KR101856187B1 - Message Multiplexing System - Google Patents

Abstract

The present invention relates to a message multiplex transmission system which transmits a message to a terminal unit through a plurality of transmission nodes. More specifically, the present invention relates to a message multiplex transmission system which can apply a conventional database without changes, blocks a situation in which the transmission nodes transmit the same message in advance, enables an adjacent node to transmit a message that should be transmitted by a transmission node in an inactive state, and enables the adjacent node to stop transmitting of the message in the case that the inactive state of the transmission node is converted to an active state. The purpose of the present invention is to provide the multiplex transmission system which transmits a message through the transmission nodes. Also, the other purpose of the present invention is to prevent transmitting a message, which should be transmitted by a transmission node with failure, by an adjacent node in the case that an inactive state of the transmission node due to failure is converted into an active state.

Description

{Message Multiplexing System}

The present invention relates to a message multiplex transmission system for transmitting a message to a terminal apparatus via a plurality of transmission nodes, more specifically, it is possible to apply a conventional database without change, The neighbor node transmits a message to be transmitted by the inactive node, and if the inactive node is switched to the active state again, the neighbor node transmits a message to stop transmission of the transmitted message instead Multiple transmission systems.

In the conventional message transmission system, there is only one transmission node for transmitting a message, and thus, when an error occurs in the transmission node, the message can not be transmitted to the terminal device. It is necessary to adopt a message transmission system in the database without changing the database which is held and managed by the client company in accordance with the demands of many customers. There is a need.

In addition, when there are a plurality of transmission nodes, it is necessary to solve the problem that the amount of messages handled by each transmission node is made almost the same and overload is applied to only a specific transmission node. Furthermore, when a fault occurs in a specific transmitting node and is switched to an inactive state, a message controlled by the specific transmitting node needs to be carried by another transmitting node. The other transmitting node periodically checks the status of the specific transmitting node so that when the status of the specific transmitting node is switched back to the active status, .

Korean Patent Application Laid-Open Publication No. 10-1991-0001057

It is an object of the present invention to provide a multiple transmission system for transmitting a message via a plurality of transmitting nodes.

An object of the present invention is to extract a message to be transmitted from a database, each of a plurality of transmission nodes, so that the extracted message is not extracted redundantly from a plurality of transmission nodes.

SUMMARY OF THE INVENTION An object of the present invention is to transmit a message to be transmitted by a failure node to a failure node when a failure occurs in any one of a plurality of transmission nodes.

An object of the present invention is to prevent a neighboring node from further transmitting a message to be transmitted by a faulting node when a transmitting node that has been inactive due to a fault is switched to an active state.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory and are intended to provide further explanation of the invention as claimed.

A message multiplexing transmission system includes a plurality of transmission nodes for transmitting a message stored in a message database to a terminal device, each of the transmission nodes to which a node number is assigned extracts a transmission object message from the message database; A message transmission unit for transmitting the extracted transmission subject message to a terminal device; A transmission result receiver for receiving a transmission result for the transmitted message; And a message analyzer for analyzing the transmitted message, wherein the message is matched with a telephone number of a terminal device to be transmitted and stored in a message database, and the message extractor extracts the telephone number from the plurality of transmission node numbers And extracts a message matched with the telephone number as a transmission subject message if the value obtained by adding 1 to the remaining number and the node number are identical to each other, Wherein the time unit is 5 minutes, 1 hour, 1 day, and the message type includes a short message, a long message and a multimedia message.

Wherein each of the transmitting nodes transmits state information to a next transmitting node, which is a transmitting node to which a node number identical to a value obtained by adding 1 to the remaining number obtained by dividing the node number of the transmitting node by the number of transmitting nodes; And a status information reception confirmation unit for transmitting the status information reception confirmation information to the previous transmission node that has transmitted the status information to itself; Wherein the state information includes an active state and an inactive state, the state information transmission unit periodically transmits the state information to a next transmitting node, and when the state information is changed, And the message extracting unit calculates a remainder obtained by dividing the telephone number by the number of transmission nodes when state information received from the previous transmitting node is in an inactive state, Extracts a message matched with the telephone number as a transmission subject message when the node number matches the node number, and the message extractor extracts the telephone number from the plurality of transmission The remainder obtained by dividing the number of nodes is calculated, and the node number is matched with the value obtained by adding 2 to the remainder , The message matched with the telephone number is not extracted as a transmission target message.

