via the wireless communication line, transmitted to the mail server (not shown) via the communication line network 4, and then distributed to other mobile communication terminals. Is done. In this mobile communication terminal 2, when a mail transmission partner exists in an area (short-range wireless communication area) A in which mail can be transmitted and received by weak radio waves, the other party directly by weak radio waves without going through the base station 3. A mail can be transmitted to the station terminal B.
[0016]
For such mail communication between terminals, a weak radio wave having a weaker power than a radio wave used for communication between the mobile communication terminal 2 and the base station 3 is used. For example, transmission / reception of mail between terminals is performed by short-range communication such as Bluetooth (Blue Tooth). Bluetooth is a short-range wireless communication standard, which uses radio waves in a band with a center frequency of 2.45 GHz, and enables wireless communication within a distance of about 10 m.
[0017]
FIG. 2 is a block diagram showing a configuration example of a mobile communication terminal in the mobile communication system of FIG. The mobile communication terminal 2 includes a mobile communication radio unit 11, a mobile communication communication protocol control unit 12, a short-range communication radio unit 13, a short-range communication protocol control unit 14, a mail transmission control unit 15, and a mail. A box (BOX) 16, a key input unit 17, a display unit 18, a transmission partner identification unit 19, an inquiry signal generation unit 20, an ID storage unit 21, and a telephone directory storage unit 22 are configured.
[0018]
The mobile communication wireless unit 11 can be connected to the base station 3 via a wireless communication line, and performs mail transmission / reception processing via the base station 3. The mobile communication communication protocol control unit 12 controls connection between the base station 3 and the mobile communication wireless unit 11.
[0019]
The short-range communication wireless unit 13 can be connected to other mobile communication terminals using weak radio waves, and performs mail transmission / reception processing using the weak radio waves. The near field communication protocol control unit 14 performs connection control between another mobile communication terminal and the near field communication wireless unit 13.
[0020]
The mail transmission control unit 15 performs mail transmission / reception control, mail creation control, and telephone book data management. First, mail reception control will be described. The received mail is sent via the mobile communication radio unit 11 and the mobile communication communication protocol control unit 12 or the short range communication radio unit 13 and the short range communication communication protocol control unit 14. The data is stored in the mail box 16 by the control unit 15. The mail box 16 is mail storage means for storing received mail and the like. The received mail stored in the mail box 16 is displayed on the display unit 18 by a key operation in the key input unit 17 and the contents of the mail, that is, the transmission source mail address, the reception date and time, the mail text, etc., as necessary. Can be confirmed.
[0021]
Next, mail creation control will be described. The user can create a mail by a key operation on the key input unit 17. The created mail is displayed on the display unit 18 by the mail transmission control unit 15 and stored in the mail box 16.
[0022]
Next, management of telephone directory data will be described. The mail transmission control unit 15 registers and searches the phone book data in the phone book storage unit 22. The phone book storage unit 22 is a database that stores phone book data for each mail address. As phone book data, a mail address, a partner station ID associated with the mail address, a partner station user name, and a partner station The telephone number of the terminal is stored in advance. The partner station ID is identification data for designating a partner station terminal to which the mail is to be transmitted, and is composed of data unique to the terminal. The registered telephone directory data can be displayed on the display unit 18 as necessary.
[0023]
Next, mail transmission control will be described. The mail transmission control unit 15 selects either mail transmission via the base station 3 or mail transmission by weak radio waves based on the phone book data registered in the phone book storage unit 22 at the time of mail transmission. It is carried out. That is, when the destination mail address is input, the mail transmission control unit 15 searches the phone book data registered in the phone book storage unit 22, and the partner station ID corresponding to the destination mail address is registered. It is determined whether or not it exists. At this time, if the partner station ID is not registered in the telephone directory storage unit 22, the transmitted mail is output to the mobile communication protocol control unit 12, and mail transmission is performed via the base station 3. On the other hand, when the counterpart station ID is registered in the telephone directory storage unit 22, a control signal for identifying whether there is a mail transmission partner in the short-range wireless communication area A is sent to the transmission partner identification unit 19. The mail is transmitted based on the output and the identification result by the transmission partner identifying unit 19.
