KR20130109410A - Method and apparatus for controlling push notification message transmit cycle in push notification services by communication system - Google Patents

Abstract

PURPOSE: A method for controlling push alerting message transmission period of push alerting service through a communication system is provided to adjust the push alerting message transmitted according to a fixed transmission period variably according to network state and surrounding environment and then to transmit the message. CONSTITUTION: A response time measurement module (120) measures the time required to receive a response message from a corresponding communication terminal. A slot period setting module (130) sets "1/response time" as a slot period by using the time measured in the response time measurement module as response time. A period difference calculation module (140) calculates the period difference between the slot period set in the slot period setting module and the transmission period of the push alerting message. When the period difference calculated in the period difference calculation module exceeds a reference time T, a transmission period re-set module (150) resets the transmission period of the push alerting message. [Reference numerals] (110) Module for processing a push notification message; (120) Response time measurement module; (130) Slot period setting module; (140) Period difference calculation module; (150) Transmission period re-set module; (AA) Transmit a message; (BB) Receive a response; (CC) Set reference time; (DD) Set the time for determining a re-set; (EE) Calculate period difference distribution; (FF) Set a transmitting period

Description

Method and apparatus for controlling push notification message transmit cycle in push notification services by communication system

The present invention relates to a push notification message service provided in a communication system, and more particularly, to a push notification message transmission cycle control technology among push notification message services.

With the recent rapid development of electronic engineering and communication engineering, user terminals (PC, smart phones, mobile phones, laptops, etc.) in which communication is applied also have various functions. That is, with the rapid development of wired / wireless communication and data processing technology, people can use not only voice calls but also Internet access, video communication, and video message transmission using a communication terminal. In addition, due to the rapid dissemination of communication terminals, communication terminals are becoming an essential communication means in modern life, such as a considerable amount of communication occurring in human relationships through communication terminals.

As communication services including mobile communication have become popular and the spread of mobile communication terminals has increased, developments are being made to include various functions and improve performances in mobile communication terminals and existing user terminals. Recently, a smartphone, a mobile phone having various functions and performances, has been developed, and many users purchase and use the smartphone. Recently, users use various contents through the smart phone, and the various contents are installed and driven on the user terminal in the form of an application (or 'app') and are provided to the users.

These various applications are installed in the user terminal to provide a variety of services, there is a push notification message service that occupies a very important part of the service through the application. This push notification message service is also called a "Push Notification" service, and is a service in which a push notification service provider forcibly transmits predetermined information in a message form without a request of a user terminal. Through this, the service providing side through the application can forcibly transmit information to the application installed in the user terminal, thereby providing various services through the application.

In the conventional push notification message service, the push notification message is transmitted every 3 to 5 seconds to increase the completion rate of the application of the user terminal. That is, the focus is on only allowing the push notification message to be correctly transmitted to the corresponding terminal on time, and does not consider the network load due to network conditions or user congestion.

Therefore, in view of the recent explosive increase in mobile services, there is a demand for a method for predicting network load according to a push notification message service and preventing a service failure due to a load in advance.

The present invention has been made to solve the above problems, the push notification message transmitted in accordance with the fixed transmission period in the push notification message service provided to the user communication terminal, variable transmission period in accordance with the network status and the surrounding environment The purpose of the present invention is to provide a push notification service flexibly even in the event of a network failure or abnormality.

Other objects and advantages of the invention will be described below and will be appreciated by the embodiments of the invention. Further, objects and advantages of the present invention can be realized by the means and the combination shown in the appended claims.

In order to achieve the above object, the push notification message transmission period adjustment method of the push notification service through the communication system according to the present invention, the transmission of the push notification message transmitted to the communication terminal when providing the push notification message service through the communication system A method of adjusting a period, the method comprising: (a) measuring a time required for receiving a response message from a corresponding communication terminal after transmitting a push notification message to a communication terminal provided with a service in a push notification service system; (b) setting the measured time as a response time and setting "1 / response time" as a slot period; And (c) resetting the push notification message transmission period when the period difference between the set slot period and the push notification message transmission period exceeds a predetermined reference time T seconds.

