KR101803455B1 - Electronic mail transmitting apparatus - Google Patents

Abstract

The present invention relates to an e-mail transmission device to effectively transmit an e-mail. The e-mail transmission device according to an embodiment of the present invention comprises: at least one mail processing unit which performs a process for transmission of an e-mail; and a control unit which controls each unit of the e-mail transmission device. The control unit assigns an e-mail address, a transmission method of an e-mail, and a resource for processing transmission of an e-mail based on the transmission method to each mail processing unit. Each mail processing unit transmits an e-mail to a mail reception device corresponding to the assigned e-mail address by using the assigned transmission method and resource. When the mail processing unit receives a transmission failure report signal which is a signal representing transmission failure of the e-mail from the mail reception device, the control unit determines whether to change the transmission method on the basis of a transmission failure reason included in the transmission failure report signal.

Description

ELECTRONIC MAIL TRANSMITTING APPARATUS [0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention [0002] The present invention relates to an electronic mail transmission apparatus, and more particularly, to a mail transmission apparatus capable of increasing the transmission success rate of electronic mail through a change in the transmission method of electronic mail.

Since the Internet was released to the public, people have used e-mail routinely.

E-mail is a means of transmitting various digitized multimedia data and text data to other people regardless of time and place. Nowadays, smartphone has been popularized and various messaging applications have been developed.

In order to transmit an e-mail, there must exist a side (i.e., an e-mail transmission device (or server) and an e-mail reception device (or server) that transmits an e-mail connected to the communication network.

An electronic mail transmission apparatus and an electronic mail reception apparatus are apparatuses that process various operations related to transmission and reception of electronic mail, and have been studied for as long as the history of the Internet.

Nowadays, many people around the world are using the Internet basically, there is a growing market demand for the means of sending and receiving mass / large-volume e-mail.

That is, in order to effectively transmit and receive countless e-mails, various processes related to transmission / reception of e-mails, such as management of resources (e. G., Computing power, Techniques need to be developed.

On the other hand, the e-mail receiving apparatus can block unauthorized e-mail sent to the e-mail receiving apparatus through various e-mail blocking rules.

For example, when a specific number of e-mails are transmitted to the e-mail receiving apparatus all at once, an overload of more than a degree for processing the e-mail may occur, which may seriously impair the stability of the entire e-mail receiving apparatus have.

The e-mail receiving apparatus performs the verification through the above-described e-mail blocking rules for the e-mails normally transmitted.

Therefore, it is necessary for the e-mail transmission apparatus to perform the transmission of the e-mail in consideration of the e-mail blocking rules of the e-mail reception apparatus.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and it is an object of the present invention to provide an electronic mail transmission apparatus capable of efficiently transmitting electronic mail.

In addition, the present invention also has an object to provide an electronic mail transmission device capable of increasing the transmission success rate (or reaching rate) of an electronic mail.

According to an aspect of the present invention, there is provided a mail transmission apparatus comprising: at least one mail processing unit for processing a process relating to transmission of an electronic mail; And a control unit for controlling the respective units of the mail transmission apparatus, wherein the control unit allocates to the respective mail processing units an e-mail address, a transmission method of the electronic mail, and a resource for processing the transmission of the electronic mail according to the transmission method Each of the mail processing units transmits an electronic mail to the mail receiving apparatus corresponding to the assigned electronic mail address, based on the assigned transmission method and resources, and the mail processing unit transmits the electronic mail When receiving a transmission failure notification signal, which is a signal indicating failure, the control unit determines whether to change the transmission method based on a transmission failure reason included in the transmission failure notification signal, Mail is transmitted according to the method of the present invention. .

Here, the control unit classifies the at least one mail processing unit into at least one mail processing group based on the domain address of the electronic mail address assigned to each of the mail processing units, and for each mail processing group, And each of the mail processing units included in the same mail processing group transmits an electronic mail according to the transmission method assigned to the mail processing group.

Here, when at least one mail processing unit included in the mail processing group receives the transmission failure notification signal, the control unit changes the transmission mode of the mail processing group based on the transmission failure reason of the transmission failure notification signal .

Here, the control unit determines the transmission method of the electronic mail of the mail processing group based on the number of the mail processing units included in the mail processing group.

Here, the control unit allocates at least one electronic mail address to each mail processing unit, decreases the number of simultaneously transmitted electronic mail of the transmission method as the number of mail processing units included in the mail processing group increases, Increasing the transmission period of the mail or increasing the minimum waiting time between the electronic mail transmission and increasing the number of simultaneous transmission of the electronic mail of the transmission method as the number of the mail processing units included in the mail processing group is decreased, Reducing the transmission period or reducing the minimum waiting time between email transmissions.

Here, the control unit assigns at least one electronic mail address to each mail processing unit, and based on the total number of the electronic mail addresses assigned to the mail processing unit included in the mail processing group, Lt; / RTI >

Here, the control unit decreases the number of simultaneous transmissions of the e-mails of the transmission method or increases the transmission period of the e-mails as the total sum of the numbers of the e-mail addresses allocated to the mail processing units included in the mail processing group becomes smaller The number of simultaneous transmissions of e-mails of the transmission method is increased or the number of e-mail addresses of the e-mail address of the e- Or reduce the minimum wait time between email transmissions.

Here, the mail processing group is a set of mail processing units to which an electronic mail address having the same top-level domain is assigned.

Here, the mail processing group is a set of mail processing units to which an electronic mail address having the same domain address is assigned.

Here, the control unit checks the validity of the e-mail address of the e-mail before each e-mail processing unit transmits the e-mail, and each of the e-mail processing units transmits the e-mail to the e-mail address evaluated as valid .

Here, the controller generates a transmission success domain address list, which is a list of domain addresses of an electronic mail address to which an electronic mail has been successfully transmitted, and determines whether each mail processing unit has received the transmission failure notification signal If the domain address of the e-mail address before the transfer matches the one of the domain addresses included in the transfer success domain address list, Evaluate the previous e-mail address as valid.

Here, the control unit allocates an e-mail address to each of the mail processing units by referring to address list information including a plurality of e-mail addresses, and the mail processing unit transmits a transmission failure notification signal transmission failure Deletes an e-mail address associated with the transmission failure notification signal from the address list information when the reason includes information indicating non-existence of the e-mail address.

Here, if the reason for the failure in transmission of the transmission failure notification signal received from the mail reception device includes information indicating a sleep state of the electronic mail address, the control unit may control the mail processing unit And resends the electronic mail to the dormant electronic mail address.

Here, the control unit may be configured such that the mail processing unit receives the transmission failure notification signal for the retransmitted e-mail, and if the reason for the transmission failure of the transmission failure notification signal for the retransmitted e-mail is a sleep state of the e- Information, the control unit increases the waiting time by a predetermined additional waiting time, and resends the e-mail to the dormant e-mail address via the mail processing unit after the increased waiting time.

Here, if the number of retransmissions of the electronic mail to the sleeping electronic mail address exceeds a predetermined retransmission limit number, the control unit stops transmission of the electronic mail to the sleeping electronic mail address.

Here, the control unit assigns at least one electronic mail address to each of the mail processing units, and the assignment of the transmission modes is performed by the control unit, in accordance with the number of simultaneous transmission of the electronic mail of the mail processing unit, At least one of the minimum waiting time is determined.

Here, the change of the transmission mode is a process of changing at least one of the number of simultaneous transmission of the electronic mail designated by the control unit to the mail processing unit, the transmission period of the electronic mail, and the minimum standby time between the electronic mail transmission.

Here, when assigning the transmission method to each of the mail processing sections for the first time, the control section sets the number of simultaneous transmission of the electronic mail according to the preset minimum number of simultaneous transmissions, the transmission period of the electronic mail according to the preset maximum transmission period, And an initial transmission scheme which is a transmission scheme including setting of a minimum waiting time between the electronic mail transmission according to a set maximum waiting time.

Here, the controller performs a first transmission mode change to increase the number of concurrent transmissions of the electronic mail by a predetermined number of simultaneous transmission number correction values every predetermined transmission mode change period after the assignment of the initial transmission scheme, A second transmission mode change that reduces the transmission period of the e-mail transmission by a predetermined transmission period correction value, and a third transmission mode change that reduces the minimum wait time between the e-mail transmissions by a predetermined waiting correction value.

Here, the controller may include a first transmission failure notification signal, which is a transmission failure notification signal including a transmission failure reason associated with the number of concurrent transmissions of the electronic mail, a transmission failure notification including a transmission failure reason associated with the transmission period of the electronic mail A third transmission failure notification signal which is a transmission failure notification signal including a transmission failure reason associated with the minimum waiting time between the electronic mail transmission and a natural number k of 1 or more and 3 or less, And stops changing the k-th transmission scheme when receiving the additional k-th transmission failure notification signal.

