JP2004229247A - E-mail distributing system, e-mail distributing program, record medium and e-mail distributing method - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an e-mail distributing system, etc. which carefully transmits an attached file 116, etc. to a user side, depending on a connection form in connecting from the user side to a mail server 10 and on the capacity of the attached file 116, etc. <P>SOLUTION: When a user is connected to the mail server 10 to receive an e-mail 112, the e-mail 112 containing at least a text 114, and, when the attached file 116, etc. is not transmitted, a URL corresponding thereto is sent depending on the connection form and capacity of the attached file 116, etc., in any of the connection forms, such as connection from the user with a PC82, a mobile phone 72 or a PC96 in a LAN 91. Even when the attached file 116, etc. is not transmitted to the user side, access from a client computer PC82, etc. of the higher speed of connection to an address shown by the URL is carried out later. <P>COPYRIGHT: (C)2004,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to an e-mail distribution system and the like, and more particularly to an e-mail distribution system and the like for distributing an e-mail including a body part and at least one attached part in a predetermined format from a mail server to a client computer.
[0002]
[Prior art]
[Patent Document 1] JP-A-2002-123471
[0003]
Conventionally, when an e-mail having a text file body and an attached file of any type of data is transmitted from a mail server to a client computer on the user side, the e-mail is transmitted as it is regardless of the size of the attached file. There were many things.
[0004]
FIG. 5 illustrates an example of a conventional e-mail distribution system 50. In FIG. 5, reference numeral 80 denotes a public line network, 82 denotes a personal computer (hereinafter, referred to as “PC”), and 84 modulates / demodulates data when transmitting / receiving data between the PC 82 and the public line network 80. A modem 86 is a modem connected between the mail server 100 such as a provider and the public network 80. In FIG. 5, reference numeral 70 denotes a packet communication network, 74 denotes a base station connected to the packet communication network 70, 72 denotes a mobile phone capable of performing packet communication via the base station 74, and 76 denotes a mobile phone connected to the packet communication network 70. And a communication center such as a communication company. In FIG. 5, reference numeral 90 denotes the Internet, 92 denotes a router connected to the Internet 90 and has a routing function, 94 denotes a mail server on the LAN 91 connected to the Internet 90 by the router 92, and 96 denotes a PC in the LAN 91. As shown in FIG. 5, the communication center 76 is connected to the Internet 90 via a router 78, and the mail server 100 such as a provider is connected to the Internet 90 via a router 98.
[0005]
As shown in FIG. 5, a hard disk 110 of a mail server 100 such as a provider has a mail box 111 of a certain user A, and an e-mail 112 is spooled in the mail box 111. It is assumed that It is assumed that the email 112 includes a text file body 114, an attached file 116, and an attached file 118. Here, when the user A connects to the mail server 100 and retrieves the e-mail 112, on the mail server 100 side, whether the user A has connected from the PC 82, from the mobile phone 72, or It is unknown whether the connection has been made from the PC 96 in the LAN 91. For this reason, the mail server 100 has transmitted the electronic mail 112 including the text 114 and the attached file 116 to the user A as it is. As a result, even when the capacity of the attached file 116 or the like is extremely large, and even when the user A connects from the mobile phone 72, the mail server 100 stores the electronic mail including the text 114 and the attached file 116 or the like. The email 112 was sent as it was.
[0006]
As described above, when the user A connects to the mail server 100 from the mobile phone 72, there is also a method of not transmitting the large attached file 116 or the like. According to Patent Document 1, when an e-mail to be transferred to a mobile phone includes an attached file, the server notifies the presence of the attached file without transmitting the attached file, and the attached file is set in advance based on a storage instruction from the mobile phone. The method of storage at the storage location is shown.
[0007]
[Problems to be solved by the invention]
According to the method disclosed in Patent Document 1, the electronic mail 112 including the large attached file 116 and the like as described above does not need to be transmitted to the mobile phone 72 as it is. However, as described above, if it is unknown whether user A has connected from mobile phone 72, PC 82, or PC 96 in LAN 91, it is shown how to proceed. Not. For this reason, the capacity of the attached file 116 and the like is relatively small, and depending on the connection form when the user A connects to the mail server 100 and the capacity of the attached file 116 and the like, the attached file 116 and the like may be stored in the user A. There is a problem that the attached file 116 and the like are not uniformly transmitted even if the file can be transmitted to the side.
[0008]
Therefore, an object of the present invention is to solve the above-described problem, and the object of the present invention is to provide a fine-grained attachment according to the connection form when the user A connects to the mail server 100 and the capacity of the attached file 116 and the like. An object of the present invention is to provide an electronic mail distribution system or the like that can transmit the file 116 and the like to the user A side.