According to another aspect of the present invention, an apparatus for adjusting a transmission period of a push notification message transmitted to a communication terminal when providing a push notification message service through a communication system, the push notification message to a communication terminal receiving a service from a push notification service system A response time measuring module for measuring a time required to receive a response message from the corresponding communication terminal after transmission; A slot period setting module for setting a time measured by the response time measuring module as a response time and setting "1 / response time" to a slot period; A period difference calculation module for calculating a period difference between a slot period set in the slot period setting module and a push notification message transmission period; And a transmission period resetting module for resetting the push notification message transmission period when the period difference calculated by the periodic calculation module exceeds a predetermined reference time T seconds. Periodic control device is provided.

According to another aspect of the present invention, a recording medium mounted on the push notification message service system provided through the communication system, the program for adjusting the transmission period of the push notification message transmitted to the communication terminal is recorded, the push notification service system The procedure for measuring the time taken to receive a response message from the communication terminal after transmitting the push notification message to the communication terminal receiving the service, and the measured time as the response time, "1 / response time" slot A program that executes a procedure for setting a cycle and a procedure for resetting the push notification message transmission cycle when the predetermined time interval T seconds is exceeded by calculating a cycle difference between the set slot cycle and the push notification message transmission cycle. Possible recording media are provided.

According to the present invention, the push notification message transmission cycle is variably adjusted according to the network state and the surrounding environment at the time of the push notification service, which leads to the depletion of wireless network resources and the terminal power consumption that occurred during the existing fixed push notification service. It can flexibly cope with the problem of resource depletion and can effectively control the transmission cycle to prevent unnecessary network resource waste.

BRIEF DESCRIPTION OF THE DRAWINGS The accompanying drawings, which are incorporated in and constitute a part of the specification, illustrate preferred embodiments of the invention and, together with the description of the invention below, And should not be construed as limiting.
1 is a diagram illustrating a configuration of a communication system implementing a method for adjusting a push notification message transmission period of a push notification service according to an embodiment of the present invention.
2 is a diagram illustrating a configuration of an apparatus for adjusting a push notification message transmission period of a push notification service through a communication system according to an exemplary embodiment of the present invention.
3 is a flowchart illustrating a method of adjusting a push notification message transmission period of a push notification service through a communication system according to an embodiment of the present invention.
4 is a diagram illustrating a procedure of a transmission cycle resetting process in a push notification message transmission cycle adjusting method of a push notification service according to an embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. Prior to this, terms and words used in the present specification and claims should not be construed as limited to ordinary or dictionary terms, and the inventor should appropriately interpret the concepts of the terms appropriately It should be interpreted in accordance with the meaning and concept consistent with the technical idea of the present invention based on the principle that it can be defined. Therefore, the embodiments described in this specification and the configurations shown in the drawings are merely the most preferred embodiments of the present invention and do not represent all the technical ideas of the present invention. Therefore, It is to be understood that equivalents and modifications are possible.

1 is a diagram illustrating a configuration of a communication system implementing a method for adjusting a push notification message transmission period of a push notification service according to an embodiment of the present invention.

Referring to FIG. 1, a communication system according to the present invention includes a communication terminal 200 provided with a communication service or a mobile communication service, a communication network for providing a communication service or a mobile communication service to the communication terminal 200, and the communication network. It includes a push notification service server 100 for providing a push notification service to the communication terminal 200 through.

The communication terminal 200 is a terminal device for accessing various service servers through a communication network to use services and contents for the terminal user. The communication terminal 200 may include a mobile phone, a PDA, a smart phone, a tablet PC, a notebook computer, a PC, and the like. The communication terminal 200 is provided with means for receiving and using a push notification message service. That is, when a push notification message is received through the communication network, a response message according to the message reception is transmitted to the push notification service server 100, and an operation of a related application is performed using the received push notification message. In general, a push notification message service is used by an application installed in a communication terminal.