Here, the information processing apparatus may further include a storage unit for storing information, wherein the control unit stops the first transmission scheme change, the second transmission scheme change, and the third transmission scheme change according to the reception of the transmission failure notification signal The number of concurrent transmissions of the e-mail of the mail processing unit adjusted according to the change of the transmission mode is set to the limit simultaneous reception count which is the maximum number of e-mails that the mail receiving apparatus can simultaneously receive, Wherein the control unit sets the transmission period of the adjusted e-mail as the limit reception period that is the minimum reception period in which the mail reception apparatus can receive the e-mail, and sets a minimum wait time between the e-mails, A limit wait time which is a minimum wait time between emails received by the device, Information on the number of new frames, the limit reception period, and the limit waiting time is stored in the storage unit.

Here, when assigning an e-mail address to the mail processing unit, the control unit may store information on the limit simultaneous receipt number, the limit receiving period, and the limit waiting time of the mail receiving apparatus that receives the e-mail address, , The transmission method of the mail processing unit is set with reference to the information on the limit simultaneous receipt number, the limit reception period, and the limit waiting time.

Herein, the resource means a computational resource required for processing the signal / information, and the resource includes the occupation time of the processor for processing the signal / information or the processing frequency of the processor or the priority or memory, Capacity.

According to another embodiment of the present invention, there is provided a control method for a mail transmission apparatus, comprising the steps of: allocating at least one mail processing unit a resource for processing transmission of an electronic mail according to the transmission method of an electronic mail address and e- ; Transmitting e-mails to the mail receiving apparatuses corresponding to the assigned e-mail addresses through the respective mail processing units based on the allocated transmission methods and resources, respectively; And when the mail processing unit receives a transmission failure notification signal, which is a signal indicating a transmission failure of the electronic mail, from the mail receiving apparatus, whether or not the transmission method is changed based on a transmission failure reason included in the transmission failure notification signal And transmitting the electronic mail according to a transmission method based on the determination result of the change.

According to the embodiment of the present invention, effective retransmission of e-mail can be performed based on the reason why the e-mail has failed to be transmitted. In particular, the mail transmission apparatus according to the embodiment of the present invention can adjust the transmission method of the electronic mail based on the reason for the transmission failure. Thus, the mail transmission apparatus can increase the transmission success rate of the electronic mail.

Further, according to the embodiment of the present invention, the validity of the e-mail can be verified and the e-mail evaluated as valid can be transmitted.

Further, according to the embodiment of the present invention, it is possible to estimate the e-mail blocking rule of the mail receiving apparatus based on the transmission failure reason.

1 is a diagram illustrating a mail transmission apparatus according to an embodiment of the present invention.
2 is a diagram illustrating a process of transmitting an e-mail according to an embodiment of the present invention.
3 is a diagram illustrating a mail transmission apparatus according to another embodiment of the present invention.
4 is a diagram illustrating a mail processing group according to an embodiment of the present invention.
5 is a diagram illustrating a method of transmitting an electronic mail through a mail processing group according to an embodiment of the present invention.
6 is a diagram illustrating allocation of a transmission scheme according to an embodiment of the present invention.
7 is a diagram illustrating allocation of a transmission scheme according to another embodiment of the present invention.
FIG. 8 is a diagram illustrating a transmission success domain address list according to an embodiment of the present invention.
9 is a diagram illustrating an example of a processing procedure when an electronic mail transmission fails.
10 is a diagram illustrating a retransmission method according to an embodiment of the present invention.
11 is a diagram illustrating a control method of a mail transmission apparatus according to an embodiment of the present invention.

BACKGROUND OF THE INVENTION 1. Field of the Invention [0002] The present invention relates to an electronic mail transmission apparatus, and more particularly, to a mail transmission apparatus capable of increasing the transmission success rate of electronic mail through a change in the transmission method of electronic mail. Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the drawings.

1 is a diagram illustrating a mail transmission apparatus 100 according to an embodiment of the present invention.

Referring to FIG. 1, a mail transmission apparatus 100 according to an embodiment of the present invention may include a control unit 110 and a mail processing unit 120.

According to a method of implementing the present invention, the mail transmission apparatus 100 may further include a storage unit 130 or a communication unit (not shown).

Also, a plurality of components of the mail transmission apparatus 100 may be integrated into one component, or some components may be omitted.

The mail transmission apparatus 100 may be an electronic mail transmission / reception server for providing an electronic mail service to a user or a single computer included in the configuration of the server.

Alternatively, the mail transmission apparatus 100 may be a whole of software program data, but the embodiment of the present invention is not limited thereto.

The mail processing unit 120 can process the process relating to the transmission of the electronic mail.

Here, the process related to the transmission of the e-mail includes the generation of an e-mail, the provision of a user interface (for example, a text editor or the like) used for creating an e-mail, the storage of an e-mail, Reception and output, and the like.

Here, the mail processing unit 120 may be a program that is created, managed, and destroyed through system software such as an operating system, or hardware implemented through a chip or the like.

When the mail processing unit 120 is implemented in hardware, it may include a communication unit or a communication module, which will be described later, and may transmit and receive signals to / from an external communication device (for example, a mail receiving device) under the control of the control unit 110 It is possible.

In addition, the mail processing unit 120 may be an auxiliary processor or an auxiliary software / program whose operation is controlled by the control unit 110. [

At this time, the controller 110 may be called a main processor or a master processor, and the mail processor 120 may be called a sub processor or a slave processor.

However, the embodiment of the present invention is not limited thereto, and may be an independent processor or an independent software / program.

According to a preferred embodiment of the present invention, the mail transmission apparatus 100 may include at least one mail processing unit 120. [

If the mail processing unit 120 is a software-based processor, the mail processing unit 120 may be created or destroyed under the control of the control unit 110. [

Alternatively, the control unit 110 and the mail processing unit 120 may be implemented as a single software / hardware processor, or the mail processing unit 120 may be included as part of the control unit 110 It is possible.

The storage unit 130 may store various information or data.

The storage unit 130 may be a chip, a physical storage unit such as a RAM, a ROM, an SSD, an HDD, a register or the like, a virtual variable for storing a value or a numerical value in software or the like, an object or the like.

The communication unit can transmit / receive a signal to / from an external communication device under the control of the control unit (110).

The communication unit may transmit and receive signals through a wired or wireless communication system, and may include a wired communication module or a wireless communication module.

According to an embodiment of the present invention, the communication unit performs a wired communication method such as a LAN and a short-range wireless communication method such as Wi-Fi, Bluetooth, NFC, Zigbee, or other data communication can do.

If the mail processing unit 120 does not include a communication unit or a communication module, the communication unit may be included in the mail transmission apparatus 100 as a separate component, and the mail processing unit 120 may communicate with the external communication The device can send and receive signals.

According to the embodiment of the present invention, the storage unit 130 and the communication unit may not be essential components of the embodiment of the present invention, and the mail transmission apparatus 100 may be a system using an external storage unit or an external communication unit Lt; / RTI >

The control unit 110 can control each configuration of the mail transmission apparatus 100. [

The control unit 110 may perform arithmetic processing and processing of various data and signals, and may control each component of the mail transmission apparatus 100.

The controller 110 may be embodied as hardware implemented in the form of a semiconductor chip or an electronic circuit, or software that controls the hardware, and the hardware and the software may be combined.

According to a preferred embodiment of the present invention, the control unit 110 can allocate an e-mail address and an e-mail transmission method to at least one mail processing unit 120. [

Each of the mail processing units 120 can transmit an e-mail to the mail receiving apparatus corresponding to the assigned e-mail address according to the assigned transmission method.

Here, if the mail processing unit 120 receives a transmission failure notification signal, which is a signal indicating a transmission failure of the electronic mail, from the mail receiving apparatus, the control unit 110 notifies the transmission failure reason included in the transmission failure notification signal And determines whether to change the transmission mode, and transmits the electronic mail according to the transmission method based on the determination result of the change.

The control unit 110 and the mail processing unit 120 will be described in detail with reference to FIG. 2 through FIG.

2 is a diagram illustrating a process of transmitting an e-mail according to an embodiment of the present invention.

2, the mail transmission apparatus 100 and each of the mail reception apparatuses 300A to 300C may be interconnected via a communication network or the Internet. Here, the mail receiving apparatus may receive an e-mail associated with a unique domain, and may be a processing apparatus composed of at least one computer or a server.