[0024]
For example, when there is a transmission partner in the short-range wireless communication area A, the transmission mail is output to the communication protocol control unit 14 for short-range communication, and mail transmission by weak radio waves is performed. On the other hand, when there is no transmission partner in the short-range wireless communication area A, a transmission mail is output to the mobile communication communication protocol control unit 12 and mail transmission via the base station 3 is performed.
[0025]
That is, when the partner station ID is registered in advance and there is a transmission partner in the short-range wireless communication area A, mail transmission by weak radio waves is performed to the partner station terminal B based on the partner station ID. Is called. On the other hand, if the partner station ID is not registered or there is no transmission partner in the short-range wireless communication area A, normal mail transmission via the base station 3 is performed based on the mail address. .
[0026]
The transmission partner identification unit 19 identifies whether or not there is a transmission partner in the short-range wireless communication area A based on a control signal from the mail transmission control unit 15. The identification of whether or not the transmission partner exists is, for example, transmitted to other mobile communication terminals in the short-range wireless communication area A using a weak radio wave as an inquiry signal as to whether or not the transmission partner is a mail transmission partner. Based on the response from the partner station terminal B, it is determined whether or not the transmission partner exists in the short-range wireless communication area A. More specifically, a control signal for generating an inquiry signal is output from the transmission partner identification unit 19 to the inquiry signal generation unit 20, and a response to the inquiry signal is sent from the short-range communication protocol control unit 14 to the transmission partner identification unit 19. When input, it is determined that the counterpart station B exists in the short-range wireless communication area A.
[0027]
The inquiry signal generation unit 20 outputs an inquiry signal to the short-range communication protocol control unit 14 based on the control signal from the transmission partner identification unit 19. This inquiry signal is generated based on the own station ID stored in the ID storage unit 21 and the phone book data registered in the phone book storage unit 22. Since an inquiry signal is generated based on the phone book data, by registering in advance the destination station ID of the destination of the email, only by specifying the destination email address, the destination corresponding to this destination email address An inquiry signal including the station ID can be generated. The local station ID is identification data for identifying the local station terminal, and includes data unique to the terminal. The inquiry signal is composed of the local station ID and the partner station ID corresponding to the destination mail address.
[0028]
3 is an explanatory diagram showing an example of the phone book data registered in the mobile communication terminal of FIG. 2, and FIG. 3 (a) shows the phone book data displayed as a list on the display unit 18, and FIG. (B) shows the details for each mail address. The list display screen 31 displays a list of a plurality of names of counterpart station users registered in the telephone directory storage unit 22. When the user of the own station selects one of the list by key operation, the phone book data corresponding to the selected name can be displayed in detail for each mail address.
[0029]
On the detail display screen 32, the telephone number 33, the mail address 34, and the partner station ID 35 of the partner station terminal are displayed. The user of the own station can input the destination mail address by designating the mail address by a key operation on the detail display screen 32.
[0030]
Steps S1 to S6 in FIG. 4 are flowcharts showing an example of mail transmission operation in the mobile communication terminal in FIG. First, when the mail transmission control unit 15 inputs a transmission destination mail address by designating the mail address of the phone book data displayed on the display unit 18 by the user of the local station at the time of mail transmission (step S1). The telephone directory storage unit 22 is searched to determine whether or not the partner station ID corresponding to this transmission destination mail address is registered (step S2).
[0031]
If the partner station ID is not registered, the transmitted mail is output to the mobile communication protocol control unit 12 and the mail is transmitted via the base station 3 (step S6). On the other hand, if the partner station ID is registered, the mail transmission control unit 15 outputs a control signal to the transmission partner identifying unit 19 to check whether or not there is a mail transmission partner in the short-range wireless communication area A. Identification is performed.