The present invention can provide a multiple transmission system for transmitting a message through a plurality of transmitting nodes.

In the present invention, each of the plurality of transmitting nodes extracts a message to be transmitted from the database, and the extracted message may not be extracted redundantly from a plurality of transmitting nodes.

In the present invention, when a fault occurs in any one of a plurality of transmitting nodes, a neighboring node of the faulting node can transmit a message to be transmitted by the faulting node on its behalf.

The present invention can prevent a neighboring node from further transmitting a message to be transmitted by a failure-occurring node when a transmitting node that has been inactive due to a failure is switched to an active state.

The effects of the present invention are not limited to the above-mentioned effects, and various effects can be included within the range that is obvious to a person skilled in the art from the following description.

1 shows a message multiplex transmission system according to the present invention.
Fig. 2 shows a detailed configuration that each transmitting node includes.
FIG. 3 shows information stored in a message.
4 shows information matched to a message to be transmitted by each of a plurality of transmitting nodes.
5 shows a message multiplex transmission system including a transmitting node in which an error has occurred.
FIG. 6 shows a previous transmitting node sending and receiving information and a next transmitting node.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings. However, the embodiments of the present invention can be modified into various other forms, and the scope of the present invention is not limited to the embodiments described below.

Further, the embodiments of the present invention are provided to more fully explain the present invention to those skilled in the art. Accordingly, the shapes and sizes of the elements in the drawings may be exaggerated for clarity of description, and the elements denoted by the same reference numerals in the drawings are the same elements. In the drawings, like reference numerals are used throughout the drawings. In addition, "including" an element throughout the specification does not exclude other elements unless specifically stated to the contrary.

As used herein, the term " block " refers to a block of hardware or software configured to be changed or pluggable, i.e., a unit or block that performs a specific function in hardware or software.

1 shows a message multiplex transmission system according to the present invention.

2 shows a detailed configuration that each transmitting node 1100 includes.

The message multiplex transmission system includes a plurality of transmission nodes 1100 for transmitting a message stored in a message database to the terminal device 300, and each of the transmission nodes 1100 to which the node number is assigned, A message extracting unit 1110 for extracting a message; A message transmission unit 1120 for transmitting the extracted transmission subject message to the terminal device 300; A transmission result receiving unit 1130 for receiving a transmission result for the transmitted message; And a message analyzing unit 1140 analyzing the transmitted message. The message is matched with a telephone number of a terminal device 300 to be transmitted and stored in a message database, and the message extracting unit 1110 extracts, A remainder obtained by dividing the telephone number by the number of the plurality of transmitting nodes 1100 is calculated and when the value obtained by adding 1 to the remaining number and the node number are identical to each other, a message matched with the telephone number is extracted as a transmission subject message And the message analyzing unit 1140 analyzes the message type transmitted on a time unit basis, the time unit is 5 minutes, 1 hour, 1 day, and the message type includes a short message, a long message, and a multimedia message .

The message database 200 stores a message to be transmitted to the terminal device 300 in a database held by a company such as a financial institution, a private enterprise, or a public corporation. The server device (100) managed by the vendor stores a message in the message database (200). The server device (100) manages and controls the message database (200). Specifically, the server apparatus 100 may be implemented with hardware equipped with software that collects and manages a message to be stored in a database.

The terminal device 300 is a device that receives a message and may be a device carried by a consumer. Upon receiving the message, the terminal device 300 visually outputs the message on the display.

The transmitting node 1100 transmits a message stored in the message database to the terminal device 300, and the transmitting node 1100 is plural. A node is a redistribution point or endpoint of a data transmission, and may refer to a computing device that recognizes, processes, or transmits data and the devices within it.

A node number is assigned to the transmitting node 1100. If a plurality of transmitting nodes 1100 are N, one of 1 to N is assigned to each transmitting node 1100, and the one number is assigned to only one transmitting node 1100. That is, neither of the two transmitting nodes 1100 is assigned the same node number.

The message extracting unit 1110 extracts a transmission target message from the message database. The transmission destination message is a message to be transmitted from the transmitting node 1100 to the terminal apparatus 300.