2, the mail receiving apparatus 300A can receive an e-mail relating to the domain aaa.com, the mail receiving apparatus 300B can receive an e-mail relating to the domain bbb.com, and the mail receiving apparatus 300C can receive the e-mail relating to the domain ccc .com. < / RTI >

The embodiment of FIG. 2 shows a situation in which the mail transmission apparatus 100 transmits an electronic mail to abc@aaa.com.

That is, the control unit of the mail transmission apparatus 100 can assign the e-mail address abc@aaa.com to the mail processing unit.

At this time, the control unit may assign the contents of the electronic mail to be transmitted to the electronic mail address (for example, text, other attached files, etc.) to the mail processing unit together with the assignment of the electronic mail address.

The mail processing unit can transmit the contents of the electronic mail to the assigned electronic mail address abc@aaa.com. Here, the e-mail signal transmitted by the mail processing unit may include information on an e-mail address abc@aaa.com, which indicates the destination of the e-mail, in the header, And may be transmitted to the destination mail receiving apparatus 300A through a router of the Internet network to relay.

Here, each of the mail receiving apparatuses 300A to 300C can hold information on an electronic mail blocking rule for determining whether to receive electronic mail based on the frequency of reception of electronic mail or content of electronic mail or the like, Depending on whether the e-mail meets the e-mail blocking rules, e-mail can be received or blocked.

The mail receiving apparatus 300A that has received the e-mail determines whether the e-mail transmitted to the e-mail address abc@aaa.com does not violate the e-mail blocking rule, and determines whether the e- It may further determine whether the e-mail address is in a dormant state.

The mail receiving apparatus 300A may transmit a transmission result notification signal to the mail transmission apparatus 100 to notify whether the electronic mail is received or blocked.

Here, the transmission result notification signal may be a transmission failure notification signal including a transmission failure reason or a transmission success notification signal indicating a transmission success. That is, when the mail receiving apparatus 300A blocks the reception of the e-mail due to the violation of the e-mail blocking rule or fails to transmit the e-mail (in the absence of the e-mail) The transmission failure notification signal can be transmitted to the mail processing unit of the mail transmission apparatus 100.

The mail transmission apparatus 100 can determine whether to retransmit the electronic mail or change the transmission mode based on the transmission failure notification signal.

On the other hand, according to the embodiment of the present invention, the mail transmission apparatus 100 checks the validity of the e-mail address of the e-mail before sending the e-mail, and sends the e-mail to the e- Lt; / RTI >

Then, the mail transmission apparatus 100 generates a transmission success domain address list, which is a list of domain addresses of the electronic mail addresses to which the electronic mail is successfully transmitted, and determines whether or not the transmission failure notification signal according to the transmission of the electronic mail has been received The domain address included in the transfer success domain address list can be updated.

If the domain name of the e-mail address before the transfer is identical to any one of the domain addresses included in the transfer success domain address list, The e-mail address before the transmission can be evaluated as valid.

According to another embodiment of the present invention, the mail transmission apparatus 100 allocates an e-mail address to each mail processing unit with reference to address list information including a plurality of e-mail addresses, The e-mail address associated with the transmission failure notification signal may be deleted from the address list information when the transmission failure reason of the transmission failure notification signal includes information indicating the absence of the e-mail address.

The description of the domain address or the address list information of the e-mail will be described in more detail with reference to FIGS. 8 and 9. FIG.

3 is a diagram illustrating a mail transmission apparatus 100 according to another embodiment of the present invention.

According to the embodiment of Fig. 3, the mail transmission apparatus 100 may include at least one mail processing unit 120_1 to 120_n (n is a natural number of 2 or more). The control unit 110 can assign the e-mail address and the transmission method of the e-mail to each of the mail processing units 120_1 to 120_n.

According to a preferred embodiment of the present invention, the control unit 110 may assign different e-mail addresses to the respective mail processing units 120_1 to 120_n.

The control unit 110 may assign at least one electronic mail address to each of the mail processing units 120_1 to 120_n.

According to the preferred embodiment of the present invention, the assignment of the transmission mode determines at least one of the number of simultaneous transmission of the electronic mail of the mail processing unit, the transmission period of the electronic mail, and the minimum standby time between the electronic mail transmission Lt; / RTI >

Alternatively, the assignment of the transmission scheme may be a process of determining the number of electronic mails transmitted by the mail transmission apparatus 100 per unit time of the mail processing unit.

The mail processing unit can determine the frequency (period) of transmitting the electronic mail according to the transmission method.

Meanwhile, according to the embodiment of the present invention, when the mail transmission apparatus 100 receives the transmission failure notification signal, the mail transmission apparatus 100 can change the transmission mode based on the transmission failure reason of the transmission failure notification signal.

However, the embodiment of the present invention is not limited to this, and the mail transmission apparatus 100 may change the transmission mode even when the transmission failure notification signal is not received.

In this case, the mail transmission apparatus 100 can change the transmission method of the electronic mail for more efficient transmission.

The mail transmission apparatus 100 can appropriately distribute resources for calculation and processing of information to each process. Here, the resource may be a term indicating a computing power or a computational resource required for processing the signal / information.

Alternatively, the resources may include at least one of an occupancy time of a processor processing signal / information, a processing frequency / priority of a processor, or a memory capacity .

Alternatively, the mail transmission apparatus 100 may allocate the resource to each of the mail processing units 120_1 to 120_n.

Here, the resources allocated to the mail processing units 120_1 to 120_n may be determined based on the transfer method assigned to the mail processing units 120_1 to 120_n by the control unit 110. [

That is, the resource may mean the computing power for processing the transmission of the e-mail according to the transmission scheme. For example, when the mail transmission apparatus 100 transmits an e-mail (through a mail processing unit), resources for performing various operations for transmitting the e-mail, etc. may be required.

The mail transmission apparatus 100 can allocate resources based on the transmission methods allocated to the mail processing units 120_1 to 120_n. If there are remaining resources not allocated to the mail processing units 120_1 to 120_n, It is possible to additionally allocate resources to the respective mail processing units 120_1 to 120_n for processing such as electronic mail transmission.

That is, the control unit 110 can allocate more memory capacity and occupancy time of a longer processor to the mail processing units 120_1 to 120_n, and raise the priority order of the electronic mail transmission processing of the mail processing unit.

In order to further allocate these resources, the mail transmission apparatus 100 (or the control unit 110) transmits the transmission method so that the mail processing units 120_1 to 120_n consume more resources and perform more e-mail transmission related processing Can be changed.

On the contrary, if the number of e-mail addresses allocated to the mail processing units 120_1 to 120_n is small and a transmission method based on a large amount of resources is allocated, the mail transmission apparatus 100 transmits the corresponding The mail processing units 120_1 to 120_n may change the transmission mode so as to transmit the electronic mail according to the transmission method using less resources.

Meanwhile, in another example, the control unit 110 allocates resources to the mail processing units 120_1 to 120_n, and individually sets the transmission methods of the e-mails of the mail processing units 120_1 to 120_n based on the allocated resource size It is possible.

According to the preferred embodiment of the present invention, the change of the transmission method changes at least one of the number of simultaneous transmission of the e-mail specified to the mail processing units 120_1 to 120_n, the transmission period of the e-mail, Lt; / RTI >

Alternatively, the change of the transmission mode may be a process of changing the number of electronic mails transmitted per unit time of the mail processing unit.

The mail transmission apparatus 100 can transmit a plurality of e-mails at a time, and in this case, the required resources can be determined according to the number of e-mails to be transmitted at one time.

On the other hand, the number of simultaneous transmissions is also related to the number of e-mails that can be simultaneously received by the mail receiving apparatus side. According to the e-mail blocking rule of the mail receiving apparatus, e-mails transmitted at a predetermined number or more are not transmitted It may not be possible.

In addition, the mail transmission apparatus 100 can transmit a predetermined number of electronic mails at predetermined intervals.

As the period is reduced, the mail transmission apparatus 100 sends e-mails more frequently (with a higher frequency number), and as the period is increased, the mail transmission apparatus 100 transmits e-mails less frequently .

The period is also related to the e-mail blocking rule of the mail receiving apparatus, and the e-mail that is transmitted more than a specific frequency can be rejected by the mail receiving apparatus.

Regarding the period, the e-mail blocking rules may treat e-mails that are regularly transmitted at the same period as spam e-mail. To avoid this, the mail transmission apparatus 100 transmits the e- It is possible to perform adjustment such as adding or subtracting random random numbers predefined for each cycle, or sending an e-mail according to the adjusted period.