In this case, after receiving the push notification message, the communication terminal 200 takes a predetermined time to transmit a response message. That is, the communication terminal 200 transmits a response message immediately after receiving the message, but it takes time for the response message to be delivered to the push notification service server 100 according to the state of the communication network, the state of the terminal, and the surrounding environmental factors.

The push notification service server 100 performs a role of transmitting a push notification message to a communication terminal 200 using a service through a communication network in association with a communication system. The push notification service server 100 transmits the push notification message according to a predetermined message transmission period when transmitting the push notification message to the communication terminal 200. The push notification service server 100 according to the present invention measures the time when receiving a response message according to the push notification message transmitted to the communication terminal 200, and transmits to the communication terminal 200 according to the response time Variablely adjust the transmission period of the push notification message. In this way, by adjusting the transmission period of the push notification message according to the response time, it is possible to efficiently provide the push notification service according to the network state, the terminal state and the environmental factors.

A more detailed configuration of the push notification service server 100 will be described later through additional drawings.

2 is a diagram illustrating a configuration of an apparatus for adjusting a push notification message transmission period of a push notification service through a communication system according to an exemplary embodiment of the present invention.

2, the push notification message transmission period adjusting apparatus 100 according to the present invention is a push notification message processing module 110 for transmitting a push notification message to the communication terminal and receiving a response, it takes to receive a response after the message transmission Response time measurement module 120 for measuring the time being, the slot cycle setting module 130 for setting the slot cycle through the response time, the cycle difference calculation module 140 for calculating the cycle difference through the slot cycle and the transmission cycle, Transmission period reset module 150 for resetting the push notification message transmission period according to the periodic difference.

The push notification message processing module 110 transmits a push notification message to communication terminals 200 using a push notification service according to a transmission period set through a communication network, and receives a response message from the communication terminal 200. Play a role. The push notification message processing module 110 transmits a message according to a set push notification message transmission period. The message transmission period is continuously reset and optimized through the transmission period reset module 150 which will be described later.

The response time measuring module 120 measures a time required to receive a response message after transmitting the push notification message. That is, by measuring the time of transmitting the push notification message and the time of receiving the response to the push notification message from the communication terminal through the push notification message processing module 110, the time required from the message transmission to the response is measured. . Expressed as a formula, "Ack time = | Push notification message transmission time-response reception time |" . For example, if a message is sent in 32.6 seconds and a response is received in 34.8 seconds, the response time may be measured as "| 32.6-34.8 | = 2.2" seconds.

The slot period setting module 130 expresses and sets the measured response time in the form of a slot period. That is, the response time measured by the response time measurement module 120 is set as the denominator and the numerator is expressed as 1 to set the slot period. If this is expressed as an expression, it may be expressed as "Slot Period (SLP) = 1 / Response time". For example, when the measured response time is 2.2 seconds, the slot period may be set to "1 / 2.2 = 0.45455".

In this case, if the set slot period is shortened, it may be understood that the response time is delayed, and the slot period may be compared with the actual push notification message transmission period.

The periodic difference calculation module 140 calculates a periodic difference between a slot period and a push notification message transmission period. That is, the difference between the slot period set in the slot period setting module 130 and the push notification message transmission period is calculated. This may be expressed as an equation, and may be expressed as "period gap (D) = | slot period-push transmission period |".

Looking at the distribution of the calculated periodic difference, the difference between the push notification period can be determined by the level at which the difference occurs, and the degree of difference can be adjusted for the push notification period.

