JP3613189B2 - E-mail communication system - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an electronic mail communication system for communicating electronic mail between a server and an electronic mail communication terminal.ToRelated.
[0002]
[Problems to be solved by the invention]
In recent years, with the spread of the Internet, e-mail communication services have become widespread, and it is possible to perform e-mail communication even on mobile terminals such as mobile phones. By the way, in the conventional case, since the e-mail address is fixedly given to a terminal such as a mobile phone, the user basically starts from a terminal that recognizes the e-mail address of his / her own terminal. It is possible to receive an e-mail only, and it is possible to send an e-mail only to a terminal that recognizes an e-mail address.
[0003]
However, in other words, this means that the user cannot receive an e-mail from a terminal that does not recognize the e-mail address, and the terminal does not recognize the e-mail address. It is impossible to send e-mails, so if you want to receive e-mails from an unspecified number of people or send e-mails to an unspecified number of people, respond to it. I can't.
[0004]
The present invention has been made in view of the circumstances described above, and a first object thereof is to receive e-mails from an unspecified number of people, and a second object is to reject e-mails. An e-mail communication system that can be sent to a large number of people, thereby improving interest.TheIt is to provide.
[0005]
[Means for Solving the Problems]
According to the electronic mail communication system of claim 1, in the server, the position recognition means recognizes the position of the electronic mail communication terminal on the map, and the electronic mail distribution means recognizes the electronic mail communication terminal recognized by the position recognition means. Recognize the position-corresponding e-mail address corresponding to the position of the e-mail communication terminal as the e-mail address of the e-mail communication terminal. Delivered to mail communication terminalsThe e-mail address converting means converts the destination address of the e-mail received from the e-mail communication terminal into a position-corresponding e-mail address.It was configured as follows.
[0006]
Therefore, when an unspecified number of people send an e-mail with a position-corresponding e-mail address as a destination address, the e-mail sent from the unspecified number of people will be delivered to the e-mail communication terminal. As a result, a user who uses the e-mail communication terminal can receive e-mails from an unspecified number of people, and can obtain, for example, town information, gourmet information or information on recruiting friends from an unspecified number of people. Can improve the interest.In addition, the e-mail transmitted from the e-mail communication terminal is also distributed to an unspecified number of people, so that a user using the e-mail communication terminal can receive an e-mail from an unspecified number of people. In addition to receiving, you can also send e-mail to an unspecified number of people. For example, you can inform the unspecified number of people about town information, gourmet information or information on recruiting friends. Further efforts can be made.
[0007]
According to the electronic mail communication system of claim 2, in the server,The e-mail address notifying unit notifies the e-mail communication terminal of the e-mail address corresponding to the position.It was configured as follows. Therefore,By notifying the e-mail communication terminal of the position-corresponding e-mail address, the e-mail communication terminal recognizes the position-corresponding e-mail address, and the e-mail communication terminal uses the position-corresponding e-mail address as the destination address. When an e-mail can be transmitted and the e-mail communication terminal transmits an e-mail using the position-corresponding e-mail address as a destination address, the e-mail communication terminal can transmit the e-mail in the same manner as described in claim 1 above. Since the transmitted e-mail will be delivered to an unspecified number of people, this allows a user using an e-mail communication terminal to send an e-mail to an unspecified number of people, for example, Town information, gourmet information, or information on recruiting friends can be notified to an unspecified number of people, improving interest It can be reduced further.
[0008]
According to the electronic mail communication system of claim 3,In the e-mail communication terminal, the position input means inputs the position on the map, the e-mail address notification means notifies the server of the position-corresponding e-mail address corresponding to the position input by the position input means, and In the server, when the e-mail delivery means is notified of the position-corresponding e-mail address from the e-mail communication terminal, the e-mail address corresponding to the notified position is recognized as the e-mail address of the e-mail communication terminal. When an e-mail is received with the e-mail address of the recipient as the destination address, the corresponding e-mail is delivered to the e-mail communication terminal.It was configured as follows. Therefore,In the same manner as described in claim 1, when an unspecified number of people send an e-mail using a position-corresponding e-mail address as a destination address, the e-mail sent from the unspecified number of people is e-mailed. As a result, the user using the electronic mail communication terminal can receive the electronic mail from an unspecified large number of people, and the interest can be improved.