That is, for example, for a time value of 300 seconds of 5 minutes, an arbitrary number from 1 second to 299 seconds can be added or subtracted, and the e-mail can be sent by adjusting the cycle every time.

The minimum waiting time between e-mail transmission means a time difference between each transmission when the mail transmission apparatus 100 transmits individual e-mails, and the time difference may have a value greater than or equal to a predetermined minimum waiting time.

The minimum latency between e-mail transmissions is also related to the e-mail blocking rules of the receiving device. If the time difference between e-mail messages is less than a certain time difference, the transmission of the e- Can be treated as transmission.

The number of electronic mails transmitted per unit time means the total number of electronic mails transmitted by the mail transmission apparatus 100 during a specific time period.

The number of electronic mails transmitted per unit time (for example, 0.1 second) is also related to the electronic mails blocking rule of the mail receiving apparatus, and therefore, it is necessary to set the number of electronic mails to be transmitted per unit time in consideration thereof.

Here, the number of electronic mail to be transmitted per unit time may be automatically set based on the number of simultaneous transmission of the electronic mail, the transmission period of the electronic mail, and the minimum standby time between electronic mail transmission.

For example, if the transmission cycle is 0.1 second, the number of simultaneous transmission is 10, and the unit time is 1 second, the number of electronic mail transmission per unit time can be calculated as 100.

Alternatively, the mail transmission apparatus 100 may adjust at least one of the number of simultaneous transmission of the e-mail, the transmission period of the e-mail and the minimum waiting time between the e-mail transmission by adjusting the number of e-mails transmitted per unit time And vice versa.

For example, the mail transmission apparatus 100 can increase the number of electronic mails transmitted per unit time by reducing the transmission period of electronic mails.

Conversely, the mail transmission apparatus 100 may increase the transmission period of the e-mail to reduce the number of e-mails transmitted per unit time.

The method of applying the random number to the period can be equally applied to adjustment of other transmission methods.

For example, the mail transmission apparatus can randomly adjust the number of mails transmitted at one time within a predetermined range according to time (or each cycle), and the minimum waiting time between e-mail transmission is also within a predetermined range It is possible to prevent the mail transmitted to the mail transmission apparatus from being classified as spam mail by randomly adjusting it.

Meanwhile, when the mail transmission apparatus 100 (or the control unit 110) assigns the transmission method to each of the mail processing units 120_1 to 120_n for the first time, the number of simultaneous transmission of the electronic mail An initial transmission scheme that is a transmission scheme including setting of a minimum waiting time between the electronic mail transmission according to a transmission cycle of the electronic mail according to a preset maximum transmission cycle and a preset maximum waiting time.

Alternatively, when the mail transmission apparatus 100 allocates a transmission scheme to each of the mail processing units 120_1 to 120_n for the first time, a transmission scheme including a setting of the number of electronic mails to be transmitted per unit time according to a preset minimum transmission number An initial transmission scheme can be assigned.

Here, the predetermined minimum transmission number may be a value automatically calculated by the predetermined minimum simultaneous transmission number, a predetermined maximum transmission period, and a preset maximum waiting time. Accordingly, each of the mail processing units 120_1 to 120_n may be assigned the same transmission method during the initial startup of the mail transmission apparatus 100, and then the transmission failure notification signal or the mail transmission Depending on the resource status of the device 100, the transmission methods of the respective mail processing units 120_1 to 120_n may be adjusted to different transmission methods.

Mail transmission apparatus 100 increases the number of simultaneous transmissions of the electronic mail by a predetermined number of simultaneous transmission number correction values every predetermined transmission mode change period (for example, 10 minutes) after the assignment of the initial transmission mode Performing a second transmission mode change to change the transmission mode, reducing the transmission period of the electronic mail by a predetermined transmission period correction value, and decreasing the minimum waiting time between the electronic mail transmission by a predetermined waiting correction value The third transmission mode change can be performed.

The change of each transmission method adjusts the transmission method for sending electronic mail more frequently / frequently so that the mail transmission apparatus 100 can gradually increase the transmission amount (number of transmission) of the electronic mail.

That is, the mail transmission apparatus 100 can increase the number of electronic mails transmitted per unit time through the adjustment of the transmission method.

The mail transmission apparatus 100 includes a first transmission failure notification signal which is a transmission failure notification signal including a transmission failure reason associated with the number of simultaneous transmission of the electronic mail while the electronic mail is being transmitted, A second transmission failure notification signal, which is a transmission failure notification signal including a reason, and a third transmission failure notification signal, which is a transmission failure notification signal including a transmission failure reason associated with the minimum waiting time between the e-mail transmission.

The mail transmission apparatus 100 may stop changing the k-th transmission mode when the mail processing units 120_1 to 120_n receive the k-th transmission failure notification signal for a natural number k of 1 or more and 3 or less.

For example, when receiving the first transmission failure notification signal including the transmission failure reason associated with the number of simultaneous transmissions, the mail transmission apparatus 100 transmits the number of simultaneously transmitted e-mails to the next And does not perform the first transmission mode change to increase by the transmission number correction value.

That is, in the above case, the mail transmission apparatus 100 may stop adjusting the number of simultaneous transmission of e-mails and fix the number of simultaneous transmission of e-mails to a state prior to reception of the failure notification signal.

When the first transmission mode change, the second transmission mode change, and the third transmission mode change are all stopped in response to the reception of the transmission failure notification signal, the mail transmission apparatus 100 adjusts Wherein the number of simultaneously transmitted e-mails of the e-mail processing unit is set to a limit number of simultaneously received e-mails that can be simultaneously received by the mail receiving apparatus, and the transmission period of the e- Wherein the mail receiving apparatus sets a minimum receiving period as a minimum receiving period in which the mail receiving apparatus can receive the e-mail, and sets a minimum waiting time between the e-mails adjusted according to the transmission mode change to a minimum waiting time It can be set to the limit wait time.

If the mail transmission apparatus 100 further includes a storage unit for storing information, information on the limit simultaneous receipt number, the limit reception period, and the limit wait time may be stored in the storage unit.

Alternatively, the information may be stored in an external database.

Here, the limit simultaneous receipt number, the limit reception period, and the limit wait time can be estimated as a limit value according to an e-mail blocking rule of the mail receiving apparatus, It can be said that this method is not valid for.

For example, assume that the number of simultaneous transmissions was five, and that the number of simultaneous transmissions of e-mails increased by one every transmission mode change period thereafter.

When the mail processing units 120_1 to 120_n receive the first transmission failure notification signal from the mail receiving apparatus when the number of simultaneously transmitted e-mails is ten, the number of simultaneous transmissions of the mail transmission apparatus 100 is ten The limit of the device can be treated as the number of simultaneous receivers.

The limit number of simultaneous receivings of 10 can be estimated by the electronic mail blocking rule of the mail receiving apparatus, and when the mail transmitting apparatus sends an electronic mail to the same mail receiving apparatus in the future, It is possible to transmit an electronic mail according to the transmission method according to the number.

In addition, the mail transmission apparatus 100 can estimate an electronic mail blocking rule such as the limit simultaneous reception count individually for each mail receiving apparatus.

Accordingly, different e-mail blocking rules may be estimated for each mail receiving apparatus.

The mail transmission apparatus 100 can separately store an electronic mail blocking rule such as the limit simultaneous reception count in the storage unit (or database), and can refer to the future electronic mail transmission, thereby increasing the transmission success rate of the electronic mail.

That is, when the e-mail address is assigned to the mail processing units 120_1 to 120_n, the mail transmission apparatus 100 transmits the limit number of simultaneous receipt, the limit reception period and the limit wait time for the mail receiving apparatus that receives the e- (The number of simultaneous transmissions of e-mails, the number of simultaneous transmissions of e-mails, the number of simultaneous transmissions of e-mails, the number of simultaneous transmissions of e-mails , The transmission period of the electronic mail, and the minimum standby time between the electronic mail transmission).

4 is a diagram illustrating a mail processing group according to an embodiment of the present invention.

In the embodiment of FIG. 4, the first to fourth mail processing units 120_1 to 120_4 are classified into the first mail processing group G1, and the fifth to ninth mail processing units 120_5 to 120_9 2 mail processing group (G2).

The mail transmission apparatus 100 can assign an e-mail address and an e-mail transmission method to each mail processing unit.

According to a preferred embodiment of the present invention, the mail transmission apparatus 100 can classify each of the mail processing units 120_1 to 120_9 into at least one mail processing group.