The message transmission unit 1120 transmits the extracted transmission target message to the terminal device 300. [ The message transmission unit 1120 transmits the transmission standby message extracted by the message extraction unit 1110 to the terminal device 300.

The transmission result receiving unit 1130 receives the transmission result for the transmitted message. The transmission result is transmitted to the transmitting node 1100 by the terminal device 300. The transmission result is a signal informing the transmission node 1100 that the transmitted message is normally received at the reception side. The transmission result is, for example, an ACK signal, and the ACK signal is a signal for informing the transmission side that the receiver has normally received or can transmit the message without error.

The message analyzer 1140 analyzes the transmitted message. The message analyzing unit 1140 will be described in detail later.

FIG. 3 shows information stored in a message.

The message is matched with the telephone number of the terminal device 300 to be transmitted and stored in the message database. Referring to FIG. 3, it can be confirmed that the message is matched with a transmission status, a scheduled transmission time, and a telephone number. It is obvious that the information matched with the message is not limited to the information shown in Fig.

The transmission state is information indicating whether or not the message is transmitted to the terminal device 300. The scheduled transmission time is a time for transmitting the message to the terminal device 300. The 20180101120000 shown in FIG. 3 means 12:00:00 on January 1, 2018. The telephone number is the telephone number of the terminal device 300 to receive the transmission subject message.

FIG. 4 shows information matched to a message to be transmitted by each of a plurality of transmitting nodes 1100.

The message extracting unit 1110 calculates a remainder obtained by dividing the telephone number by the number of the plurality of transmitting nodes 1100, and when the value obtained by adding 1 to the remainder equals the node number, And extracts the message as a transmission target message.

The message extracting unit 1110 recognizes the phone number stored as a match with the message. Then, the message extracting unit 1110 calculates a remainder obtained by dividing the telephone number by the number of the plurality of transmitting nodes 1100. Referring to FIG. 4, the transmitting node 1100 1 divides the telephone number 01012340001 by 3, which is the total number of nodes, to calculate a remainder of 0. Then, the message extracting unit 1110 determines whether a value obtained by adding 1 to the calculated remainder matches the node number. In the following description of the example, it is determined whether or not 1, which is obtained by adding 1 to the calculated remaining 0, coincides with its node number 1. A message matched with the telephone number is extracted as a transmission subject message because the value obtained by adding 1 to the remaining one matches the node number of the user.

Referring to FIG. 4, a process of determining whether the message matched to the telephone number is a transmission target message for the telephone number 01012340001 by the transmitting node 1 has been described. Similarly, the transmitting node 1 determines whether the message matched to each of the remaining telephone numbers is a transmission target message for the remaining telephone numbers. Also, in the same way, the remaining transmitting nodes 2 and 3 also judge whether the message stored in the message database is a transmission target message.

The message analyzer 1140 analyzes a message type transmitted by time unit, and the time unit is 5 minutes, 1 hour, 1 day, and the message type includes a short message, a long message, and a multimedia message.

The message analyzing unit 1140 analyzes the message type of the entire message transmitted to the terminal device 300. The message type includes a short message service (SMS), a long message service (LMS), a multimedia message service (MMS), and the like.

The message analyzing unit 1140 classifies the messages transmitted in units of 5 minutes, 1 hour, and 1 day according to message types. It is possible to analyze what kind of messages the vendors transmit to the terminal device 300 at the time and utilize them in the marketing of the customer relationship management.

Each of the transmitting nodes 1100 is connected to the next transmitting node 1100 that is the transmitting node 1100 to which the same node number as the value obtained by adding 1 to the remainder obtained by dividing the node number of the transmitting node 1100 by the number of the transmitting nodes 1100 A status information transmitting unit 1150 for transmitting status information; And a status information reception confirmation unit 1160 for transmitting status information reception confirmation information to the previous transmission node 1100 that has transmitted the status information to itself. Wherein the state information includes an active state and an inactive state, and the state information transmitting unit 1150 periodically transmits the state information to the next transmitting node 1100, and when the state information is changed, The state information received from the previous transmitting node 1100 is in an inactive state, the message extracting unit 1110 transmits the state information to the next transmitting node 1100, The message extracting unit 1110 extracts a message matched with the telephone number if the value obtained by adding 2 to the remaining number and the node number matches the number of the transmitting node 1100, Calculates a remainder obtained by dividing the telephone number by the number of the plurality of transmitting nodes (1100) when the status information received from the previous transmitting node (1100) is active, When the remaining sum of the second value and a node number match, and does not extract the message matching the telephone number to the message delivery destinations.