[0032]
The transmission partner identification unit 19 outputs a control signal to the inquiry signal generation unit 20 based on the control signal from the mail transmission control unit 15, and the inquiry signal generation unit 20 generates an inquiry signal based on the control signal. (Step S3).
[0033]
The generated inquiry signal is output to the near field communication protocol control unit 14 and transmitted by weak radio waves via the near field communication wireless unit 13. A response from the partner station terminal to the inquiry signal is received by the short-range communication wireless unit 13 and is output to the transmission partner identification unit 19 via the short-range communication protocol control unit 14, thereby enabling short-range wireless communication. It is identified whether or not there is a mail transmission partner in the area A (step S4).
[0034]
When there is no transmission partner in the short-range wireless communication area A, the transmission mail is output to the communication protocol control unit 12 for mobile communication, and mail transmission by mobile communication via the base station 3 is performed (step S6). . On the other hand, when there is a transmission partner in the short-range wireless communication area A, a transmission mail is output to the communication protocol control unit 14 for short-range communication, and mail transmission is performed by short-range communication with weak radio waves (step). S5).
[0035]
According to the present embodiment, it is identified whether there is a mail transmission partner in the short-range wireless communication area A, and mail transmission control is performed based on the identification result. Depending on whether or not there is a transmission partner in A, either mail transmission via the base station 3 or mail transmission by weak radio waves can be automatically selected and sent.
[0036]
Therefore, when short-distance communication is possible, such as when a mail transmission partner is within the reach of the eyes, mail can be directly transmitted and received between terminals without going through the base station 3. For this reason, since it is not affected by the busyness of the communication line or the like, it is possible to prevent a delay in the incoming mail to the partner station terminal.
[0037]
Also, by directly transmitting and receiving mail without going through the base station 3, the burden of communication charges can be reduced. Further, since mail is transmitted and received without going through the base station 3, the communication line network 4 and the mail server, traffic in the communication line network can be reduced and the burden on the mail server can be reduced.
[0038]
In the present embodiment, the case where terminal-specific data is used as the partner station ID has been described, but the present invention is not limited to this. Any other station ID may be used as long as the other station terminal can be specified. For example, the other party terminal phone number, the name of the other station user, or predetermined between users It may be an identification code.
[0039]
Embodiment 2. FIG.
In the first embodiment, the mobile communication terminal 2 has been described in which either a mail transmission via the base station 3 or a mail transmission using a weak radio wave is automatically selected by inputting a destination mail address. On the other hand, in the present embodiment, a mobile communication terminal in which mail transmission by weak radio waves is designated by designating a registered counterpart station ID will be described.
[0040]
Steps S11 to S17 in FIG. 5 are flowcharts showing an operation example of mail transmission in the mobile communication terminal according to the second embodiment of the present invention. First, when a mail is created by the user, the mail transmission control unit 15 reads the phone book data corresponding to the transmission destination from the phone book storage unit 22 based on the key operation and displays it on the display unit 18 (step S11). ).
[0041]
The partner station ID can be designated by key operation from the displayed telephone directory data (short-distance communication designating means). When the partner station ID of the mail transmission destination is designated by the user (step S12), the mail transmission control unit 15 outputs a control signal to the transmission partner identification unit 19 to identify whether or not there is a mail transmission partner in the short-range wireless communication area A (steps S13 and S14). On the other hand, when the destination station ID is not specified and the destination mail address is specified, mail transmission by mobile communication via the base station 3 is performed (step S16).
[0042]
If the transmission partner is present in the short-range wireless communication area A as a result of identification as to whether or not there is a transmission partner, mail transmission is performed by short-range communication using weak radio waves (step S15). On the other hand, if there is no transmission partner, the mail is not transmitted and the mail transmission operation ends (step S17).
[0043]
According to the present embodiment, it is possible to transmit a mail by specifying near field communication using weak radio waves. In particular, when there is no transmission partner in the short-range wireless communication area A even though the short-range communication is designated, the mail transmission is canceled without transmitting the mail via the base station 3. , It is possible to prevent unintended mail transmission by the user.