The mail transmission apparatus 100 allocates an e-mail transmission method for each of the mail processing groups, and each of the mail processing units included in the same mail processing group transmits an e-mail according to the transmission method assigned to the mail processing group Lt; / RTI >

That is, the mail transmission apparatus 100 can more efficiently transmit the electronic mail through the group-by-group control of the mail processing unit.

Here, the criteria of the group classification may be variously prepared.

According to a preferred embodiment of the present invention, the mail transmission apparatus 100 transmits the at least one mail processing unit to at least one mail processing group 120-1 to 120_9 based on the domain addresses of the email addresses assigned to the respective mail processing units 120_1 to 120_9. .

For example, the mail transmission apparatus 100 may divide the mail processing group into a set of mail processing units to which an electronic mail address having the same top-level domain is assigned.

A top-level domain is a domain that is used according to a country or a particular organizational group. Examples include .kr, .jp, .cn, etc. representing the country and .or (or .org), .co (or. com).

In the example of Fig. 4, the first mail processing group G1 may be a set of mail processing units for sending an e-mail to an e-mail address including .kr, and the second mail processing group G2 may include .jp Mail address to the e-mail address of the e-mail address.

As another example, the first mail processing group G1 may be a set of mail processing units that send e-mail to an e-mail address including .com, and the second mail processing group G2 includes .co And may be a set of mail processing units for sending electronic mail to an electronic mail address.

The mail transmission apparatus 100 can take a different transmission scheme (or transmission policy) according to the top-level domain, and can manage the transmission of the electronic mail according to the type of the top-level domain.

In addition, the mail processing group may be a set of mail processing units assigned with an e-mail address having the same domain address.

In the example of FIG. 4, the first mail processing group G1 may be a set of mail processing units that send e-mail to an e-mail address including aaa.com, the second mail processing group G2 may be a set of mail processing units, Mail address to the e-mail address including the e-mail address.

The mail transmission apparatus 100 can take a different transmission method (or transmission policy) according to the individual domain address, and can manage the transmission of the electronic mail according to the type of the individual domain address.

5 is a diagram illustrating a method of transmitting an electronic mail through a mail processing group according to an embodiment of the present invention.

In FIG. 5, the first mail processing unit 120_1 to the fourth mail processing unit 120_4 are included in the same mail processing group G1.

5, only the mail receiving apparatus 300 for transmitting and receiving signals to and from the first mail processing unit 120_1 is illustrated, and a mail receiving apparatus for sending and receiving signals to and from the remaining mail processing units is omitted.

According to the method of implementing the present invention, the mail processing unit may be allocated a plurality of electronic mails having different domain addresses.

For example, the mail processing unit 120_1 may receive an e-mail address including aaa.com and an e-mail address including bbb.com.

Then, the mail processing unit 120_2 is assigned an e-mail address including aaa.com, and the mail processing unit 120_3 is assigned an e-mail address including bbb.com.

The mail processing group according to the embodiment of the present invention is not fixed and the mail processing unit included in the mail processing group can be changed flexibly.

That is, in the above example, the mail processing unit 120_1 can be included in the same mail processing group as the mail processing unit 120_2 when sending an e-mail to an e-mail address including aaa.com, and can transmit the e-mail together.

Conversely, when the mail processing unit 120_1 transmits an electronic mail to an electronic mail address including bbb.com, the mail processing unit 120_1 can be included in the same mail processing group as the mail processing unit 120_3 and can transmit the electronic mail together.

That is, as the mail processing group is flexibly changed as described above, the mail transmission apparatus 100 can utilize the resources more flexibly and also increase the transmission efficiency.

On the other hand, according to the above description, the mail transmission apparatus 100 (or the control unit 110) can assign a transmission mode of electronic mail to each mail processing group.

Therefore, the change of the transmission method or the determination of the method of retransmitting the electronic mail can also be performed on a mail processing group basis.

That is, according to the embodiment of the present invention, when at least one mail processing unit included in the mail processing group receives the transmission failure notification signal, the transmission failure notification signal of the mail processing group Can be changed.

In FIG. 5, the first mail processing unit 120_1 through the fourth mail processing unit 120_4 may transmit the electronic mail to the same mail receiving apparatus 300. FIG.

If the first mail processing unit 120_1 receives the transmission failure notification signal from the mail receiving apparatus 300, the first mail processing unit 120_1 can transmit the transmission failure notification signal to the control unit 110. [ The control unit 110 can change the transmission method of the entire mail processing group G1 based on the received transmission failure notification signal.

6 is a diagram illustrating allocation of a transmission scheme according to an embodiment of the present invention.

In the embodiment of FIG. 6, the first to fourth mail processing units 120_1 to 120_4 are classified into the first mail processing group G1, and the fifth to twelfth mail processing units 120_12 to 120_12 2 mail processing group (G2).

That is, the first mail processing group G1 includes four mail processing units and the second mail processing group G2 includes seven mail processing units.

According to a preferred embodiment of the present invention, the mail transmission apparatus 100 can determine the transmission method of the electronic mail of the mail processing group based on the number of the mail processing units included in the mail processing group.

6, since the number of mail processing units of the first mail processing group G1 and the number of mail processing units of the second mail processing group G2 are different from each other, B) may be assigned, respectively.

According to an embodiment of the present invention, the e-mail transmission apparatus 100 may reduce the number of concurrent transmissions of the e-mails of the transmission method or increase the transmission period of the e-mail as the number of the mail processing units included in the mail processing group increases Or increase the minimum wait time between email transmissions.

Alternatively, according to another embodiment of the present invention, the smaller the number of the mail processing units included in the mail processing group is, the more the number of simultaneous transmission of the electronic mail of the transmission method is increased, Reducing the period or reducing the minimum wait time between email transmissions.

6, since the number of the mail processing units of the first mail processing group G1 is smaller than the number of the mail processing units of the second mail processing group G2, the mail processing unit of the first mail processing group G1 The mail processing unit of the second mail processing group G2 may be assigned a transmission method of simultaneously transmitting five e-mails at a time.

This method is particularly effective when the same resources are allocated to each group.

7 is a diagram illustrating allocation of a transmission scheme according to another embodiment of the present invention.

In the embodiment of FIG. 7, the first to fourth mail processing units 120_1 to 120_4 are classified into the first mail processing group G1, and the fifth to eighth mail processing units 120_5 to 120_8 2 mail processing group (G2).

7, the number of mail processing units included in two mail processing groups is shown to be the same, but the present invention is not limited thereto.

7, the total number of e-mail addresses M1 assigned to the mail processing unit of the first mail processing group G1 is 60, and the total number of e-mail addresses M1 assigned to the e-mail address assigned to the mail processing unit of the second mail processing group G2 (M2) is 30, but the embodiment of the present invention is not limited to this because it is an example.

According to the preferred embodiment of the present invention, the mail transmission apparatus 100 can determine the transmission method of the e-mail of the mail processing group based on the total number of the e-mail addresses allocated to the mail processing unit included in the mail processing group have.

6, since the number of the e-mail addresses of the first mail processing group G1 and the number of the e-mail addresses of the second mail processing group G2 are different from each other, Method A, Method B) can be respectively assigned.

According to an embodiment of the present invention, as the total number of e-mail addresses allocated to the mail processing unit included in the mail processing group is smaller, the number of simultaneously transmitted e-mails of the transmission method is reduced , Increase the transmission period of the electronic mail, or increase the minimum standby time between the electronic mail transmission.

According to another embodiment of the present invention, the more the total number of e-mail addresses allocated to the mail processing unit included in the mail processing group is, the more the number of simultaneously transmitted e-mails of the transmission method is increased Reduce the transmission period of electronic mail, or reduce the minimum waiting time between electronic mail transmissions.

7, since the number of the e-mail addresses of the first mail processing group G1 is larger than the number of the e-mail addresses of the second mail processing group G2, The processing unit may be assigned a transmission method for simultaneously transmitting 10 e-mails and the mail processing unit of the second mail processing group G2 to simultaneously transmit 5 e-mails.

That is, by allocating more resources to the mail processing groups to which more e-mail addresses are assigned, the processing speed of the mail transmission apparatus 100 can be improved as a whole.

Meanwhile, according to another embodiment of the present invention, the mail transmission apparatus 100 transmits the number of the mail processing units included in the mail processing group and the number of the e-mail addresses allocated to the mail processing unit of each mail processing group at the same time Method.

For example, the mail transmission apparatus 100 transmits a burden coefficient (m / p), which is a ratio of the number of mail processing units included in the mail processing group to the number of electronic mail addresses m assigned to the mail processing group, .

As described above, since the mail processing unit included in each mail processing group can be flexibly changed, the burden coefficient can be calculated for each individual mail processing group every predetermined observation period.