[0009]
According to the electronic mail communication system of claim 4, in the server,The e-mail address converting means converts the destination address of the e-mail received from the e-mail communication terminal into a position-corresponding e-mail address.It was configured as follows. Therefore, the above claims1In the same way as described inNot only are emails sent from an unspecified number of people delivered to an email communication terminal, but emails sent from an email communication terminal will also be delivered to an unspecified number of people, Thereby, the user who uses the e-mail communication terminal can not only receive an e-mail from an unspecified number of people but can also send an e-mail to an unspecified number of people, further improving the interest. be able to.
[0010]
According to the electronic mail communication system of claim 5,In the e-mail communication terminal, the e-mail transmission means transmits the e-mail to the server using the position-corresponding e-mail address as the transmission destination address.It was configured as follows. Therefore, the above claims2In the same way as described inWhen an e-mail communication terminal transmits an e-mail with a position-corresponding e-mail address as a destination address, the e-mail transmitted from the e-mail communication terminal is delivered to an unspecified number of people. A user who uses an electronic mail communication terminal can also send an electronic mail to an unspecified number of people, and can further improve interest.
[0019]
DETAILED DESCRIPTION OF THE INVENTION
(First embodiment)
Hereinafter, the first embodiment in which the electronic mail communication terminal of the present invention is applied to a mobile phone having an electronic mail communication function and a GPS (Global Positioning System) positioning function, and applied to an electronic mail communication system using the mobile phone. This will be described with reference to FIGS. The first embodiment is claimed in the present invention.1Corresponds to the described invention.
[0020]
First, FIG. 2 shows the electrical configuration of the mobile phone as a functional block. In the mobile phone 1, the CPU 2 (control means in the present invention) is composed mainly of a microcomputer, and is input by the telephone communication unit 4 and the microphone 5 that perform processing related to telephone communication with the telephone network 3. The voice processing unit 7 that performs voice processing on the transmitted voice and the received voice output from the receiver 6, the “call start” key for starting the call, the “call end” key for ending the call, and the numbers “0” to “0” Key operation unit 8 having a number of keys such as a “number” key for inputting “9” and a “function” key for setting / releasing various functions, an LCD (Liquid Crystal Display). 9) A memory 10 for storing a program together with various information such as memory dial information is connected. The CPU 2 is also connected to the GPS positioning unit 11.
[0021]
When the GPS positioning unit 11 captures a GPS radio wave radiated from the GPS satellite 12, the GPS positioning unit 11 performs radio processing (such as demodulation processing) on the captured GPS radio wave to acquire GPS data, and calculates the acquired GPS data. In this case, if the GPS positioning unit 11 is not compatible with the network assist type, that is, if the GPS data is calculated only by itself, the latitude and longitude indicating the position of the mobile phone 1 on the map are calculated. On the other hand, if the GPS positioning unit 11 corresponds to the network assist type, that is, if GPS data is calculated jointly between itself and a positioning server described later, The latitude and longitude indicating the position of the mobile phone 1 on the map are calculated in cooperation with each other. In this case, the mobile phone 1 may have, for example, “aaaaaa@xxx.xx.xx.xx (where x is a letter or number that is permitted to be used)” by a contract with a telecommunications carrier that provides a mobile phone communication service. "E-mail address".
[0022]
Next, FIG. 3 schematically shows a configuration of an electronic mail communication system including the above-described mobile phone 1. The radio base station 13 performs location registration and call control management of the mobile phone 1. The packet switching network 14 processes packet format data, while the circuit switched network 15 processes voice format data. The server 16 includes an e-mail server 17 (e-mail delivery means and e-mail address conversion means referred to in the present invention) that manages e-mail, and a positioning server 18 (position recognition means defined in the present invention) that performs positioning. Configured.