The state information transmitting unit 1150 transmits the state information to the next transmitting node 1100, which is the transmitting node 1100 to which the same node number as the value obtained by adding 1 to the remainder obtained by dividing the node number of the transmitting node 1100 by the number of the transmitting nodes 1100, And transmits information. The status information transmitting unit 1150 included in each transmitting node 1100 transmits status information to the next transmitting node 1100. The next transmitting node 1100 is a transmitting node 1100 to which the same node number as the value obtained by adding 1 to the remaining number obtained by dividing the node number of the transmitting node 1100 by the number of the transmitting nodes 1100 is allocated.

If its node number is 1 and the number of transmitting nodes 1100 is 3, dividing 1 by 3 means that the remaining one is 1. Add 1 to the remaining 1 to 2. The transmitting node 1100 to which the node number 2 is allocated is the next transmitting node 1100 of the transmitting node 1100 to which the node number 1 is assigned. In the same way, a particular transmitting node 1100 determines its next transmitting node 1100.

The status information reception confirmation unit 1160 transmits the status information reception confirmation information to the previous transmission node 1100 that has transmitted the status information to itself. The process by which a particular transmitting node 1100 determines its next transmitting node 1100 has been described above. Based on the next transmitting node 1100, the particular transmitting node 1100 is the previous transmitting node 1100. That is, the transmitting node 1100 that has transmitted the status information to the specific transmitting node 1100 is the previous transmitting node 1100 based on the specific transmitting node 1100.

The status information reception confirmation unit 1160 transmits status information reception confirmation information indicating that status information has been received from the previous transmission node 1100 to the previous transmission node 1100.

FIG. 5 illustrates a message multiplex transmission system including a transmitting node 1100 in which an error has occurred. FIG. 6 illustrates a previous transmitting node 1100 and a next transmitting node 1100 that transmit and receive information.

The state information includes an activation state and an inactive state. The state information transmission unit 1150 periodically transmits the state information to the next transmitting node 1100, and when the state information is changed, To the next transmitting node (1100).

The transmitting node 1100 in an active state can extract the transmission target message and transmit the extracted transmission target message to the terminal device 300. The transmitting node 1100 in the inactive state can not extract the transmission object message or transmit the extracted transmission object message to the terminal device 300 even if the transmission object message is extracted. Referring to FIG. 5, the transmitting node 1100 in an error state is in an inactive state. And the remaining transmission nodes 1100 are active.

Referring to FIG. 6, the state information transmitting unit 1150 transmits the state information to the next transmitting node 1100 at intervals of t1, which is a cycle. That is, the state information transmitting unit 1150 transmits the state information (S1) and transmits the state information after the time point t1 (S5). The state information at this time point is transmitted to the next transmitting node 1100 at the time point when the state information is changed, even if the time point t1 does not arrive from the time point when the state information is transmitted. Referring to FIG. 6, the state information transmitting unit 1150 transmits state information (S1), and when the state information is changed before t1 arrives, the state information transmitting unit 1150 transmits the changed state information at the changed state information (S3).

The time at which the state information is changed includes a time point at which the state of the transmitting node 1100 changes from the active state to the inactive state and a time at which the state of the transmitting node 1100 changes from the inactive state to the active state.

The message extracting unit 1110 calculates a remainder obtained by dividing the telephone number by the number of the plurality of transmitting nodes 1100 when the status information received from the previous transmitting node 1100 is in an inactive state, 2 and the node number match, extracts a message matched with the telephone number as a transmission target message. That is, when the previous transmitting node 1100 is in the inactive state, the message extracting unit 1110 extracts a transmission subject message to be extracted by the previous transmitting node 1100, and transmits the message to the terminal device 300.