The mail transmission apparatus 100 can perform at least one of an increase in the number of simultaneous transmission of e-mails, a decrease in the transmission period of the e-mail, and a decrease in the minimum waiting time between the e-mail transmission when the burden coefficient increases, When the count is decreased, at least one of a decrease in the number of simultaneous transmission of e-mails, an increase in the transmission period of the e-mail, and an increase in the minimum waiting time between the e-mail transmission can be performed.

FIG. 8 is a diagram illustrating a transmission success domain address list (DLIST) according to an embodiment of the present invention.

According to the embodiment of the present invention, the mail transmission apparatus can check the validity of the e-mail address of the e-mail before each e-mail processing unit transmits the e-mail.

At this time, the mail transmission apparatus (or control section)) can perform the validity check before or after the assignment of the electronic mail address to the mail processing section, but before the electronic mail is transmitted.

Then, each of the mail processing units can transmit the e-mail to the e-mail address evaluated as valid.

Here, the validity of the e-mail address indicates whether the corresponding e-mail address is actually present.

Alternatively, the validity may be information indicating whether or not the electronic mail can be transmitted to the corresponding electronic mail address.

For example, if a particular e-mail address does not exist (such as a typo in an e-mail address), or if the e-mail address actually exists but does not receive e-mail for reasons such as dormancy, .

The validity check can be performed in various ways. According to a preferred embodiment of the present invention, the mail transmission device can successfully generate a transfer success domain address list (DLIST), which is a list of domain addresses of the e-mail address to which the e-mail was successfully transmitted.

FIG. 8 shows an example of a transfer success domain address list (DLIST), which includes aaa.com (D1), bbb.go.kr (D2), and so on, which are domain addresses of an e-mail address to which an e-mail has been successfully transmitted. , ccc.net (Dm), and the like.

The mail transmission apparatus can update the domain address included in the transmission success domain address list based on whether each of the mail processing units has received the transmission failure notification signal according to the transmission of the electronic mail.

For example, if the e-mail transmission to the e-mail address including the domain address ddd.co.jp is successfully completed, the mail transmission device adds ddd.co.jp to the transfer success domain list (DLIST) .

However, when there is a situation such that the domain address ddd.co.jp is disposed of by the user using the domain address and is no longer used or the like, the mail transmission device transmits the e-mail including the domain address ddd.co.jp Mail address can not be transmitted to the address, and a transmission failure notification signal indicating that the non-existence of the e-mail address is the cause of the transmission failure is received.

In this case, the mail transmission apparatus can delete the domain address ddd.co.jp from the transmission success domain address list (DLIST).

The mail transmission apparatus can evaluate that the e-mail address before the transmission is valid if the domain address of the e-mail address before transmission matches any of the domain addresses included in the transmission success domain address list.

In the above example, if the domain address ddd.co.jp is still in use and is included in the transfer success domain address list (DLIST), the e-mail address including the domain address ddd.co.jp can be evaluated as valid have.

Through this process, the mail transmission apparatus according to the embodiment of the present invention can prevent the unnecessary - that is, the transmission of the e-mail to the invalid e-mail address, thereby preventing waste of resources and enabling efficient e-mail transmission do.

The transmission success domain address list (DLIST) according to the embodiment of FIG. 8 may be information dependent on or included in the address list information (MLIST) of the embodiment of FIG. 9, but the present invention is not limited thereto.

9 is a diagram illustrating an example of a processing procedure when an electronic mail transmission fails.

9A, the mail processing unit 120 receives an e-mail address from the control unit 110 and transmits an e-mail to the mail receiving apparatus 300 corresponding to the e-mail address.

However, since the corresponding e-mail address does not exist, the mail receiving apparatus 300 has transmitted the transmission failure notification signal F1 to the mail transmission apparatus 100 with the e-mail address non-existent as the transmission failure reason.

Upon receiving the transmission failure notification signal F1, the mail processing unit 120 may transmit the transmission failure notification signal F1 to the control unit 110 again.

The control unit 110 can determine whether to retransmit the electronic mail or change the transmission mode based on the transmission failure reason of the received transmission failure notification signal F1.

FIG. 9 (b) shows address list information (MLIST) according to an embodiment of the present invention.

According to an embodiment of the present invention, the mail transmission apparatus 100 refers to address list information (MLIST) including a plurality of e-mail addresses (M1 to Mm) and assigns an e-mail address to the mail processing unit 120 .

Here, the address list information (MLIST) may be stored in the storage unit of the mail transmission apparatus 100 or received from an external database.

If the reason why the mail processing unit 120 fails to transmit the transmission failure notification signal received from the mail receiving apparatus 300 includes information indicating the absence of the e-mail address, the control unit 110 extracts, from the address list information, The e-mail address associated with the transmission failure notification signal can be deleted.

9, the mail transmission apparatus 100 has assigned the e-mail address def@aaa.com (M2) to the mail processing unit 120, and the mail processing unit 120 has assigned the e-mail address def@aaa.com M2. ≪ / RTI >

After receiving the e-mail, the mail receiving apparatus 300 corresponding to the domain address aaa.com can determine that the e-mail address def@aaa.com (M2) as the destination of the e-mail does not exist, The transmission failure notification signal F1 including the transmission failure reason that the e-mail address def@aaa.com M2 does not exist can be transmitted to the mail processing unit 120. [

In this case, the control unit 110 may delete the e-mail address def@aaa.com (M2) from the address list information (MLIST).

Then, when an e-mail is to be transmitted to the e-mail address def@aaa.com (M2) by an external request / control or the like, the mail transmission apparatus 100 sends an e-mail address def @ aaa You can ignore or deny the above request / control because .com does not exist.

At this time, the reason for rejection may be transmitted to the controller 110.

This prevents unnecessary e-mail transmission to invalid e-mail addresses.

10 is a diagram illustrating a retransmission method according to an embodiment of the present invention.

In FIG. 10, the vertical arrows indicate the flow of time, wt denotes a predetermined waiting time, r denotes the number of retransmissions, at denotes a predetermined additional waiting time, and wt 'denotes an increased waiting time.

According to the embodiment of the present invention, when receiving the transmission failure notification signal, the mail transmission apparatus can determine whether to retransmit the electronic mail or change the transmission mode based on the transmission failure reason included in the transmission failure notification signal .

Here, there are many reasons why the transmission of the e-mail fails. As described above, if the transmission method of the e-mail violates the e-mail blocking rule of the mail receiving apparatus, or the e-mail address is invalid or absent, the transmission of the e-mail may fail.

In addition, if an e-mail address exists but the e-mail address is in a dormant state, the e-mail address may not be received.

If the user of the specific e-mail address does not transmit or receive the e-mail through the e-mail address for a predetermined period or does not log in for a predetermined period in the account associated with the e-mail address, The mail receiving apparatus or the account management server associated with the e-mail address may indicate that the corresponding e-mail address is inactivated.

The e-mail address has not yet been deleted, but the user of the e-mail address must be able to use the e-mail address (or to receive e-mail via that e-mail address) Or activated.

That is, a dormant e-mail address may exist, but not used by the user, indicating a state in which e-mail can not be received.

In this case, the dormant e-mail address may be expected to be released by the user of the e-mail address after a predetermined time elapses.

According to an embodiment of the present invention, when the mail processing unit includes the information indicating the sleep state of the e-mail address, if the reason why the transmission failure notification signal received from the mail receiving apparatus is not included is the sleeping time (wt), the e-mail can be retransmitted through the mail processing unit to the dormant e-mail address (retransmission count r = 1).

However, the e-mail address may still be dormant.

In this case, the mail transmission apparatus may further include a mail transmission unit that receives the transmission failure notification signal for the retransmitted e-mail, and the transmission failure notification signal transmission failure notification signal for the retransmitted e- (Wt) is increased by a predetermined additional waiting time (at), and after the increased waiting time (wt '), the mail processing unit E-mail can be resent.

That is, if the retransmission fails, the mail transmission apparatus can retransmit the e-mail after a waiting time longer than the predetermined waiting time has elapsed.

However, it may be inefficient to repeat this retransmission of an e-mail infinitely.

According to an embodiment of the present invention, when the number of retransmissions of the electronic mail to the electronic mail address that is in the sleep state exceeds the preset number of retransmission limit, the mail transmission apparatus transmits the e- The transmission of the mail can be stopped.

According to Fig. 10, the mail transmission apparatus indicates a situation where the third retransmission (r = 3) also fails. If the preset number of retransmission limit is 3, the mail transmission apparatus may not perform the fourth retransmission (r = 4).