[0023]
Now, the process of incoming e-mail will be briefly described. The e-mail server 17 monitors incoming e-mail from the Internet 19, and in this case, the e-mail address of the mobile phone 1 is “ When an incoming e-mail having a destination address “aaaaaa@xxx.xx.xx.xx” is detected, the e-mail incoming is notified to the gateway 20. When the arrival of an e-mail is notified, the gateway 20 calls the mobile phone 1 that is the destination of the e-mail using the control channel, and when the mobile phone 1 is called from the gateway 20, the e-mail delivery is sent to the e-mail. Request to server 17. Then, the e-mail server 17 distributes the corresponding e-mail to the mobile phone 1. In this way, the mobile phone 1 can receive an e-mail from the Internet 19 with the destination address “aaaaaa@xxx.xxx.xx.xx”, which is the e-mail address assigned to itself. Become.
[0024]
Next, the operation of the above configuration will be described with reference to FIG. Here, it is assumed that the GPS positioning unit 11 of the mobile phone 1 corresponds to the network assist type.
[0025]
In the mobile phone 1, the CPU 2 performs the following process by executing a program stored in the memory 10. That is, the CPU 2 creates an e-mail in response to the user's key operation (step S1), and detects that the key for transmitting the e-mail has been operated (step S2), the GPS positioning unit 11 acquires it. The transmitted GPS data is transmitted from the telephone communication unit 4 to the positioning server 18 of the server 16 (step S3), and the previously created electronic mail is transmitted from the telephone communication unit 4 to the electronic mail server 17 of the server 16 (step S4).
[0026]
When the server 16 detects that the GPS data is received from the mobile phone 1 (step T1), the positioning server 18 performs positioning based on the received GPS data (step T2), and the position of the mobile phone 1 on the map Here, latitude and longitude are calculated, and position information indicating the calculated latitude and longitude is output to the electronic mail server 17. More specifically, the positioning server 18 determines that the mobile phone 1 is mobile based on the received GPS data when the mobile phone 1 is at a position of, for example, 34 degrees 59 minutes 06 seconds north latitude, 137 degrees 00 minutes 20 seconds east longitude. “North latitude 34 degrees 59 minutes 06 seconds, east longitude 137 degrees 00 minutes 20 seconds” is calculated as the position of the telephone 1, and the calculated position information is output to the electronic mail server 17.
[0027]
When the position information is input from the positioning server 18, the e-mail server 17 determines a position-corresponding e-mail address corresponding to the input position information (step T3). More specifically, when the e-mail server 17 inputs the position information of “34 degrees 59 minutes 06 seconds north latitude, 137 degrees 00 minutes 20 seconds east longitude” from the positioning server 18, for example, “N34 corresponding to the input position information” .59.06-E137.00.020 @ xxx.xx.xx.xx "is determined.
[0028]
Next, when the e-mail server 17 detects that an e-mail has been received from the mobile phone 1 (step T4), the e-mail server 17 converts the destination address of the received e-mail to the e-mail address corresponding to the position determined previously (step). T5). More specifically, when the destination address of the received email is, for example, “bbbbbb@xxx.xxx.xx.xx”, the email server 17 receives “bbbbb @” which is the destination address of the received email. xxx.xx.xx.xx ”is converted into“ N34.59.06-E137.00.020@xxx.xx.xx.xx ”, which is the e-mail address corresponding to the position previously determined.
[0029]
Next, the e-mail server 17 sends an e-mail with a destination address of “N34.59.06-E137.00.020@xxx.xxx.xxx.xx”, which is the e-mail address corresponding to the position determined previously. When the incoming call is monitored (step T6) and the incoming of the corresponding electronic mail is detected ("YES" in step T7), the incoming mail is notified to the gateway 20, and thereafter, the corresponding electronic mail is sent to the mobile phone 1. Distribute (step T8). Along with this, the mobile phone 1 uses “N34.59.06-E137.00.020@xxx.xx.xx.xx”, which is the previously determined position-corresponding e-mail address, as the destination address. E-mail to be received is received from the Internet 19 (step S5).