[0009]
[Means for Solving the Problems]
An e-mail distribution system according to the present invention is an e-mail distribution system for distributing an e-mail from a mail server to a client computer, wherein the e-mail includes a body part arranged in a predetermined format and at least one attached part. The mail server includes, when a connection is made when taking in an electronic mail from the client computer side to the mail server side, for each of the attached parts of the electronic mail, A capacity judging unit for judging whether the capacity is larger than a predetermined capacity; and if there is an attached portion judged to be larger than the predetermined capacity by the capacity judging means, a connection between the client computer and the mail server. Connection speed estimating means for estimating the connection speed of the connection, and the speed estimated by the connection speed estimating means Transmission time calculating means for calculating a transmission time for transmitting the attached part to the client computer side based on the capacity of the attached part determined to be larger than the predetermined capacity by the amount determining means, and the transmission time calculating means Transmission time determining means for determining whether or not the transmission time calculated by the transmission time is longer than a predetermined time; and the transmission time for transmitting the attached part to the client computer side by the transmission time determining means. Identifier generating means for generating an identifier for specifying an address of a storage destination of the attached portion when it is determined to be larger, and storing means for storing the attached portion at an address specified by the identifier generated by the identifier generating means Identifier inserting means for inserting the identifier generated by the identifier generating means into a predetermined position of the electronic mail , Characterized in that the electronic mail including said inserted by the body part and the identifier inserting unit identifier and a delivery means for delivering to the client computer side.
[0010]
Here, in the electronic mail distribution system according to the present invention, the connection speed estimating means determines that the connection speed is determined to be larger than a predetermined capacity by the capacity determining means, and the open systems interconnection (Open Systems Interconnection: " If the transfer rate of the e-mail can be measured by a switch having a relay function based on a layer 4 protocol (referred to as "OSI"), the transfer rate is estimated as the connection speed between the client computer and the mail server. can do.
[0011]
Here, in the electronic mail distribution system of the present invention, the mail server includes: a domain name obtained based on an Internet Protocol (“IP”) address of the client computer; A connection table recording unit that indicates correspondence with a connection speed between the mail server and the mail server, wherein the connection speed estimating unit determines that the connection amount is determined to be larger than a predetermined capacity by the capacity determining unit; If a switch having a relay function based on a protocol of the Open Systems Interconnection (Open Systems Interconnection: OSI) layer 4 cannot measure an e-mail transfer rate, the client computer The domain name obtained based on the IP address of the data rate of the connection corresponding obtained from the correspondence table recording unit can estimate the speed of the connection.
[0012]
Here, in the electronic mail distribution system of the present invention, the identifier generation means can perform predetermined encryption when generating the identifier.
[0013]
An electronic mail distribution program according to the present invention is an electronic mail distribution program for distributing electronic mail from a mail server computer to a client computer, wherein the electronic mail is composed of a body part and at least one attached part in a predetermined format. And when the mail server computer is connected to take in an electronic mail from the client computer side to the mail server computer side, the mail server computer is attached to each of the attached portions of the electronic mail. Capacity determining means for determining whether or not the capacity of the attached part is larger than a predetermined capacity; if there is an attached part determined to be larger than the predetermined capacity by the capacity determining means, the client computer and the mail server Connection speed estimating means for estimating the connection speed between A transmission time for calculating a transmission time for transmitting the attached part to the client computer based on the speed estimated by the determining means and the capacity of the attached part determined to be larger than the predetermined capacity by the capacity determining means. Calculating means for determining whether or not the transmission time calculated by the transmission time calculating means is longer than a predetermined time; and transmitting the attached portion to the client computer by the transmission time determining means. When it is determined that the transmission time is longer than a predetermined time, an identifier generating means for generating an identifier for specifying an address of a storage destination of the attached portion, and attaching the address to the address specified by the identifier generated by the identifier generating means. A storage unit for storing a portion, and storing the identifier generated by the identifier generation unit in a predetermined position of the electronic mail. Identifier inserting unit for inserting into an electronic mail delivery program for operating the electronic mail containing the inserted identifier by said body part the identifier inserting unit as a delivery means for delivering to the client computer side.
[0014]
Here, in the electronic mail distribution program according to the present invention, the connection speed estimating unit may determine that the connection speed is determined to be larger than the predetermined capacity by the capacity determining unit, and the open systems interconnection (Open Systems Interconnection: " If the transfer rate of the e-mail can be measured by a switch having a relay function based on a layer 4 protocol (referred to as "OSI"), the transfer rate is estimated as the connection speed between the client computer and the mail server. can do.