[0044]
Embodiment 3 FIG.
In the first embodiment, the mobile communication terminal 2 in which the partner station ID is registered in advance as telephone directory data has been described. In contrast, in the present embodiment, a mobile communication terminal that acquires a local address assigned in the area of the base station 3 and performs near field communication using the local address as a partner station ID will be described.
[0045]
FIG. 6 is an explanatory diagram showing a configuration example of a mobile communication system according to the third embodiment of the present invention. The mobile communication system 1a of the present embodiment is different from the mobile communication system 1 (Embodiment 1) of FIG. 1 in that a local address management server 5 connected to the communication network 4 is provided. .
[0046]
The local address management server 5 is connected to the base station 3 via the communication line network 4 and manages local addresses assigned to mobile communication terminals in the area of the base station 3. This local address is stored in association with the mail address. The local address management server 5 outputs a local address in response to an inquiry from the terminal via the base station 3. The local address may be one registered by the user, one assigned by the server administrator, or one automatically assigned by the base station 3.
[0047]
FIG. 7 is a block diagram showing a configuration example of a mobile communication terminal in the mobile communication system of FIG. This mobile communication terminal 2a is different from the mobile communication terminal 2 (Embodiment 1) of FIG. 2 in that it includes a local address acquisition unit 41.
[0048]
When the transmission destination mail address is input, the mail transmission control unit 15 checks the transmission destination mail address and determines whether it is for the same type of mobile communication terminal as the local terminal. As a result of the determination of the mail address, if it is clearly not for a terminal of the same type as the local station terminal, that is, for a terminal capable of short-range communication, for example, for a personal computer instead of a mobile communication terminal, the mail transmission control unit 15 Sends mail by mobile communication. On the other hand, in the case of a terminal of the same type as the local station terminal, a control signal for acquiring a local address for near field communication is output to the local address acquisition unit 41 by the mail transmission control unit 15.
[0049]
The local address acquisition unit 41 acquires a local address from the local address management server 5 based on a control signal from the mail transmission control unit 15. That is, when the control signal is input, the local address acquisition unit 41 generates an inquiry signal including a destination mail address (mail transmission destination mail address), and sends the inquiry signal to the communication protocol control unit 12 for mobile communication. Output. The inquiry signal is transmitted by the mobile communication radio unit 11 and received by the local address management server 5 via the base station 3 and the communication line network 4.
[0050]
The local address management server 5 outputs a local address corresponding to the mail transmission partner based on the destination mail address included in the inquiry signal. That is, the local address assigned to the mobile communication terminal corresponding to the destination mail address is output. This local address is transmitted through the communication network 4 and the base station 3 and is input to the local address acquisition unit 41 by the mobile communication radio unit 11 and the mobile communication protocol control unit 12. That is, the local address corresponding to the destination mail address is acquired from the local address management server 5 via the base station 3.
[0051]
The local address acquired in this way is output to the inquiry signal generator 42, and an inquiry signal is generated based on the local address. When the local address cannot be acquired, for example, the local address corresponding to the destination mail address is not registered in the local address management server 5, an inquiry signal is not generated, and mail transmission is performed by mobile communication. Other configurations are the same as those of the mobile communication terminal 2 of FIG.
[0052]
Steps S21 to S29 in FIG. 8 are flowcharts showing an operation example of mail transmission in the mobile communication terminal in FIG. When the transmission destination mail address is input (step S21), the mail transmission control unit 15 checks the mail address (step S22).
[0053]
As a result of checking the mail address, if it is determined that the other station terminal of the mail transmission destination is the same type as the local station terminal, a control signal is output by the mail transmission control unit 15 and an inquiry is made by the local address acquisition unit 41. A signal is generated (steps S23 and S24). On the other hand, when it is determined that the partner station terminal is not the same type as the own station terminal, the control signal is not output and mail transmission is performed by mobile communication (step S29).