[0030]
By the way, in this case, by inputting keywords (for example, “town information”, “gourmet information”, “friend recruitment information”, etc.) on the mobile phone 1, “N34.59.06-E137.00.20 @ Instead of receiving all e-mails that have “xxx.xx.xx.xx” as the destination address, the destination address is “N34.59.06-E137.00.020@xxx.xx.xx.xx”. It is also possible to select an e-mail in which the content corresponding to the keyword is described from all e-mails, and receive only the e-mail in which the content corresponding to the keyword is described.
[0031]
In this case, the mobile phone 1 can also be configured to receive an e-mail that has one of a plurality of position-corresponding e-mail addresses as a destination address by designating an area. . More specifically, for example, by designating “+10 seconds in the latitude direction”, “N34.59.06-E137.00” corresponding to “north latitude 34 degrees 59 minutes 06 seconds, east longitude 137 degrees 00 minutes 20 seconds”. .20 @ xxx.xx.xx.xx “N34.59.07-E137 corresponding to“ Latitude 34 degrees 59 minutes 07 seconds, East longitude 137 degrees 00 minutes 20 seconds ” .0.20 @ xxx.xx.xx.xx "N34.59.08-E137.E" corresponding to the e-mail address corresponding to the location "34 degrees 59 minutes 08 seconds north latitude, 137 degrees 00 minutes 20 seconds east longitude". "N20.59@xxx.xx.xx.xx" and "N34.59" corresponding to the position corresponding e-mail address and "North latitude 34 degrees 59 minutes 09 seconds, East longitude 137 degrees 00 minutes 20 seconds" It is also possible to configure to receive an e-mail to the destination address of any of such positions corresponding e-mail address of 09-E137.00.20@xxx.xx.xx.xx ".
[0032]
As described above, according to the first embodiment, the positioning server 18 recognizes the position of the mobile phone 1 on the map, and the e-mail server 17 corresponds to the position of the mobile phone 1 recognized by the positioning server 18. For example, “N34.59.06-E137.00.020@xxx.xx.xx.xx” is recognized as the e-mail address of the mobile phone 1, and the e-mail address corresponding to the position is determined. When an e-mail having a destination address is received, the corresponding e-mail is delivered to the mobile phone 1.
[0033]
Therefore, when an unspecified number of people send an e-mail using a position-corresponding e-mail address as a destination address, the e-mails sent from the unspecified number of people are delivered to the mobile phone 1. Thus, a user using the mobile phone 1 can receive e-mails from an unspecified number of people, and can obtain, for example, town information, gourmet information or information on recruiting friends from an unspecified number of people, The interest can be improved.
[0034]
Further, in the electronic mail server 17, for example, “bbbbb@xxx.xxx.xx.xx”, which is the transmission destination address of the electronic mail received from the mobile phone 1, is a position-corresponding electronic mail address corresponding to the position of the mobile phone 1. It was comprised so that it might convert into a certain "N34.59.06-E137.00.20@xxx.xx.xx.xx". Therefore, not only e-mails transmitted from an unspecified number of people are distributed to the mobile phone 1, but also e-mails transmitted from the mobile phone 1 are distributed to an unspecified number of people. Thereby, the user who uses the mobile phone 1 can not only receive an e-mail from an unspecified number of people but also can send an e-mail to an unspecified number of people. For example, town information, gourmet information or Information on recruiting friends can be notified to an unspecified number of people, and the interest can be further improved.
[0035]
(Second Embodiment)
Next, a second embodiment of the present invention will be described with reference to FIG. In addition, description is abbreviate | omitted about the same part as above-mentioned 1st Example, and a different part is demonstrated hereafter. The second embodiment is claimed in the present invention.2This corresponds to the invention described in. In the second embodiment, the electronic mail server 17 corresponds to the electronic mail address notifying means of the server in the present invention.