[0015]
Here, in the electronic mail distribution program of the present invention, the mail server computer includes a domain name obtained based on an Internet Protocol (“IP”) address of the client computer; A connection table recording unit that indicates a correspondence with a connection speed between the mail server and the mail server, wherein the connection speed estimating unit determines that the connection speed is determined to be larger than a predetermined capacity by the capacity determining unit; If the transfer rate of the e-mail cannot be measured by a switch having a relay function based on a protocol of Open Systems Interconnection (Open Systems Interconnection: "OSI"), the client The speed of the connection obtained corresponding the domain name obtained based on the IP address of the bets computers from the correspondence table recording unit can estimate the speed of the connection.
[0016]
Here, in the electronic mail distribution program of the present invention, the identifier generation means can perform predetermined encryption when generating the identifier.
[0017]
The recording medium of the present invention is a computer-readable recording medium on which the program of the present invention is recorded.
[0018]
An e-mail distribution method according to the present invention is an e-mail distribution method for distributing an e-mail from a mail server to a client computer, wherein the e-mail is composed of a body part and at least one attached part in a predetermined format. When the mail server is connected when taking in an electronic mail from the client computer side to the mail server side, for each attached part of the electronic mail, A capacity determining step of determining whether the capacity is larger than a predetermined capacity; and if there is an attached portion determined to be larger than the predetermined capacity in the capacity determining step, a connection between the client computer and the mail server. Connection speed estimation step of estimating the connection speed of the connection, and the speed estimated in the connection speed estimation step and the volume A transmission time calculating step of calculating a transmission time for transmitting the attached part to the client computer based on the capacity of the attached part determined to be larger than the predetermined capacity in the determining step; and A transmission time determining step for determining whether the calculated transmission time is longer than a predetermined time; and a transmission time for transmitting the attached part to the client computer side in the transmission time determining step. If it is determined that, the identifier generating step of generating an identifier that specifies the address of the storage destination of the attached part, and a storing step of storing the attached part at an address specified by the identifier generated in the identifier generating step Inserting the identifier generated in the identifier generating step into a predetermined position of the email. An identifier insertion step, characterized in that the electronic mail including the identifier inserted by the identifier inserting step and said body part and a distribution step of distributing to the client computer side.
[0019]
Here, in the electronic mail distribution method of the present invention, the connection speed estimation step is a case where it is determined that the capacity is larger than a predetermined capacity in the capacity determination step, and the open systems interconnection (Open Systems Interconnection: " If the transfer rate of the e-mail can be measured by a switch having a relay function based on a layer 4 protocol (referred to as "OSI"), the transfer rate is estimated as the connection speed between the client computer and the mail server. can do.
[0020]
Here, in the electronic mail distribution method of the present invention, the mail server includes: a domain name obtained based on an Internet Protocol (“IP”) address of the client computer; The apparatus further comprises a correspondence table recording unit that indicates a correspondence with a connection speed between the mail server and the connection speed, wherein the connection speed estimation step is a case where it is determined in the capacity determination step that the capacity is larger than a predetermined capacity, If a switch having a relay function based on the open systems interconnection (Open Systems Interconnection: OSI) fourth layer protocol cannot measure the transfer rate of e-mail, the client connection The domain name obtained based on the IP address of Yuta the speed of the connection corresponding obtained from the correspondence table recording unit can estimate the speed of the connection.
[0021]
Here, in the electronic mail distribution method of the present invention, the identifier generating step may perform a predetermined encryption when generating the identifier.
[0022]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.
[0023]
Embodiment 1 FIG.
FIG. 1 illustrates an example of an e-mail distribution system 5 according to Embodiment 1 of the present invention. In FIG. 1, reference numeral 80 denotes a public line network, 82 denotes a PC, 84 denotes a modem that modulates / demodulates data when transmitting and receiving data between the PC 82 and the public line network 80, and 86 denotes an electronic device of the present invention described later. This is a modem connected between the mail server 10 and the public line network 80 in the mail distribution system 5. In FIG. 1, reference numeral 70 denotes a packet communication network, 74 denotes a base station connected to the packet communication network 70, 72 denotes a mobile phone capable of performing packet communication via the base station 74, and 76 denotes a mobile phone connected to the packet communication network 70. Communication center. In FIG. 1, reference numeral 90 denotes the Internet, 92 denotes a router connected to the Internet 90 and has a routing function, 94 denotes a mail server on the LAN 91 connected to the Internet 90 by the router 92, and 96 denotes a PC in the LAN 91. As shown in FIG. 1, the communication center 76 is connected to the Internet 90 via a router 78, and the mail server 10 in the electronic mail distribution system 5 of the present invention is connected to the Internet 90 via a router 98.