When the state information received from the previous transmitting node 1100 is active, the message extracting unit 1110 calculates a remainder obtained by dividing the telephone number by the number of the plurality of transmitting nodes 1100, , The message matched with the telephone number is not extracted as a transmission target message. That is, when the previous transmitting node 1100 is in the active state, the message extracting unit 1110 does not extract the transmission target message that the previous transmitting node 1100 should extract.

The transmitting node 1100 transmits a message to be transmitted by the previous transmitting node 1100 instead of the previous transmitting node 1100 and transmits the message to the previous transmitting node 1100 to prevent redundant transmission of the message when the transmitting node 1100 is active. No longer sends the message that it should send. Even if a failure occurs in the specific transmitting node 1100 through this process, it can be flexibly coped with.

Each of the transmission nodes 1100 further includes a message transmission amount determination unit 1170. The message transmission amount determination unit 1170 calculates the message transmission amount based on the type of the message transmitted to the terminal device 300 in units of 24 hours and the number of the transmitted message according to the type. When the size of the short message is a byte, the size of the long message is b byte, and the size of the multimedia message is c bytes, the short message sent by the specific transmitting node 1100 is d, the long message is e, f. At this time, the amount of message transmission transmitted by the specific transmitting node 1100 is a * d + b * e + c * f.

The transmission amount determination unit transmits the calculated message transmission amount to the other transmission node 1100. The transmitting nodes 1100 share the amount of message transmission.

Each of the transmitting nodes 1100 includes a node number assigning unit 1180. The node number assigning unit 1180 determines the node number of the transmitting node 1100 based on the node number determining factor. The node number determination factor includes a message transmission amount. When the node number determination factor includes only the message transmission amount, the node number assignment unit 1180 determines the node number in the order of smaller message transmission amount.

The transmitting nodes 1100 share the amount of message transmission. The node number assigning unit 1180 assigns the node number assigned to the transmitting node 1100, which has a larger message transmission amount, as the transmitting node 1100 whose message transmission amount for the 24-hour period is smaller.

Referring to the table, the message transmission amount is small in order of the transmission node 1100 2, the transmission node 1100 1, and the transmission node 1100 3. On the contrary, the message transmission amount is large in order of the transmitting node 1100 3, the transmitting node 1100 1, and the transmitting node 1100 2. The node number assigning unit 1180 included in the transmitting node 1100 2 assigns 3 to the node number of the transmitting node 1100 2. That is, the transmission node 1100 having a smaller message transmission amount can be given the node number of the transmission node 1100 having a larger message transmission amount, and the load difference can be reduced for each transmission node 1100.

In addition, the node number assigning unit 1180 does not assign the node number to the transmitting node 1100 when the number of times that the transmitting node 1100 including itself has transitioned from the active state to the inactive state for 24 hours is equal to or greater than the reference value. The reference value is 120% of the average of the number of times of transition from the active state to the inactive state for all transmitting nodes 1100. That is, if the average number of times of transition from the active state to the inactive state with respect to all of the transmitting nodes 1100 is 10, the reference value is 12. If the number of times that the specific transmitting node 1100 transitions to the inactive state is large, another transmitting node 1100 should transmit the message of the specific transmitting node 1100 instead. There is a problem that the load of the other transmitting node 1100 increases accordingly. In order to prevent such a problem, it is necessary to prevent the transmitting node 1100, which has a large number of times of transition to the inactive state, from performing message transmission itself without allocating a node number. The fact that the node number is not assigned means that the message extracting unit 1110 does not extract the message.

In addition, the node number assigning unit 1180 does not assign the node number to the transmitting node 1100 when the time when the transmitting node 1100 including the transmitting node 1100 is inactive for 24 hours is longer than the reference time. The reference time is 120% of the inactivity time for all transmitting nodes 1100. If the time period during which the specific transmitting node 1100 is in the inactive state is long, another transmitting node 1100 should transmit the message of the specific transmitting node 1100 instead. There is a problem that the load of the other transmitting node 1100 increases accordingly. In order to prevent such a problem, it is necessary to not allocate a node number to the transmitting node 1100, which is long in the inactive state, and to prevent the message transmission itself from being performed.