[0036]
Here, when the e-mail server 17 detects that an e-mail has been received from the mobile phone 1 (step T4), the e-mail destination address of the received e-mail is different from that described in the first embodiment. Is not converted into the e-mail address corresponding to the position determined earlier, but the e-mail address corresponding to the position determined earlier is transmitted to the mobile phone 1 (step T11). As a result, when the mobile phone 1 receives the position-corresponding e-mail address from the e-mail server 17 (step S11), the mobile phone 1 can thereafter transmit an e-mail with the received position-corresponding e-mail address as the destination address. It becomes possible.
[0037]
As described above, according to the second embodiment, in the electronic mail server 17, for example, “N34.59.06-E137.00.20 @” which is an electronic mail address corresponding to the position of the mobile phone 1. “xxx.xx.xx.xx” is notified to the mobile phone 1. Accordingly, when the mobile phone 1 is notified of the location-corresponding e-mail address, the mobile phone 1 recognizes the location-corresponding e-mail address, and the mobile phone 1 uses the location-corresponding e-mail address as the destination address. When the mobile phone 1 sends an e-mail using the location-corresponding e-mail address as the destination address, the e-mail sent from the mobile phone 1 is sent to an unspecified number of people even in this case. As a result, the user using the mobile phone 1 can not only receive an e-mail from an unspecified number of people but also send an e-mail to an unspecified number of people. , You can further improve your interest.
[0038]
(Third embodiment)
Next, a third embodiment of the present invention will be described with reference to FIGS. In addition, description is abbreviate | omitted about the same part as above-mentioned 1st Example, and a different part is demonstrated hereafter. The third embodiment is claimed in the present invention.3This corresponds to the invention described in. And in this 3rd Example, the key operation part 8 of the mobile telephone 1 is equivalent to a position input means, and the telephone communication part 4 is equivalent to the email address notification means of the email communication terminal said by this invention.
[0039]
Here, in the cellular phone 1, the CPU 2 inputs a position on the map in accordance with the user's key operation (step S21), and detects that the key for notifying the position is operated (step S22). The position-corresponding e-mail address corresponding to the input position is transmitted from the telephone communication unit 4 to the e-mail server 17 of the server 16 (step S23). More specifically, for example, as shown in FIG. 6, the user calls a display screen for inputting a position on the map, and the position on the map is, for example, “34 degrees 59 minutes 06 seconds north, 137 degrees 00 east longitude. When “20 minutes” is input, the CPU 2 inputs “N34.59.06-E137.00.020@xxx.xxx.” Corresponding to the input “34 degrees 59 minutes 06 seconds north latitude, 137 degrees 00 minutes 20 seconds east longitude”. xx.xx ”is transmitted from the telephone communication unit 4 to the e-mail server 17 of the server 16.
[0040]
When the e-mail server 17 detects that the position-corresponding e-mail address has been received from the mobile phone 1 (step T21), the received e-mail address corresponding to the position “N34.59.06-E137.00”. .20 @ xxx.xxx.xx.xx "is recognized as the e-mail address of the mobile phone 1, and thereafter, the position-corresponding e-mail address" N34.59.06-E137.00.020@xxx.xx .Xx.xx "is monitored for incoming e-mails (step T6), and when an incoming e-mail is detected (" YES "in step T7), e-mail arrival is notified to the gateway 20 Thereafter, the corresponding electronic mail is distributed to the mobile phone 1 (step T8).
[0041]
By the way, in this case, the present invention is not limited to inputting latitude and longitude. For example, as shown in FIG. 7, a map is displayed on the LCD 9 of the mobile phone 1, and a region is designated on the displayed map. It is also possible to configure so that is converted into latitude and longitude. In FIG. 7, the area surrounded by the broken line is the designated area.