[0024]
As shown in FIG. 1, it is assumed that the hard disk 110 of the mail server 10 has a mail box 111 of a certain user A, and an e-mail 112 is spooled in the mail box 111. . It is assumed that the electronic mail 112 includes a text file body (body part) 114, an attached file (attached part) 116, and an attached file (attached part) 118 of a text file compiled in a predetermined format. In FIG. 1, only two attachments 116 and the like are shown, but this is only for convenience of description, and the number of attachments 116 and the like may be at least one or more. Here, the predetermined format is a message format for handling a file composed of multimedia data such as audio data or moving image data other than a text file in an e-mail, and includes, for example, MIME (Multipurpose Internet Mail Extensions). In this case, the attached file 116 or the like may be a part (attached part) encoded by base64 instead of a human-readable text format (7 bits or quoted-printable). Even when the electronic mail 112 is not converted to MIME, if the binary file is converted to a text file by an encoding program such as uuencode, it can be handled as a part (attached part).
[0025]
As shown in FIG. 1, the mail server 10 includes a capacity determination unit (capacity determination unit) 12, a connection speed estimation unit (connection speed estimation unit) 14, a transmission time calculation unit (transmission time calculation unit) 16, a transmission time It has a determination unit (transmission time determination unit) 18, an identifier generation unit (identifier generation unit) 20, a storage unit (storage unit) 22, an identifier insertion unit (identifier insertion unit) 24, and a distribution unit (distribution unit) 26. . Hereinafter, description will be made in order. When a connection is made when the electronic mail 112 is taken in from the client computer (PC 82, mobile phone 72 or PC 96; hereinafter abbreviated as “PC 82, etc.”), the capacity determining unit 12 It is determined whether or not the capacity of the attached file 116 or the like is larger than a predetermined capacity for each 116 or the like. The predetermined capacity can be arbitrarily set according to the connection speed between the client computer PC82 and the mail server 10.
[0026]
When there is an attached file (for example, the attached file 116) determined to be larger than the predetermined capacity by the capacity determining unit 12, the connection speed estimating unit 14 determines the speed of the connection between the client computer PC82 or the like and the mail server 10. Is estimated. If the transfer speed of the electronic mail 112 can be measured by a switch (layer 4 switch) having a relay function based on the protocol of the OSI fourth layer (transport layer), the connection speed estimating unit 14 uses the transfer speed of the client computer The speed of the connection between the PC 82 or the like and the mail server 10 can be estimated.
[0027]
The transmission time calculating unit 16 converts the attached file 116 or the like into a client file based on the speed estimated by the connection speed estimating unit 14 and the capacity of the attached file 116 or the like determined to be larger than the predetermined capacity by the capacity determining unit 12. The transmission time for transmission to the computer PC 82 or the like is calculated. For example, the transmission time (second) is obtained by dividing the capacity (bit) of the attached file 116 or the like determined by the capacity determination unit 12 by the speed (bit per second: bps) estimated by the connection speed estimation unit 14. Can be.
[0028]
The transmission time determination unit 18 determines whether the transmission time for transmitting the attached file 116 or the like calculated by the transmission time calculation unit 16 to the client computer PC 82 or the like is longer than a predetermined time. Here, the predetermined time can be arbitrarily set according to the client computer PC82 and the like. For example, when it takes an insane time to transmit, the time can be set so as not to exceed the time. If the capacity of the attached file 116 or the like is about 5 MB and the client computer is the mobile phone 72, it cannot be sent in about one minute. In reality, the user of the mobile phone 72 often does not wait for ten minutes to receive the e-mail 112, but can wait for at most one minute. Therefore, when the client computer is the mobile phone 72, the predetermined time can be set to one minute.
[0029]
When the transmission time for transmitting the attached file 116 or the like to the client computer PC 82 or the like is determined by the transmission time determining unit 18 to be longer than a predetermined time, the identifier generation unit 20 determines whether the storage destination 40 of the attached file 116 or the like is Generate an identifier that identifies the address. The identifier can be generated for each attached file 116 or the like according to the above determination. This identifier may be in an address notation, such as a URL (Uniform Resource Locator), for identifying various resources on the Internet 90. In this case, since the attached file 116 and the like can be stored in the storage destination 40 in the form of a web page, if the e-mail 112 cannot be re-downloaded, as in the case of POP (Post Office Protocol), for example, By browsing the web page, the attached file 116 and the like can be viewed. On the other hand, the attached file 116 and the like can be viewed only by the user who originally receives the electronic mail 112. Therefore, in order to make the URL hard to be detected by a search engine or the like, a predetermined encryption can be applied to the URL. As the predetermined encryption, for example, the URL itself can be a random character string. As a method of accessing the URL, a method that can be accessed only by using a password on a transmission path protected by SSL (Secure Sockets Layer) or the like may be used. Alternatively, a one-time password method using a disposable password or a public key encryption method using a public key and a secret key can be used. When an e-mail delivery protocol such as IMAP4 (Internet Message Access Protocol) is used instead of the POP, the e-mail 112 may be downloaded again.