At this time, if the number of retransmissions of the e-mail for a specific e-mail address exceeds the retransmission limit number, the e-mail transmission apparatus can evaluate the e-mail address as invalid.

Alternatively, the mail transmission apparatus may delete the retransmitted e-mail address exceeding the retransmission limit count from the address list information described above.

Through this process, it is possible to efficiently manage retransmission of e-mail.

11 is a diagram illustrating a control method of a mail transmission apparatus according to an embodiment of the present invention.

According to the embodiment of FIG. 11, the mail transmission apparatus can allocate an electronic mail address and an electronic mail transmission method to at least one mail processing unit (S110).

Here, the mail transmission apparatus classifies the at least one mail processing section into at least one mail processing group based on the domain address of the electronic mail address assigned to each of the mail processing sections, and for each mail processing group, And a resource for processing transmission of an electronic mail according to the transmission scheme.

Here, the mail processing group may be a set of mail processing units assigned with an e-mail address having the same top-level domain.

Alternatively, the mail processing group may be a set of mail processing units assigned with an e-mail address having the same domain address.

Then, the mail transmission apparatus can determine the transmission method of the electronic mail of the mail processing group based on the number of the mail processing units included in the mail processing group.

At this time, the mail transmission apparatus allocates at least one electronic mail address to each of the mail processing units, and the more the number of the mail processing units included in the mail processing group is, the more the number of simultaneous transmission of the electronic mail of the transmission method is reduced, Increasing the transmission period of the mail or increasing the minimum waiting time between the electronic mail transmission and increasing the number of simultaneous transmission of the electronic mail of the transmission method as the number of the mail processing units included in the mail processing group is decreased, Reducing the transmission period or reducing the minimum waiting time between email transmissions.

Here, the mail transmission apparatus allocates at least one electronic mail address to each of the mail processing units, and based on the total number of the electronic mail addresses assigned to the mail processing units included in the mail processing group, Can be determined.

At this time, the smaller the sum of the number of the e-mail addresses allocated to the mail processing unit included in the mail processing group is, the smaller the number of simultaneous transmission of the e-mail of the transmission method is reduced or the transmission period of the e- The number of simultaneous transmissions of e-mails of the transmission method is increased or the number of e-mail addresses of the e-mail address of the e- Lt; RTI ID = 0.0 > e-mail < / RTI > transmission.

Here, the mail transmission apparatus can assign an e-mail address to each mail processing unit by referring to address list information including a plurality of e-mail addresses.

Herein, the mail transmission apparatus allocates at least one electronic mail address to each of the mail processing units, and the allocation of the transmission mode includes at least one of a simultaneous transmission count of the mail processing unit, a transmission cycle of the electronic mail, Waiting time, and waiting time.

When the transmission method is first assigned to each of the mail processing units, the mail transmission apparatus transmits the number of simultaneous transmission of the electronic mail according to the preset minimum number of simultaneous transmissions, the transmission period of the electronic mail according to the preset maximum transmission period, And an initial transmission scheme which is a transmission scheme including setting of a minimum waiting time between the electronic mail transmission according to a preset maximum waiting time.

Here, when the mail transmission apparatus allocates an electronic mail address to the mail processing unit, information on the limit simultaneous reception count, the limit reception period and the limit wait time with respect to the mail reception apparatus that receives the electronic mail address is stored in the storage unit State, the transmission method of the mail processing unit can be set by referring to the information on the limit simultaneous receipt number, the limit reception period, and the limit waiting time.

Here, the resource means a computational resource required for processing the signal / information, and the resource includes at least one of the occupancy time of the processor for processing the signal / information, the processing frequency / priority of the processor, or the memory capacity can do.

Then, the mail transmission apparatus can transmit the electronic mail through the mail processing unit to the mail receiving apparatus corresponding to the assigned electronic mail address, respectively (S120) based on the allocated transmission method and resources.

Here, each of the mail processing units included in the same mail processing group can transmit the electronic mail according to the transmission method assigned to the mail processing group.

Then, the mail transmission device checks the validity of the e-mail address of the e-mail before each e-mail processing section transmits the e-mail, and each of the e-mail processing sections transmits the e-mail to the e-mail address evaluated as valid .

Here, the mail transmission apparatus generates a transmission success domain address list, which is a list of domain addresses of the electronic mail address to which the electronic mail is successfully transmitted, and determines whether each mail processing unit has received the transmission failure notification signal If the domain address of the e-mail address before the transfer matches the one of the domain addresses included in the transfer success domain address list, The previous e-mail address can be evaluated as valid.

When the mail processing unit receives the transmission failure notification signal, which is a signal indicating the transmission failure of the electronic mail, from the mail reception apparatus, the mail transmission apparatus transmits the transmission failure notification signal to the mail transmission apparatus based on the transmission failure reason included in the transmission failure notification signal. (S130), and transmits the e-mail according to the transmission method based on the determination result of the change.

Here, when at least one mail processing unit included in the mail processing group receives the transmission failure notification signal, the mail transmission apparatus may change the transmission method of the mail processing group based on the transmission failure reason of the transmission failure notification signal have.

Here, when the mail processing unit includes information indicating that the transmission failure reason of the transmission failure notification signal received from the mail reception apparatus is not in the absence of the electronic mail address, the mail transmission unit may transmit the transmission failure notification signal The e-mail address associated with the e-mail address can be deleted.

Here, when the mail processing unit includes information indicating that the transmission failure reason of the transmission failure notification signal received from the mail receiving unit is a failure state of the electronic mail address, the mail transmission unit may send the mail processing unit And resend the electronic mail to the dormant e-mail address.

The e-mail transmission apparatus may further include a mail transmission unit that receives the transmission failure notification signal for the retransmitted e-mail, and the transmission failure notification signal transmission failure notification signal for the retransmitted e-mail indicates a sleep state of the e- Information is included, the waiting time may be increased by a predetermined additional waiting time, and the e-mail may be retransmitted to the dormant e-mail address via the mail processing unit after the increased waiting time.

Then, the mail transmission device can stop the transmission of the e-mail to the dormant e-mail address when the number of retransmissions of the e-mail to the dormant e-mail address exceeds the preset number of retransmission limit have.

Here, the change of the transmission method may be a process of changing at least one of the number of simultaneous transmission of the e-mail specified in the e-mail processing unit, the transmission period of the e-mail, and the minimum waiting time between the e-mail transmission.

The e-mail transmission device performs a first transmission mode change to increase the number of simultaneous transmission of the electronic mail by a predetermined number of simultaneous transmission number correction values every predetermined transmission mode change period after the assignment of the initial transmission mode, A third transmission mode change is performed in which a second transmission mode change in which the transmission period of a mail is reduced by a predetermined transmission period correction value is performed and a minimum standby time between the e-mail transmission is reduced by a predetermined waiting correction value have.

In addition, the mail transmission device may include a first transmission failure notification signal, which is a transmission failure notification signal including a transmission failure reason associated with the number of simultaneous transmissions of the electronic mail, a transmission failure notification including a transmission failure reason associated with the transmission period of the electronic mail A third transmission failure notification signal which is a transmission failure notification signal including a transmission failure reason associated with the minimum waiting time between the electronic mail transmission and a natural number k of 1 or more and 3 or less, And can stop changing the k-th transmission scheme when receiving the additional k-th transmission failure notification signal.

If the first transmission mode change, the second transmission mode change, and the third transmission mode change are all stopped in response to the reception of the respective transmission failure notification signals, the mail transmission apparatus is adjusted according to the transmission mode change The number of concurrent transmissions of e-mails of the mail processing unit is set to a limit number of simultaneous receivings that is the maximum number of e-mails that the mail receiving apparatus can simultaneously receive, and the transmission period of the e- Wherein the mail receiving apparatus is set to a minimum receiving period in which the mail receiving apparatus can receive the electronic mail, and a minimum waiting time between the e-mails adjusted according to the change of the transmission method is set to a minimum waiting time The limit reception period, and the limit reception period, You can store information about the limit wait time.

The detailed description of each step will be omitted since it has been discussed with reference to FIG. 1 to FIG.

According to the embodiment of the present invention, effective retransmission of e-mail can be performed based on the reason why the e-mail has failed to be transmitted.

In particular, the mail transmission apparatus according to the embodiment of the present invention can adjust the transmission method of the electronic mail based on the reason for the transmission failure. Thus, the mail transmission apparatus can increase the transmission success rate of the electronic mail.

Further, according to the embodiment of the present invention, the validity of the e-mail can be verified and the e-mail evaluated as valid can be transmitted.