[0054]
The generated inquiry signal is transmitted by the mobile communication communication protocol control unit 12 and the mobile communication radio unit 11 and transmitted to the local address management server 5 via the base station 3. The local address management server 5 outputs a local address based on the destination mail address included in the inquiry signal.
[0055]
The local address acquisition unit 41 acquires the local address via the mobile communication radio unit 11 and the mobile communication communication protocol control unit 12, and outputs the local address to the inquiry signal generation unit 42 (step S25). If the local address cannot be acquired, mail transmission is performed by mobile communication (step S29).
[0056]
The inquiry signal generation unit 42 generates an inquiry signal based on the local address acquired by the local address acquisition unit 41 (step S26), and identifies whether or not a mail transmission partner exists in the short-range wireless communication area A. Is performed (step S27). As a result of this identification, if there is a transmission partner in the short-range wireless communication area A, mail transmission is performed by short-range communication (step S28). If there is no transmission partner in the short-range wireless communication area A, mobile communication is performed. As a result, the mail is transmitted (step S29).
[0057]
According to the present embodiment, a local address is automatically acquired simply by inputting a destination mail address, and short-range communication is performed using this local address as a partner station ID. For this reason, the user can send an e-mail by short-range communication without being aware of the partner station ID.
[0058]
Embodiment 4 FIG.
FIG. 9 is a block diagram showing a configuration example of a mobile communication terminal according to Embodiment 4 of the present invention. This mobile communication terminal 2b differs from the mobile communication terminal 2 of FIG. 2 in that it includes a counterpart station ID extraction unit 44 that extracts a counterpart station ID from the received mail.
[0059]
When the mail transmission control unit 15 receives the mail, the mail transmission control unit 15 stores the received mail in the mail box 16 and outputs it to the counterpart station ID extraction unit 44. The partner station ID extracting unit 44 determines whether or not the partner station ID (mail sender ID) is attached to the received mail. If the partner station ID is attached, the partner station ID extracting unit 44 stores the received station ID in the telephone directory storage unit 22. Search the registered phone book data. If the sender mail address of the received mail is registered in the telephone book data, the partner station ID is extracted from the received mail, and this partner station ID is written in the telephone book storage unit 22 as supplementary information corresponding to the sender mail address. It is. On the other hand, if the destination station ID is not attached to the received mail or the sender mail address is not registered in the phone book data, the process is terminated. Other configurations are the same as those of the mobile communication terminal 2 of FIG.
[0060]
Steps S31 to S35 in FIG. 10 are flowcharts showing an operation example after mail reception in the mobile communication terminal in FIG. When the mail transmission control unit 15 receives the mail (step S31), the mail transmission control unit 15 stores the received mail in the mail box 16 and outputs it to the counterpart station ID extraction unit 44 (step S32).
[0061]
The partner station ID extraction unit 44 determines whether or not the partner station ID is attached to the received mail. If the partner station ID is attached, the partner station ID extraction unit 44 searches the phone book data and determines whether or not the sender mail address is registered. Is determined (steps S33 and S34). If the sender mail address is registered, the partner station ID is extracted from the received mail, and the partner station ID is stored in association with the sender mail address (step S35). On the other hand, if the destination station ID is not attached to the received mail or the sender mail address is not registered in the phone book data, the process ends.
[0062]
According to the present embodiment, the partner station ID is extracted from the received mail and written in the telephone book data. Therefore, when the mail is transmitted, the partner station ID can be called from the telephone book data and used for mail transmission.
[0063]
In the present embodiment, the mobile communication terminal that does not extract the partner station ID attached to the received mail when the sender mail address is not registered in the phone book data has been described. The counterpart station ID may be used. For example, if a partner station ID is attached to the source mail at the time of sending a reply mail, the transmission control of the mail can be performed using this partner station ID.