[0030]
The storage unit 22 stores the attached file 116 and the like at an address (attached file storage destination 40) specified by the identifier such as the URL generated by the identifier generation unit 20. When a plurality of identifiers are generated as described above, the corresponding plurality of attached files 116 are stored. The identifier insertion unit 24 inserts an identifier such as a URL generated by the identifier generation unit 20 into a predetermined position of the electronic mail 112. When a plurality of attached files 116 and the like are stored, corresponding identifiers such as a plurality of URLs are inserted. The distribution unit 26 distributes the electronic mail 112 including the body part 114 and the identifier such as the URL recorded by the identifier insertion unit 24 to the client computer PC 82 and the like.
[0031]
FIG. 2 is a flowchart showing a flow of processing of an electronic mail distribution method and a program according to the first embodiment of the present invention. As shown in FIG. 2, first, a connection is made when the electronic mail 112 is taken in from the client computer PC 82 or the like to the mail server 10 (step S10). Hereinafter, processing of the mail server 10 will be described. When the above connection is made, the mail server 10 determines whether or not the capacity of the attached file 116 or the like is larger than a predetermined capacity for each of the attached files 116 or the like included in the electronic mail 112 (step S12: capacity determining step). ). If there is an attached file 116 or the like determined to be larger than the predetermined capacity in the capacity determination step (step S12), the speed of the connection between the client computer PC82 or the like and the mail server 10 is estimated (step S14). Speed estimation step). If there is no attached file 116 or the like determined to be larger than the predetermined capacity in the capacity determination step (step S12), the electronic mail 112 is delivered as usual (step S30), and the process ends.
[0032]
After the connection speed estimation step (step S14), the attached file is determined based on the speed estimated in step S14 and the capacity of the attached file 116 and the like determined to be larger than the predetermined capacity in the capacity determination step (step S12). The transmission time for transmitting the data 116 and the like to the client computer PC 82 and the like is calculated (step S16: transmission time calculation step). Next, it is determined whether or not the transmission time calculated in the transmission time calculation step (step S16) is longer than a predetermined time (step S18, transmission time determination step). If it is determined in this step (step S18) that the transmission time for transmitting the attached file 116 or the like to the client computer PC 82 or the like is longer than a predetermined time, a URL or the like specifying the address of the storage destination 40 of the attached file is determined. An identifier is generated (step S20, an identifier generation step). If the transmission time is not determined to be longer than the predetermined time in the transmission time determination step (step S18), the electronic mail 112 is delivered as usual (step S30), and the process ends.
[0033]
After the identifier generation step (step S20), the attached file 116 and the like are stored in the address specified by the identifier generated in step S20 (step S22, storage step). Next, the identifier generated in the identifier generation step (step S20) is inserted into a predetermined position of the e-mail 112 (step S24: identifier insertion step). Subsequently, the electronic mail 112 including the text 114 and the identifier inserted in the identifier insertion step (step S24) is distributed to the client computer PC82 or the like (step S26: distribution step). As described above, when there is an attached file 116 or the like determined to be larger than the predetermined capacity in the capacity determining step (step S12), the identifier corresponding to the attached file 116 or the like is electronically determined in the identifier inserting step (step S24). It is inserted into the mail 112. In this case, if the capacity of another attached file 118 or the like is not determined to be larger than the predetermined capacity, the attached file 118 or the like is delivered as it is, as usual. That is, the e-mail 112 distributed in the distribution step (step S26) includes the text 114, the identifier corresponding to the attached file 116, the attached file 118, and the like.
[0034]
As described above, according to the first embodiment of the present invention, when the user connects to the mail server 10 and retrieves the electronic mail 112, and when the user connects from the PC 82, Regardless of the connection form, such as when the connection is made or when the connection is made from the PC 96 in the LAN 91, at least the text 114, the attached file 116, and the like are used according to the connection form and the capacity of the attached file 116. Can be sent an email 112 containing the corresponding URL. Therefore, even when the attached file 116 or the like is not transmitted to the user side, the address indicated by the URL can be accessed later from the client computer PC82 or the like having a higher connection speed. Therefore, the attached file 116 and the like can be transmitted to the user A in detail according to the connection form when the user connects to the mail server 10 and the capacity of the attached file 116 and the like. The user can download the entire e-mail 112 and other e-mails within a desired time without knowing the capacity and connection speed of the entire e-mail 112.
[0035]
Embodiment 2 FIG.