[0042]
As described above, according to the third embodiment, in the mobile phone 1, for example, “North latitude 34 ° 59: 06, East longitude 137 ° 00: 20” is input, and the input position "N34.59.06-E137.00.020@xxx.xxx.xxx.xx", which is the position-corresponding e-mail address corresponding to the e-mail server 17, is notified to the e-mail server 17. When the position-corresponding e-mail address is notified from the telephone set 1, the notified position-corresponding e-mail address is recognized as the e-mail address of the mobile phone 1, and the position-corresponding e-mail address is used as the transmission destination address. When an incoming call is received, the corresponding electronic mail is distributed to the mobile phone 1.
[0043]
Therefore, even in this case, when an unspecified number of people send an e-mail using a position-corresponding e-mail address as a destination address, the e-mails sent from the unspecified number of people are delivered to the mobile phone 1. As a result, the user who uses the mobile phone 1 can receive e-mails from an unspecified number of people, and can improve the interest.
[0044]
(Fourth embodiment)
Next, a fourth embodiment of the present invention will be described with reference to FIG. In addition, description is abbreviate | omitted about the same part as above-mentioned 3rd Example, and a different part is demonstrated hereafter. The fourth embodiment is claimed in the present invention.4This corresponds to the invention described in.
[0045]
Here, after the processing described in the third embodiment, in the cellular phone 1, the CPU 2 creates an e-mail according to the user's key operation (step S1), and transmits the e-mail. When it is detected that the key is operated (step S2), the previously created electronic mail is transmitted from the telephone communication unit 4 to the electronic mail server 17 of the server 16 (step S4).
[0046]
When the e-mail server 17 detects that the e-mail has been received from the mobile phone 1 (step T4), the e-mail destination address of the received e-mail is changed to the e-mail address corresponding to the position received from the mobile phone 1 first. Conversion is performed (step T5).
[0047]
As described above, according to the fourth embodiment, in the e-mail server 17, the destination address of the e-mail received from the mobile phone 1 corresponds to the position of the mobile phone 1 received from the mobile phone 1 first. For example, “N34.59.06-E137.00.020@xxx.xx.xx.xx”, which is a corresponding e-mail address, is converted. Accordingly, even in this case, not only e-mails transmitted from an unspecified number of people are delivered to the mobile phone 1, but also e-mails transmitted from the mobile phone 1 are delivered to an unspecified number of people. As a result, the user of the mobile phone 1 can not only receive e-mails from an unspecified number of people but also send e-mails to an unspecified number of people. Further improvement can be achieved.
[0048]
(Fifth embodiment)
Next, a fifth embodiment of the present invention will be described with reference to FIG. The description of the same parts as those in the fourth embodiment is omitted, and different parts will be described below. The fifth embodiment is claimed in the present invention.5This corresponds to the invention described in. And in this 5th Example, the telephone communication part 4 of the mobile telephone 1 is equivalent to the electronic mail transmission means said by this invention.
[0049]
Here, after the processing described in the third embodiment (step S21 is the first procedure in the present invention), in the mobile phone 1, the CPU 2 creates an e-mail according to the user's key operation. If it is detected that the key for sending an e-mail has been operated (step S2), the position-corresponding e-mail address corresponding to the position of the mobile phone 1 previously input is “N34. 59.06-E137.00.020@xxx.xx.xx.xx "is transmitted as the e-mail transmission address created earlier (step S31, second procedure referred to in the present invention).
[0050]
As described above, according to the fifth embodiment, in the mobile phone 1, for example, “N34.59.06-E137.00”, which is a position-corresponding e-mail address corresponding to the position of the mobile phone 1 previously input. .20 @ xxx.xx.xx.xx ”as a destination address, the electronic mail is transmitted to the electronic mail server 17. Accordingly, in this case as well, when the mobile phone 1 transmits an e-mail using the position-corresponding e-mail address as a destination address, the e-mail transmitted from the mobile phone 1 is delivered to an unspecified number of people. As a result, the user who uses the mobile phone 1 can not only receive e-mails from an unspecified number of people, but can also send e-mails to an unspecified number of people. Can be planned.