[0064]
Steps S41 to S44 in FIG. 11 are flowcharts showing an operation example when sending a reply mail in the mobile communication terminal in FIG. When a reply mail is created by the user (step S41), the mail transmission control unit 15 reads the source mail from the mail box 16, and outputs the source mail to the counterpart station ID extraction unit 44. The partner station ID extracting unit 44 determines whether or not the partner station ID is attached to the transmission source mail (step S42), and if it is attached, extracts the partner station ID from the transmission source mail (step S43). ) And output to the inquiry signal generator 20. The inquiry signal generation unit 20 generates an inquiry signal based on this partner station ID. Subsequent mail transmission control is performed in the same manner as the processing procedure of steps S4 to S6 in FIG.
[0065]
【The invention's effect】
As described above, according to the mobile communication terminal, the mobile communication system, and the mail communication control method according to the present invention, it is determined whether or not there is an electronic mail transmission partner in an area where electronic mail can be transmitted and received by weak radio waves. Since the transmission control of the electronic mail is performed based on the identification result, the electronic mail transmission via the base station and the electronic signal by the weak radio wave are performed depending on whether or not the transmission partner exists in the area. Either sending mail can be performed selectively.
[0066]
Therefore, when there is an e-mail transmission partner within a reachable range, the e-mail can be directly transmitted / received between the terminals without going through the base station. In addition, it is possible to send a mail without delaying the arrival of an electronic mail to the partner station terminal. Moreover, the burden of communication charges can be reduced by transmitting and receiving e-mail directly without going through the base station. In addition, since e-mail is transmitted and received without going through a base station or the like, traffic on the communication line network can be reduced, and the burden on the mail server can be reduced.
[0067]
Further, since the local address is automatically acquired from the server based on the destination mail address of the e-mail transmission partner, the e-mail transmission control can be performed by designating the partner station terminal by this local address.
[Brief description of the drawings]
FIG. 1 is an explanatory diagram showing a configuration example of a mobile communication system according to a first embodiment of the present invention.
2 is a block diagram showing a configuration example of a mobile communication terminal in the mobile communication system of FIG.
FIG. 3 is an explanatory diagram showing an example of phone book data registered in the mobile communication terminal of FIG. 2;
4 is a flowchart showing an operation example of mail transmission in the mobile communication terminal of FIG. 2;
FIG. 5 is a flowchart showing an operation example of mail transmission in the mobile communication terminal according to the second embodiment of the present invention.
FIG. 6 is an explanatory diagram showing a configuration example of a mobile communication system according to a third embodiment of the present invention.
7 is a block diagram showing a configuration example of a mobile communication terminal in the mobile communication system of FIG.
8 is a flowchart showing an example of mail transmission operation in the mobile communication terminal of FIG.
FIG. 9 is a block diagram showing a configuration example of a mobile communication terminal according to a fourth embodiment of the present invention.
10 is a flowchart showing an operation example after mail reception in the mobile communication terminal of FIG. 9;
11 is a flowchart showing an operation example when sending a reply mail in the mobile communication terminal of FIG. 9;
[Explanation of symbols]
1 mobile communication system, 2, 2a, 2b mobile communication terminal, 3 base station,
4 communication network, 5 local address management server,
11 Radio unit for mobile communication, 12 Communication protocol control unit for mobile communication,
13 Wireless unit for near field communication, 14 Communication protocol control unit for near field communication,
15 Mail transmission control section, 16 Mailbox, 17 Key input section,
18 display unit, 19 transmission partner identification unit, 20, 42 inquiry signal generation unit,
21 ID storage unit, 22, 43 Phonebook storage unit,
41 Local address acquisition unit, 44 Counterpart ID extraction unit

Claims (10)

Mobile communication means for sending and receiving e-mails via a wireless communication line with a base station;
Short-range communication means for sending and receiving e-mail with other mobile communication terminals by weak radio waves,
A transmission partner identifying means for identifying whether or not there is a transmission partner of the e-mail in an area where the e-mail can be transmitted and received by weak radio waves,
A portable communication terminal comprising a mail transmission control means for performing transmission control of an electronic mail based on an identification result of whether or not a transmission partner exists. ID storage means for storing a local station ID for identifying the local station terminal;
Inquiry signal generating means for generating an inquiry signal including the own station ID and the partner station ID for designating the partner station terminal,