Further, according to the embodiment of the present invention, it is possible to estimate the e-mail blocking rule of the mail receiving apparatus based on the transmission failure reason.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention. Accordingly, it is to be understood that within the scope of the appended claims, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims.

Claims (24)

A mail transmission apparatus comprising:
A plurality of mail processing units for processing a process relating to transmission of electronic mail; And
And a control unit for controlling each mail processing unit of the mail transmission apparatus,
Wherein the control unit allocates to the plurality of mail processing units a resource for processing transmission of an electronic mail address and an electronic mail according to the transmission method,
Each mail processing unit transmits an electronic mail to the mail receiving apparatus corresponding to the assigned electronic mail address based on the assigned transmission method and resource,
When the mail processing unit receives a transmission failure notification signal, which is a signal indicating the transmission failure of the electronic mail, from the mail reception apparatus,
Wherein the control unit determines whether to change the transmission mode based on a transmission failure reason included in the transmission failure notification signal and transmits an electronic mail according to a transmission method based on the determination result of the change,
Classifying the at least one mail processing unit into at least one mail processing group based on a domain address of an email address assigned to each mail processing unit,
An electronic mail transmission method is assigned to each of the mail processing groups,
Wherein each of the mail processing units included in the same mail processing group transmits an electronic mail according to a transmission method assigned to the mail processing group. The method according to claim 1,
Wherein,
When at least one mail processing unit included in the mail processing group receives the transmission failure notification signal,
And changes the transmission method of the mail processing group based on a cause of transmission failure of the transmission failure notification signal. The method according to claim 1,
Wherein,
And determines the transmission method of the electronic mail of the mail processing group based on the number of the mail processing units included in the mail processing group. The method of claim 3,
Wherein,
Assigns at least one electronic mail address to each mail processing unit,
The number of simultaneous transmission of e-mails of the transmission method is decreased, the transmission period of the e-mail is increased, the minimum waiting time between the e-mail transmission is increased as the number of the mail processing units included in the mail processing group is increased,
The number of simultaneous transmission of electronic mail of the transmission method is increased, the transmission period of the electronic mail is reduced or the minimum waiting time between electronic mail transmission is reduced as the number of the mail processing units included in the mail processing group is smaller, Mail transmission device. The method according to claim 1,
Wherein,
Assigns at least one electronic mail address to each mail processing unit,
Mail transmission method of the mail processing group based on the total of the number of the electronic mail addresses assigned to the mail processing unit included in the mail processing group. 6. The method of claim 5,
Wherein,
The smaller the total number of the e-mail addresses allocated to the mail processing unit included in the mail processing group is, the more the number of simultaneously transmitted e-mails of the transmission method is decreased, the transmission period of the e-mail is increased, Increasing the minimum wait time,
The more the total number of the e-mail addresses allocated to the mail processing unit included in the mail processing group is, the more the number of simultaneous transmission of the e-mail of the transmission method is increased, the transmission period of the e-mail is decreased, And the time is reduced. The method according to claim 1,
Wherein,
Wherein the mail processing group is a set of mail processing units to which an electronic mail address having the same top-level domain is assigned. 8. The method of claim 7,
Wherein the mail processing group is a set of mail processing units to which an electronic mail address having the same domain address is assigned. The method according to claim 1,
Wherein the control unit checks the validity of the e-mail address of the e-mail before each e-mail processing unit transmits the e-mail,
Wherein each of the mail processing units sends the electronic mail to the electronic mail address evaluated as valid. 10. The method of claim 9,
Wherein,
Mail address list, which is a list of domain addresses of an e-mail address to which an e-mail has been successfully transmitted, based on whether or not each of the mail processing units has received the transmission failure notification signal in accordance with the transmission of the e- Update the domain address included in the success domain address list,
Wherein when the domain address of the e-mail address before transmission matches any one of the domain addresses included in the transmission success domain address list, the e-mail address before the transmission is evaluated as valid. The method according to claim 1,
Wherein,
Mail address to each mail processing unit by referring to address list information including a plurality of e-mail addresses,
Mail address associated with the transmission failure notification signal from the address list information when the mail processing unit includes the information indicating the absence of the transmission failure notification signal received from the mail receiving apparatus, And deletes the mail. The method according to claim 1,
Wherein,
When the reason for the failure of the transmission failure notification signal received from the mail reception device includes the information indicating the sleep state of the electronic mail address,
And resends the electronic mail to the sleeping electronic mail address through the mail processing unit after a preset waiting time. 13. The method of claim 12,
Wherein,
When the mail processing unit receives the transmission failure notification signal for the retransmitted electronic mail and the reason for the transmission failure of the transmission failure notification signal for the retransmitted electronic mail includes information indicating the sleep state of the electronic mail address,
Increasing the waiting time by a predetermined additional waiting time,
And resends the electronic mail to the sleeping electronic mail address through the mail processing unit after the increased waiting time. 14. The method of claim 13,
Wherein,
When the number of retransmissions of the electronic mail to the sleeping electronic mail address exceeds a preset number of retransmission limits,
And stops sending the e-mail to the e-mail address in the sleep state. The method according to claim 1,
Wherein the control unit assigns at least one electronic mail address to each mail processing unit,
The assignment of the transmission scheme may be performed,
Wherein the control unit is a process of determining at least one of a number of simultaneous transmissions of the electronic mail of the mail processing unit, a transmission period of the electronic mail, or a minimum standby time between the electronic mail transmission. 16. The method of claim 15,
The change of the transmission method may be performed,
Wherein the control unit is a process of changing at least one of the number of simultaneous transmissions of the e-mail specified in the mail processing unit, the transmission period of the e-mail or the minimum waiting time between the e-mail transmission. 16. The method of claim 15,
When the control unit assigns the transmission method to each mail processing unit for the first time,
The setting of the minimum waiting time between the electronic mail transmission according to the number of simultaneous transmission of the electronic mail according to the preset minimum number of simultaneous transmission or the transmission period of the electronic mail or the predetermined maximum waiting time according to the predetermined maximum transmission period Wherein the first transmission method is a transmission method. 18. The method of claim 17,
Wherein the control unit is configured to, after the assignment of the initial transmission scheme,
Performing a first transmission mode change to increase the number of simultaneous transmissions of the e-mails by a preset simultaneous transmission number correction value,
Performing a second transmission mode change to reduce the transmission period of the electronic mail by a predetermined transmission period correction value,
Wherein the third transmission mode change unit decreases the minimum waiting time between the e-mail transmission by a predetermined waiting time correction value. 19. The method of claim 18,
Wherein,
A first transmission failure notification signal that is a transmission failure notification signal including a transmission failure reason associated with the number of simultaneous transmission of the electronic mail,
A second transmission failure notification signal which is a transmission failure notification signal including a transmission failure reason associated with the transmission period of the electronic mail,
A third transmission failure notification signal that is a transmission failure notification signal including a transmission failure reason associated with the minimum waiting time between the e-mail transmissions,
For a natural number k of 1 to 3 inclusive,
And when the mail processing unit receives the kth transmission failure notification signal, stops changing the kth transmission mode. 20. The method of claim 19,
Further comprising a storage unit for storing information,
Wherein,
When the first transmission mode change, the second transmission mode change, and the third transmission mode change are all stopped in response to the reception of the transmission failure notification signal,
The number of simultaneously transmitted e-mails of the mail processing unit adjusted according to the change of the transmission method is set to the limit simultaneous reception count which is the maximum number of e-mails that the mail receiving apparatus can simultaneously receive,
The transmission period of the electronic mail adjusted according to the change of the transmission mode is set as a minimum reception period, which is the minimum reception period at which the mail reception apparatus can receive the electronic mail,
A minimum waiting time between the e-mails adjusted according to the change of the transmission mode is set as a minimum waiting time which is a minimum waiting time between e-mails received by the mail receiving apparatus,
And stores information about the limit simultaneous receipt number, the limit reception period, and the limit waiting time in the storage unit. 21. The method of claim 20,
Wherein,
When information on the limit simultaneous receipt number, the limit reception period, and the limit wait time of the mail receiving apparatus that receives the e-mail address is stored in the storage unit when the e-mail address is assigned to the mail processing unit,
And sets the transmission method of the mail processing unit with reference to the information on the limit simultaneous receipt number, the limit reception period, and the limit waiting time. The method according to claim 1,
The resource means a computational resource required to process the signal / information, and the resource includes an occupation time of a processor that processes the signal / information or a processing frequency of the processor or a priority or a memory capacity The mail transmission apparatus comprising: delete delete

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