The transmission period reset module 150 performs a reset process to efficiently adjust the push notification message transmission period in consideration of network resources and environmental factors. The transmission period resetting module 150 resets and optimizes the transmission period based on the period difference generated as feedback according to the set transmission period. To this end, the transmission period reset module 150 sets a reference time that is a reference for determining a periodic difference, sets a reset determination time for determining whether to reset, and distributes the periodic difference through the set reference time and the reset determination time. And calculates the optimized transmission period based on the calculated periodic difference distribution.

First, in one embodiment, the transmission period reset module 150 determines whether the period difference calculated by the period difference calculation module 140 exceeds a predetermined reference time T seconds, and sets a push notification when the time difference exceeds T seconds. Process to reset the message transmission cycle. As a result, when the period difference according to the set push notification transmission period exceeds a predetermined T seconds, it is determined that a transmission delay and a failure have occurred, and the control processing is performed to automatically solve the transmission delay and a failure by resetting the transmission period. Here, an optimal value may be selected for the predetermined reference time T seconds by the system operator and the network manager.

In addition, a method of determining an optimal transmission period according to the reset process will be described. The transmission period reset module 150 aggregates the number of cycles exceeding the predetermined reference time T seconds among the total number of cycles calculated by the cycle calculation module 140 during a predetermined reset determination time, The push notification transmission period is reset so that the distribution of the number of cases exceeding the second is less than or equal to the predetermined ratio. Here, the reset determination time may be set to 5 minutes, for example. That is, the transmission period is reset so that the ratio of the number of cases exceeding T seconds out of the total number of periodic differences generated or calculated for 5 minutes is less than or equal to the reference ratio.

In more detail, an embodiment of the push notification message transmission period reset processing in the transmission period reset module 150 will be described.

First, if the nth slot period is defined as "SLP [n]" and the nth push notification message transmission period is defined as "BLP [C]", the nth period D is defined as "| SLP [n]- BLP [C] | " In the case of α period, "(β × 60 sec) / α" D values are calculated based on the β minute, and expressed as "√D × √D" matrices, and the corresponding values are expressed in each matrix. After mapping, if the state of the D value is 95% close to the value of "BLP [C]", it is expressed as "1" and vice versa as "0", so that the ratio of "0" to the distribution of the matrix is high. "Adjust the value to adjust the push notification message transmission period.

At this time, the adjustment of the "C" value is preferably adjusted so that the ratio of "0" to the distribution of the matrix is 90% or more.

This example is only an embodiment of the present invention, and the present invention is not limited thereto, and the matrix distribution and ratio can be managed by taking optimal values under the judgment of the operator and the administrator.

In this way, the reset push notification transmission period is inserted into the push notification information to share the status information, and can be set in the system so that the above "C" value can be determined after storing in the database to maintain the optimal level. .

3 is a flowchart illustrating a method of adjusting a push notification message transmission period of a push notification service through a communication system according to an embodiment of the present invention.

Referring to Figure 3, it will be described in the push notification message transmission period adjustment method according to the present invention.

First, as shown in the figure, the push notification service server is a procedure for transmitting a push notification message to the communication terminal. At this time, the push notification message is transmitted according to the set push notification transmission period. That is, when the transmission period is set to 3 seconds, after 3 seconds, the push notification message is transmitted. In other words, it always checks the set transmission period and transmits a push notification message according to the latest transmission period value (S10).

When the push notification message is transmitted, the communication terminal receiving the push notification message transmits a response message according to the reception of the push notification message, and the push notification service server receives the response message. The push notification service server may confirm that the push notification message is correctly transmitted after receiving the response message after transmitting the push notification message.

When the push notification service server receives the response after transmitting the push notification message, the push notification service server performs a process of calculating the time required for the response. That is, by measuring the transmission time of the push notification message and the response receiving time, the time required by measuring the difference between the two times is measured.

When the response time is measured, the process of setting the slot period is performed. At this time, the slot period is set according to the equation of "1 / response time" using the measured response time.

Next, when the slot period is set, the push notification service server performs a procedure of calculating a cycle difference with the push notification transmission period using the slot period. In this case, a difference between the set slot period and the push notification transmission period is calculated.