2. The transmission partner identification unit causes the short-range communication unit to transmit the inquiry signal, and identifies whether or not a transmission partner exists based on a response from a partner station terminal. The mobile communication terminal described in 1. Phone book storage means for storing the partner station ID as phone book data in association with the mail address;
The portable communication terminal according to claim 2, wherein the inquiry signal generating means generates an inquiry signal based on the telephone directory data. 4. The portable communication terminal according to claim 3, further comprising: a counterpart station ID extracting unit that extracts a counterpart station ID from the received electronic mail and writes it in the telephone directory storage unit in association with a mail address. 2. The mobile communication terminal according to claim 1, wherein the mail transmission control unit causes the short-range communication unit to transmit an e-mail when a transmission partner exists in an area where transmission and reception can be performed by weak radio waves. 6. The portable communication terminal according to claim 5, wherein the mail transmission control means causes the mobile communication means to transmit an e-mail when the transmission partner does not exist in an area where transmission and reception can be performed by weak radio waves. Providing short-range communication designation means to designate short-range communication by weak radio waves,
6. The e-mail transmission control unit according to claim 5, wherein, when short-range communication is designated, the e-mail is not transmitted if the transmission partner does not exist in an area that can be transmitted and received by weak radio waves. Mobile communication terminal. A mobile communication terminal connectable via a base station with a server that manages a local address assigned to the mobile communication terminal in the area of the base station,
Mobile communication means for sending and receiving e-mails via a wireless communication line with a base station;
Short-range communication means for sending and receiving e-mail with other mobile communication terminals by weak radio waves,
A local address acquisition unit that generates an inquiry signal including a destination mail address, causes the mobile communication unit to transmit the inquiry signal, and acquires a local address assigned to the mobile communication terminal corresponding to the destination mail address from the server; ,
Inquiry signal generating means for generating an inquiry signal including the local station ID for identifying the local station terminal and the acquired local address;
A transmission for sending the inquiry signal to the short-range communication means and identifying whether or not the other party of the electronic mail exists in an area where the electronic mail can be transmitted / received by a weak radio wave based on a response from the counterpart station terminal Partner identification means,
A portable communication terminal comprising a mail transmission control means for performing transmission control of an electronic mail based on an identification result of whether or not a transmission partner exists. A base station,
A server connected to a base station via a communication network and managing a local address assigned to a mobile communication terminal in the area of the base station;
A server and a mobile communication terminal connectable via a base station,
The mobile communication terminal includes mobile communication means for sending and receiving e-mails with a base station via a wireless communication line, near field communication means for sending and receiving e-mails with other mobile communication terminals using weak radio waves, and a destination mail address. Local address acquisition means for generating an inquiry signal including the following, causing the mobile communication means to transmit the inquiry signal, and acquiring from the server a local address assigned to a portable communication terminal corresponding to a destination mail address; A reference signal generating means for generating a reference signal including a local station ID for identifying a terminal and the acquired local address, and causing the short-range communication means to transmit the reference signal, and based on a response from the counterpart station terminal, a weak radio wave And a transmission partner identification means for identifying whether or not the transmission partner of the electronic mail exists in an area where the electronic mail can be transmitted and received, and transmission Hand based on is discrimination result indicating whether the present mobile communication system, comprising the mail transmission control means for performing transmission control of the electronic mail. A mobile communication step for sending and receiving e-mails with a base station via a wireless communication line;
A near field communication step of sending and receiving e-mails with other mobile communication terminals by weak radio waves,
A transmission partner identification step for identifying whether or not there is a transmission partner of the e-mail in an area where the e-mail can be transmitted and received by weak radio waves,
A mail communication control method comprising a mail transmission control step for controlling transmission of an electronic mail based on an identification result of whether or not a transmission partner exists.

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