In the above-described first embodiment, a case has been described where the connection speed estimation unit 14 can measure the transfer speed of the electronic mail 112 using the layer 4 switch. In the second embodiment, a case will be described in which the connection speed estimation unit 14 cannot measure the transfer speed of the electronic mail 112 by the layer 4 switch.
[0036]
FIG. 3 shows a correspondence table recording unit 30 used by the connection speed estimating unit 14 in the second embodiment of the present invention. In FIG. 3, reference numeral 32 denotes a left column of the correspondence table recording unit 30, which indicates a domain name. The domain name 32 can be obtained by performing reverse lookup from the IP address recorded in the IP packet transmitted from the client computer PC82 or the like. Subsequently, reference numeral 34 denotes a column on the right side of the correspondence table recording unit 30, which indicates the estimated connection speed (bps). The estimated connection speed 34 is an estimated value of the connection speed between the client computer PC 82 or the like and the mail server 10.
[0037]
As shown in FIG. 3, the connection speed estimating unit 14 determines that the domain name 32 obtained based on the IP address of the client computer PC 82 or the like is, for example, “* .co.jp (where“ * ”is an arbitrary character string). In the case of (32a), based on the character string form of the domain name 32a, the client computer is the PC 82 connected to the Internet 90 by ISDN (Integrated Services Digital Network). And the estimated speed 64K (bps) (34a) can be obtained from the correspondence table recording unit 30. Similarly, if the domain name 32 is, for example, “<character string indicating the name of a telecommunications company> .ne.jp” (32b), the client computer performs a mobile phone operation based on the form of the character string of the domain name 32b. It is presumed that it is connected to the Internet 90 through 72, and an estimated speed of 9.6K (bps) (34b) can be obtained from the correspondence table recording unit 30. Similarly, when the domain name 32 is, for example, “* .adsl.ne.jp” (32c), the client computer uses an ADSL (Asymmetric Digital Subscriber Line) based on the character string form of the domain name 32c. It is assumed that the PC 96 is connected to the Internet 90 and is in the LAN 91, and the estimated speed 12M (down) / 2M (up) (bps) (34c) can be obtained from the correspondence table recording unit 30.
[0038]
As described above, according to the second embodiment of the present invention, the connection speed estimating unit 14 determines that the capacity is not larger than the predetermined capacity by the capacity determining unit 12, Even when the transfer speed of the domain name 32 cannot be measured, the correspondence table recording unit 30 can be used to convert the IP address of the client computer PC82 or the like from the character string form of the domain name 32 obtained by reverse lookup. The speed of the connection can be estimated.
[0039]
Embodiment 3 FIG.
FIG. 4 is a block diagram showing an internal circuit 60 of the computer of the mail server 10 that executes the computer program of the present invention for implementing each of the above-described embodiments. 4, the above-described computer program of the present invention is recorded on a recording medium such as the ROM 62, the disk 66a, or the CD-ROM 66n. This computer program is loaded from the recording medium such as the ROM 62, the disk 66a or the CD-ROM 66n into the RAM 63 via the bus 64 via the controller 65. The input operation unit 68 is an input device such as a mouse or a numeric keypad for inputting data to the computer. The input control unit 67 is connected to the input operation unit 68 and performs input control and the like. The external interface (I / F) unit 69 has an interface function when communicating with another information terminal or the like.
[0040]
The object of the present invention can be achieved when the CPU 61 executes the above-described computer program of the present invention in the RAM 63. The computer program can be supplied to the computer CPU 61 in the form of a removable recording medium such as a CD-ROM 66n as described above, and a recording medium such as a CD-ROM 66n on which the computer program is recorded is similarly provided by the present invention. Will be constituted. As the recording medium 66n or the like on which the computer program is recorded, for example, a DVD, an optical disk, a memory card, an FD, or the like can be used in addition to the recording medium described above.
[0041]
【The invention's effect】
As described above, according to the e-mail distribution system 5 and the like of the present invention, when the user connects to the mail server 10 and retrieves the e-mail 112, and when the user connects from the PC 82, 72, or from a PC 96 in the LAN 91, at least the main body 114 and the attached file according to the connection form and the capacity of the attached file 116 or the like. If no such information is transmitted, an electronic mail 112 including the corresponding URL can be sent. Therefore, even when the attached file 116 or the like is not transmitted to the user side, the address indicated by the URL can be accessed later from the client computer PC82 or the like having a higher connection speed. Therefore, the attached file 116 and the like can be transmitted to the user A in detail according to the connection form when the user connects to the mail server 10 and the capacity of the attached file 116 and the like.
[Brief description of the drawings]
FIG. 1 is a diagram illustrating an example of an electronic mail distribution system 5 according to Embodiment 1 of the present invention.
FIG. 2 is a flowchart showing a flow of processing of an electronic mail distribution method and a program according to the first embodiment of the present invention.