The transmission result receiving unit 1130 receives the transmission result of the message transmitted from the terminal device 300, and the transmission result includes the satisfaction information and the dissatisfaction information. The satisfaction information is, for example, information that the received message has a good feeling. Dissatisfied information is, for example, information that the received message has bad feelings. The terminal device 300 can select satisfactory or unsatisfactory information for the message displayed on the display. When the terminal device 300 selects satisfaction information, the transmission result receiving unit 1130 receives the transmission result including the satisfaction information. When the terminal device 300 selects unsatisfactory information, the transmission result receiving unit 1130 receives the transmission result including the unsatisfactory information.

The transmitting node 1100 further includes an excellent vendor selection unit 1190. Best-in-class companies (1190) select best-in-class companies based on cumulative satisfaction information for a predetermined period of time. The best vendor (1190) compares the cumulative satisfaction information for each message and selects the best vendor as the vendor that provided the message with the most satisfaction information.

An excellent vendor 1190 may select an excellent vendor based on cumulative satisfaction information and unsatisfactory information during a predetermined period. The best vendor selection section 1190 compares the number of cumulative satisfactory information counts for each message minus the cumulative number of dissatisfied information counts, and selects the best vendor that generated the message corresponding to the largest number. The above-described method can select a good company reasonably by reflecting both the good evaluation and the bad evaluation.

The best vendor selection section 1190 compares the numbers obtained by subtracting the cumulative satisfactory information count from the cumulative satisfactory information count for each message, and selects a vendor that generated the message corresponding to the largest value as the best vendor. If the number of dissatisfied information of the generated message is the highest among the messages generated for each company, it is excluded from the excellent company. The above-mentioned method can select a superior company that satisfies companies by excluding a company that generated a message whose evaluation is clearly marked.

In one embodiment, the transmission result receiving unit 1130 receives satisfaction information about each message received by the terminal apparatus 300 from the terminal apparatus 300, and receives at most two satisfaction information for each message . The terminal device 300 can award a maximum of two pieces of satisfaction information for a message that desires a good evaluation. The transmission result receiving unit 1130 receives unsatisfactory information on each message received by the terminal apparatus 300 from the terminal apparatus 300 and receives up to two pieces of unsatisfactory information on a message-by-message basis. The terminal device 300 can award a maximum of two pieces of dissatisfied information to a message that wants to give a bad evaluation.

In an exemplary embodiment, the excellent vendor selection unit 1190 selects an excellent vendor based on the accumulated transmission results for a predetermined period of a week. The predetermined period is not limited to one week but includes two weeks, three weeks and four weeks.

In an exemplary embodiment, the excellent vendor selection unit 1190 selects superior vendors based on at least one of age, sex, and message type based on accumulated transmission results for a predetermined period of time.

The good vendor 1190 selects the best vendors based on at least one of the age, sex, and message types based on the accumulated transmission results for a predetermined period of time. Age groups include teenagers, 20s, 30s, 40s, 50s, and 60s. That is, the age group of the owner of the terminal device 300 is classified, and the satisfaction and dissatisfaction conditions are different according to each age group, and therefore, an excellent company is selected for each age group. Through this, it is possible to select more excellent companies.

Sex includes male and female. The winner can be selected more objectively by distinguishing men and women. The message type includes a short message, a long message, and a multimedia message. By distinguishing the message types, it is possible to select the best companies more objectively.

The excellent vendor selection unit 1190 selects the best vendor 1190 based on the transmission result accumulated for a predetermined period of time, , And selects an excellent company that has won the most items at the same time as a final good company.

The excellent vendor selection unit 1190 selects the best vendor 1190 based on the transmission result accumulated for a predetermined period of time, And selecting the best company as the final good company by reflecting the contribution rate for each item. One point is awarded to excellent companies by item, multiplied by 1.5 in the case of teenagers and 40s, multiplied by 1.7 in 50s, multiplied by 2 in 60s, and selecting the best company with the highest score . You can choose a more reasonable company by giving you an advantage over a certain age range.

In one embodiment, the excellent vendor selection unit 1190 selects an excellent vendor based on the accumulated transmission results for a predetermined period of time, and selects an excellent vendor excluding the superior vendors winning a predetermined number of times or more . Winning means being selected as an excellent company. The predetermined number of times is three, for example. By preventing only a specific company from being selected as an excellent company, many companies can use the message multiplex transmission system.