In this way, after calculating the periodic difference, a procedure for determining whether the calculated periodic difference exceeds a predetermined reference time T seconds is performed. In this case, the set reference time T seconds may be set to an optimal time by the system operator or the network manager.

In this manner, when it is determined that the periodic difference exceeds the reference time T seconds, the procedure of resetting the push notification transmission period is performed. That is, it is determined that there is a problem with the network, the system or the surrounding environment, and proceeds with the push notification transmission cycle reset processing to cope with this (S65).

On the other hand, if it is determined that the period difference does not exceed the reference time T seconds, the transmission period resetting process is not performed, and a procedure of checking the already set push notification transmission period is performed. Further, even after the transmission period resetting process is performed, a procedure for checking the reset transmission period is performed.

The push alarm service server checks the transmission period and performs a procedure of determining whether the transmission period has arrived according to the confirmed transmission period. That is, if the transmission cycle is checked, and if the transmission cycle has not arrived by checking whether the transmission cycle has arrived, the processor continuously waits until the transmission cycle arrives, and when the confirmed transmission cycle arrives, the push notification of step S10 The procedure proceeds to the transmission of the message (S80).

Through this procedure, if the periodic difference does not exceed the set T seconds, the push notification message is repeatedly transmitted according to the already set transmission period. If the periodic difference exceeds the T seconds, the push notification transmission period is reset and then processed. The push notification message is transmitted according to the reset transmission cycle.

In the transmission period adjusting method described with reference to FIG. 3, a more detailed example of the transmission period resetting process performed in steps S60 and S65 will be described.

4 is a diagram illustrating a procedure of a transmission cycle resetting process in a push notification message transmission cycle adjusting method of a push notification service according to an embodiment of the present invention.

Referring to FIG. 4, during a predetermined reset determination time, a procedure of counting the periodic differences calculated through the periodic difference calculation procedure of S50 in FIG. 3 is performed. For example, when the reset determination time is set to 5 minutes, a procedure of counting all the periodic differences calculated for 5 minutes is performed.

Next, the number of periodic trains exceeding the reference time T seconds among the total periodic train calculations counted during the reset determination time is determined. Proceed to check if the formation (S2).

After confirming the distribution, a procedure of resetting the push notification transmission period is performed such that the distribution ratio of the number of cases exceeding T seconds is less than or equal to a predetermined value.

In a more specific example, the periodic difference calculation procedure may define nth slot period as "SLP [n]" and nth push notification message transmission period as "BLP [C]". Period (D) is "| SLP [n]-BLP [C] |" In the case of α period, "(β × 60 sec) / α" D values are calculated based on the β minute, and expressed as "√D × √D" matrices, and the corresponding values are expressed in each matrix. After mapping, if the state of the D value is 95% close to the value of "BLP [C]", it is expressed as "1" and vice versa as "0", so that the ratio of "0" to the distribution of the matrix is high. "Adjust the value to adjust the frequency of sending push notification messages. Preferably, the push notification transmission period resetting process is performed by adjusting the value of "C" so that the ratio of "0" to the distribution of the matrix is 90% or more.

Through the above procedure, the push notification message transmission cycle is variably adjusted according to the network state and the surrounding environment at the time of the push notification service, so that the exhaustion of the wireless network resources and the terminal power consumption occurred during the fixed push notification service. The present invention can flexibly cope with the serious resource depletion problem leading to the present invention, and the present invention can provide an effect of preventing unnecessary waste of network resources by efficiently adjusting the transmission period.

The method of the present invention as described above may be embodied as a program and stored in a computer-readable recording medium (such as a CD-ROM, a RAM, a ROM, a floppy disk, a hard disk, or a magneto-optical disk).