[0051]
(Other embodiments)
The present invention is not limited to the above-described embodiments, and can be modified or expanded as follows.
The method of recognizing the position of the mobile phone is not limited to the method using the GPS positioning function, but may be a method of recognizing the position of the mobile phone based on the position of the base station registered in the position of the mobile phone. In this case, there is no need to mount a GPS positioning function on the mobile phone, and there is an advantage that the system can be simplified correspondingly.
[0052]
As a standard indicating the position on the map, not only latitude and longitude are used, but the name of these administrative districts may be used by associating the latitude and longitude with administrative districts such as prefectures, A map code (registered trademark of Denso Corporation) may be used.
[0053]
The timing for positioning, the timing for notifying the e-mail address, the timing for monitoring incoming e-mails, etc., may be configured with key operations or time as triggers. The configuration may be determined freely according to
[0054]
In each embodiment, the program for performing the above-described processing is not limited to the one stored in the memory from the beginning (for example, at the stage of commercialization). For example, the program may be downloaded from a specific server to the mobile phone through the network, It may be transferred from the storage medium to the mobile phone and installed.
[Brief description of the drawings]
FIG. 1 is a flowchart showing the contents of processing in a first embodiment of the present invention.
FIG. 2 is a functional block diagram of a mobile phone
FIG. 3 is a diagram schematically showing the configuration of an electronic mail communication system.
FIG. 4 is a flowchart showing the contents of processing of the second embodiment of the present invention.
FIG. 5 is a flowchart showing the contents of processing of the third embodiment of the present invention.
FIG. 6 is a diagram showing a display example of an LCD
7 is a view corresponding to FIG.
FIG. 8 is a flowchart showing the contents of processing of the fourth embodiment of the present invention.
FIG. 9 is a flowchart showing the contents of processing of a fifth embodiment of the present invention.
[Explanation of symbols]
In the drawings, 1 is a mobile phone (e-mail communication terminal), 2 is a CPU (control means), 4 is a telephone communication unit (e-mail address notification means, e-mail transmission means of an e-mail communication terminal), and 8 is a key operation unit. (Position input means), 16 is a server, 17 is an e-mail server (e-mail delivery means, e-mail address conversion means, e-mail address notification means of the server), and 18 is a positioning server (position recognition means).

Claims (5)

In an e-mail communication system for communicating e-mail between a server and an e-mail communication terminal,
The server
Position recognition means for recognizing the position of the electronic mail communication terminal on the map;
An electronic mail address corresponding to the position of the electronic mail communication terminal recognized by the position recognition means is recognized as an electronic mail address of the electronic mail communication terminal, and an electronic mail with the electronic mail address corresponding to the position as a transmission destination address E-mail delivery means for delivering e-mail to the e-mail communication terminal ;
An e-mail communication system, comprising: e-mail address conversion means for converting a destination address of an e-mail received from the e-mail communication terminal into an e-mail address corresponding to the position . The server
The e-mail communication system according to claim 1 , further comprising e-mail address notifying means for notifying the e-mail communication terminal of the position-corresponding e-mail address . In an e-mail communication system for communicating e-mail between a server and an e-mail communication terminal,
The e-mail communication terminal is
A position input means for inputting a position on the map;
E-mail address notifying means for notifying the server of a position-corresponding e-mail address corresponding to the position input by the position input means ,
The server
Recognizing the position-corresponding e-mail address notified from the e-mail communication terminal as the e-mail address of the e-mail communication terminal, and e-mail having the position-corresponding e-mail address as a destination address An e-mail communication system comprising e-mail delivery means for delivering to e-mail . The server
4. The e-mail communication system according to claim 3, further comprising e-mail address converting means for converting a transmission destination address of the e-mail received from the e-mail communication terminal into the position-corresponding e-mail address . The e-mail communication terminal is
5. The e-mail communication system according to claim 3, further comprising e-mail transmission means for transmitting an e-mail to the server using the position-corresponding e-mail address as a destination address .

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