FIG. 3 is a diagram illustrating a correspondence table recording unit 30 used by a connection speed estimating unit 14 according to the second embodiment of the present invention.
FIG. 4 is a block diagram showing an internal circuit 60 of the computer of the mail server 10 executing a computer program of the present invention.
FIG. 5 is a diagram illustrating an example of a conventional electronic mail distribution system 50.
[Explanation of symbols]
5 E-mail distribution system, 10 mail server, 12 capacity judgment unit, 14 connection speed estimation unit, 16 transmission time calculation unit, 18 transmission time judgment unit, 20 storage unit, 22 identifier insertion unit, 24 distribution unit, 30 correspondence table Recording unit, 32, 32a, 32b, 32c domain name, 34, 34a, 34b, 34c estimated connection speed, 40 attached file recording unit, 50 conventional e-mail distribution system, 60 internal circuit, 61 CPU, 62 ROM, 63 RAM , 64 buses, 65 controllers, 66 disks, 67 CD-ROM, 68 input control unit, 69 input operation unit, 69 external I / F unit, 70 packet communication network, 72 mobile phone, 74 base station, 76 communication center, 80 Public line network, 82 PC, 84,86 modem, 90 Internet, 91 LAN, 92 Router, 94 Mail server on LAN 91, 96 PC in LAN 91, 100 Mail server such as provider, 110 Hard disk, 111 Mail box, 112 E-mail, 114 Text file text, 116, 118 attachment File.

Claims (13)

An e-mail delivery system for delivering an e-mail from a mail server to a client computer, wherein the e-mail includes a body part and at least one attachment part arranged in a predetermined format,
The mail server,
When a connection is made when the electronic mail is taken in from the client computer side to the mail server side, it is determined whether the capacity of the attached part is larger than a predetermined capacity for each attached part of the electronic mail. Capacity determination means for determining,
Connection speed estimating means for estimating a speed of connection between the client computer and the mail server, if there is an attached portion determined to be larger than a predetermined capacity by the capacity determining means;
Based on the speed estimated by the connection speed estimating means and the capacity of the attached part determined to be larger than the predetermined capacity by the capacity determining means, a transmission time for transmitting the attached part to the client computer is calculated. Transmission time calculation means, and transmission time determination means for determining whether the transmission time for transmitting the attached part calculated by the transmission time calculation means to the client computer side is longer than a predetermined time,
When the transmission time determining means determines that the transmission time for transmitting the attached portion to the client computer is longer than a predetermined time, an identifier generation for generating an identifier for specifying a storage address of the attached portion is generated. Means,
Storage means for storing the attached portion to an address specified by the identifier generated by the identifier generation means,
Identifier insertion means for inserting the identifier generated by the identifier generation means at a predetermined position of the email;
An e-mail delivery system comprising: a delivery unit that delivers an e-mail including the text portion and the identifier inserted by the identifier insertion unit to the client computer. The electronic mail distribution system according to claim 1,
The connection speed estimating means is a relay function based on an Open Systems Interconnection (OSI) fourth layer protocol when the capacity determining means determines that the capacity is larger than a predetermined capacity. An e-mail delivery system, wherein when a transfer speed of an e-mail can be measured by a switch having the following, the transfer speed is estimated as a speed of a connection between the client computer and the mail server. The electronic mail distribution system according to claim 1,
The mail server includes a domain name obtained based on an Internet Protocol (“IP”) address of the client computer, a connection speed between the client computer and the mail server side, Further comprising a correspondence table recording unit indicating the correspondence of
The connection speed estimating means is for a case where it is determined by the capacity determining means that the capacity is larger than a predetermined capacity, and is based on an Open Systems Interconnection (OSI) fourth layer protocol. If the transfer rate of the e-mail cannot be measured by the switch having the function, the speed of the corresponding connection obtained from the correspondence table recording unit by the domain name obtained based on the IP address of the client computer is used as the speed of the connection. An e-mail distribution system characterized by: 4. The electronic mail distribution system according to claim 1, wherein said identifier generating means performs predetermined encryption when generating said identifier. An e-mail distribution program for distributing an e-mail from a mail server computer to a client computer, wherein the e-mail includes a body part arranged in a predetermined format and at least one attached part. Server computer
When a connection is made when the electronic mail is taken in from the client computer side to the mail server computer side, for each attached part of the electronic mail, whether or not the capacity of the attached part is larger than a predetermined capacity Capacity determination means for determining
Connection speed estimating means for estimating a speed of connection between the client computer and the mail server, if there is an attached portion determined to be larger than a predetermined capacity by the capacity determining means;
Based on the speed estimated by the connection speed estimating means and the capacity of the attached part determined to be larger than the predetermined capacity by the capacity determining means, a transmission time for transmitting the attached part to the client computer is calculated. Transmission time calculation means,
Transmission time determination means for determining whether the transmission time calculated by the transmission time calculation means is longer than a predetermined time,