As a result, the message multiplex transmission system receives feedback on the message from the owner of the terminal device 300, and transmits the feedback result to the vendor, in addition to transmitting the message requested by the vendor to the terminal device 300. Accordingly, when generating a message, the vendor can provide a message tailored to the owner of the terminal 300 considering the feedback result.

The excellent vendor selection unit 1190 selects a VIP company based on the message transmission amount calculated by the message transmission amount determination unit 1170. If a company that received good feedback from the terminal device 300 is an excellent company, the VIP company uses a message multiplex transmission system. The excellent vendor selection unit 1190 assigns 1 to 10 points to each vendor based on the message transmission amount. 10 points within the top 10 percent, 9 points within the top 20 percent, 8 points above the top 20 percent, 7 points within the top 30 percent, 7 top 40 percent, 6 points within the top 50 percent, 5 points within the top 50 percent, 4 points above the top 60 percent, 4 top within the top 70 percent, 3 points above the top 80 percent, top 80 percent top Two points within 90 percent, one point within the top 90 percent and within the top 100 percent.

The excellent vendor selection unit 1190 assigns 1 to 10 points to each vendor based on the number of telephone numbers to which the message is to be transmitted.

10 points within the top 10 percent, 9 points within the top 20 percent, 8 points above the top 20 percent, 8 points above the top 30 percent, top 40 percent above the top 30 percent 7 points above the top 40 percent, 6 points above the top 50 percent, 5 points above the top 50 percent, 5 points above the top 60 percent, 4 points above the top 70 percent, 3 top within the top 80 percent , 2 points within the top 90 percent above the top 80 percent, 1 point above the top 90 percent and within the top 100 percent.

Finally, the excellent vendor selection unit 1190 calculates a first value obtained by multiplying the score based on the message transmission amount by 1.2. Then, the second value obtained by multiplying the score based on the number of telephone numbers to which the message is to be transmitted by 0.9 is calculated. Then, a third value obtained by adding the first value and the second value is calculated. The third largest value is selected as the VIP company.

The large amount of message transmission means that the system uses a lot of message transmission system and it gives many points. And the amount of message transmission is multiplied by the contribution rate of 1.2, which is the amount of the message that has been requested so far. Further, when a message is transmitted to many terminal devices 300 rather than to a small number of terminal devices 300, a higher score is given. This is because the holder of the terminal device 300 can be a company that requests a message transmission at any time. However, since the amount of messages requested is not so large, multiply the contribution rate by 0.9.

The message transmission unit 1120 indicates that the company is an excellent company or a VIP company and transmits the message to the terminal device 300 when transmitting a message requested by a company selected as an excellent company or a VIP company. The owner of the terminal device 300 can easily recognize that the company sending the message is different from other general companies.

The transmission result receiving unit 1130 receives the transmission result, and the transmission result further includes the facial expression information of the user of the terminal device 300. When the user of the terminal device 300 permits, the terminal device 300 can photograph the user's face at the time of reading the message received by the user. The transmission result receiving unit 1130 receives the facial expression information, which is the face image of the user photographed at the time of reading the message received by the user. The terminal device 300 may include a camera module to take a picture of the user's face at the time the user reads the message. The point at which the message is read is the point at which the user has selected the message received to read the message. The selection is, for example, to touch a message output on the display with a body such as a finger. The user can enter satisfaction information formally, unlike the real inmars. That is, the transmission result receiving unit 1130 receives the facial expression information at the time of reading the message separately from the satisfaction information and the unsatisfactory information input by the user. The excellent company selection section 1190 classifies the received facial expression information into laughter information, normal information, and South Korean information on the basis of the received facial information. It is obvious that the excellent company selection section 1190 can classify the facial expression information into laughter information, normal information, and angry information through the known facial recognition algorithm.

The best vendor selection section 1190 compares the accumulated number of laugh information counts per message with the numbers obtained by subtracting the accumulated information counts, and selects a company that generated the message corresponding to the greatest number as a practically excellent vendor, If the number of information items of the message generated by the excellent company is the highest among the messages generated for each company, it is excluded from the substantial excellent business.

The best company is selected through satisfaction information and dissatisfied information consciously selected by the user, but the actual superior company is selected again through the user's actual expression information such as laughing information and southern information. By selecting the actual best vendor once again through the expressions that appear in the user's mind, it is possible to provide more objective and reliable feedback to the vendor.

The transmission result reception unit measures the time at which the transmission result is received from the transmission time of the transmitted message.

The transmitting node further includes a warning message generating unit 1200.

If the transmission result is not received within one hour after the transmission of the transmitted message, the alert message generator 1200 transmits a light emission command to the terminal device so as to output green light on the display of the terminal device of the administrator. The terminal device of the manager is not shown in Fig. 1 but is a terminal device carried by the manager of the message multiplex transmission system. It is obvious that the terminal device of the manager communicates wiredly or wirelessly with the transmitting node.

If the transmission result is not received within one hour and two hours after the transmission of the transmitted message, the warning message generator 1200 transmits a light emission command to the terminal device so as to output yellow light from the display of the terminal device of the administrator.

If the transmission result is not received within 3 hours after the transmission time of the transmitted message, the alert message generator 1200 transmits a light emission command to the terminal device so as to output orange light from the display of the terminal device of the administrator.

If the transmission result is not received within 4 hours after the transmission time of the transmitted message, the warning message generation unit 1200 transmits a light emission command to the terminal device so as to output red light from the display of the terminal device of the administrator.

The warning message generator 1200 outputs a color light of high visibility from the terminal device of the manager as the time when the transmission result is not received from the transmission time of the transmitted message becomes longer, It can be easily recognized that the owner is in such a serious situation that the terminal apparatus can not be handled. In addition, since the warning message generation unit 1200 divides into four situations according to passage of time, the administrator can easily recognize the elapsed time according to the color output from the terminal device.

That is, the message multiplex transmission system does not just transmit a message requested by a vendor, but can also determine the status of the owner of the terminal receiving the message. Multiplexing systems create opportunities for early rescue of owners who may be at greater risk.

The present invention is not limited to the above-described embodiment and the accompanying drawings, but is intended to be limited by the appended claims. It will be apparent to those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. something to do.

100: Server device
200: Message database
300: terminal device
1100: transmitting node
1110:
1120:
1130: transmission result receiver
1140: message analysis section
1150: Status information transmission unit
1160: Status information reception confirmation unit
1170: message transmission amount determination unit
1180: node number assigning unit
1190: Excellent company selection
1200: Warning message generating unit

Claims (2)

A plurality of transmitting nodes for transmitting a message stored in a message database to a terminal device,
Each of the transmitting nodes to which a node number is assigned
A message extractor for extracting a message to be transmitted from the message database;
A message transmission unit for transmitting the extracted transmission subject message to a terminal device;
A transmission result receiver for receiving a transmission result for the transmitted message; And
And a message analyzer for analyzing the transmitted message,

The message is stored in a message database matching a telephone number of a terminal device to be transmitted,

The message extracting unit extracts,
And extracts a message matched with the telephone number as a transmission subject message when the value obtained by adding 1 to the remaining number and the node number coincide with each other, ,

The message analyzing unit,
Wherein the time unit is 5 minutes, 1 hour, 1 day, and the message type includes a short message, a long message, and a multimedia message,
Each of the transmitting nodes
A state information transmission unit for transmitting state information to a next transmitting node that is a transmitting node to which a node number equal to a value obtained by adding 1 to the remaining node number divided by the number of transmitting nodes; And
A status information reception confirmation unit for sending status information reception confirmation information to a previous transmission node that has transmitted status information to itself;
Further comprising:

The state information includes an active state and an inactive state, and the state information transmission unit periodically transmits the state information to the next transmitting node. When the state information changes, state information at the time point is transmitted to the next transmitting node ,

The message extracting unit extracts,
And calculating a remainder obtained by dividing the telephone number by the number of transmission nodes when state information received from the previous transmission node is in an inactive state, and when the value obtained by adding 2 to the remaining number and the node number coincide with each other, And extracts the matched message as a transmission target message,

The message extractor
Calculating a remainder obtained by dividing the telephone number by the number of transmission nodes when the state information received from the previous transmission node is in an activated state and if the value obtained by adding 2 to the remaining number and the node number coincide with each other, And does not extract the matched message as a transmission destination message,
Message multiplex transmission system.






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