When the transmission time determining means determines that the transmission time for transmitting the attached portion to the client computer is longer than a predetermined time, an identifier generation for generating an identifier for specifying a storage address of the attached portion is generated. means,
Storage means for storing the attached part to an address specified by the identifier generated by the identifier generation means,
Identifier inserting means for inserting the identifier generated by the identifier generating means at a predetermined position of the electronic mail,
An electronic mail distribution program for causing the electronic mail including the text portion and the identifier inserted by the identifier inserting unit to function as a distribution unit that distributes the electronic mail to the client computer side. The electronic mail distribution program according to claim 5,
The connection speed estimating means is for a case where it is determined by the capacity determining means that the capacity is larger than a predetermined capacity, and is based on an Open Systems Interconnection (OSI) fourth layer protocol. An e-mail distribution program for estimating a transfer speed of an e-mail when the transfer speed of the e-mail can be measured by a switch having a function, the transfer speed being estimated as a connection speed between the client computer and the mail server. The electronic mail distribution program according to claim 5,
The mail server computer includes a domain name obtained based on an Internet Protocol (“IP”) address of the client computer, and a connection speed between the client computer and the mail server. Further comprising a correspondence table recording unit indicating the correspondence with
The connection speed estimating means is for a case where it is determined by the capacity determining means that the capacity is larger than a predetermined capacity, and is based on an Open Systems Interconnection (OSI) fourth layer protocol. If the transfer rate of the e-mail cannot be measured by the switch having the function, the speed of the corresponding connection obtained from the correspondence table recording unit by the domain name obtained based on the IP address of the client computer is used as the speed of the connection. An e-mail distribution program, characterized in that: 8. The electronic mail distribution program according to claim 5, wherein said identifier generating means performs a predetermined encryption when generating said identifier. A computer-readable recording medium recording the electronic mail distribution program according to claim 5. An email delivery method for delivering an email from a mail server to a client computer, wherein the email includes a body portion combined in a predetermined format and at least one attached portion,
The mail server comprises:
When a connection is made when the electronic mail is taken in from the client computer side to the mail server side, it is determined whether the capacity of the attached part is larger than a predetermined capacity for each attached part of the electronic mail. A capacity determining step of determining;
A connection speed estimating step of estimating a speed of a connection between the client computer and the mail server when there is an attached portion determined to be larger than a predetermined capacity in the capacity determining step;
Calculating a transmission time for transmitting the attached portion to the client computer based on the speed estimated in the connection speed estimating step and a capacity of the attached portion determined to be larger than a predetermined capacity in the capacity determining step; Transmission time calculation step to be performed;
A transmission time determination step of determining whether the transmission time calculated in the transmission time calculation step is greater than a predetermined time,
In the transmission time determining step, when it is determined that the transmission time for transmitting the attached portion to the client computer side is longer than a predetermined time, an identifier generation for generating an identifier for specifying a storage address of the attached portion is generated. Steps and
A storing step of storing the attached part to an address specified by the identifier generated in the identifier generating step,
An identifier insertion step of inserting the identifier generated in the identifier generation step into a predetermined position of the email;
A delivery step of delivering an e-mail including the text portion and the identifier inserted in the identifier insertion step to the client computer side. The electronic mail delivery method according to claim 10,
The connection speed estimating step is a case where it is determined that the capacity is larger than a predetermined capacity in the capacity determination step, and is based on an Open Systems Interconnection (hereinafter referred to as “OSI”) layer 4 protocol. An e-mail distribution method, wherein when a transfer speed of an e-mail can be measured by a switch having a function, the transfer speed is estimated as a connection speed between the client computer and the mail server. The electronic mail delivery method according to claim 10,
The mail server includes a domain name obtained based on an Internet Protocol (“IP”) address of the client computer, a connection speed between the client computer and the mail server side, Further comprising a correspondence table recording unit indicating the correspondence of
The connection speed estimating step is a case where it is determined that the capacity is larger than a predetermined capacity in the capacity determination step, and is based on an Open Systems Interconnection (hereinafter referred to as “OSI”) layer 4 protocol. If the transfer rate of the e-mail cannot be measured by the switch having the function, the speed of the corresponding connection obtained from the correspondence table recording unit by the domain name obtained based on the IP address of the client computer is used as the speed of the connection. An e-mail distribution method characterized by estimating that: 13. The electronic mail distribution method according to claim 10, wherein the identifier generating step performs a predetermined encryption when generating the identifier.

Images