While the specification contains many features, such features should not be construed as limiting the scope of the invention or the scope of the claims. In addition, the features described in the individual embodiments herein may be combined and implemented in a single embodiment. Conversely, various features described herein in a single embodiment may be implemented in various embodiments individually or in a suitable subcombination.

It is to be understood that, although the operations have been described in a particular order in the figures, it should be understood that such operations are performed in a particular order as shown, or that a series of sequential orders, or all described operations, . In some circumstances, multitasking and parallel processing may be advantageous. It should also be understood that the division of various system components in the above embodiments does not require such distinction in all embodiments. The above-described program components and systems can generally be implemented as a single software product or as a package in multiple software products.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention. The present invention is not limited to the drawings.

100: push notification service server
200: communication terminal

Claims (13)

A method of adjusting a transmission period of a push notification message transmitted to a communication terminal when providing a push notification message service through a communication system,
(a) measuring a time required to receive a response message from a corresponding communication terminal after transmitting a push notification message to a communication terminal receiving a service in a push notification service system;
(b) setting the measured time as a response time and setting "1 / response time" as a slot period; And
(c) resetting the push notification message transmission period when the period difference between the set slot period and the push notification message transmission period exceeds a predetermined reference time T seconds; To control how often push notifications are sent The method of claim 1,
The step (c)
Method for adjusting the push notification message transmission period of the push notification service through the communication system, characterized in that for performing the push notification message transmission cycle resetting process by counting the number of times the period difference exceeds the t seconds during a predetermined reset determination time. . 3. The method of claim 2,
The reset determination time is a push notification message transmission period of the push notification service through the communication system, characterized in that for 5 minutes. 3. The method of claim 2,
The push notification message transmission period,
In the step (c), the push notification message transmission period of the push notification service through the communication system, characterized in that the reset of the total number of periodic calculations calculated during the reset determination time is less than a predetermined ratio How to adjust. 5. The method of claim 4,
If the nth slot period is defined as "SLP [n]" and the nth push notification message transmission period is defined as "BLP [C]", the nth period D is defined as "| SLP [n]-BLP [ C] | " In the case of α period, "(β × 60 sec) / α" D values are calculated based on the β minute, and expressed as "√D × √D" matrices, and the corresponding values are expressed in each matrix. After mapping, if the state of the D value is 95% close to the value of "BLP [C]", it is expressed as "1" and vice versa as "0", so that the ratio of "0" to the distribution of the matrix is high. "Adjusting the value of the push notification message transmission period adjustment method of the push notification service through the communication system, characterized in that for adjusting the transmission period. The method of claim 5, wherein
Adjusting the push notification message transmission period of the push notification service through the communication system, characterized in that for adjusting the value of "C" so that the proportion of '0' occupies more than 90% of the distribution of the matrix. 7. The method according to any one of claims 1 to 6,
Prior to step (a)
(1) transmitting a push notification message to a communication terminal receiving a service from a push notification service system; And
(2) receiving a response message from the communication terminal receiving the push notification message in response to receiving the push notification message transmission cycle adjustment method of the push notification service through a communication system. The method of claim 7, wherein
The step (1)
A push notification message transmission period adjusting method of a push notification service through a communication system, characterized in that for transmitting a message according to a set push notification message transmission cycle. An apparatus for adjusting the transmission period of the push notification message transmitted to the communication terminal when providing a push notification message service through a communication system,
A response time measurement module for measuring a time required to receive a response message from a corresponding communication terminal after transmitting a push notification message to a communication terminal receiving a service from a push notification service system;
A slot period setting module for setting a time measured by the response time measuring module as a response time and setting "1 / response time" to a slot period;
A period difference calculation module for calculating a period difference between a slot period set in the slot period setting module and a push notification message transmission period; And
A transmission period reset module for resetting the push notification message transmission period when the period difference calculated by the periodic calculation module exceeds a predetermined reference time T seconds; a push notification message transmission period of a push notification service through a communication system including a Regulating device. The method of claim 9,
The transmission period reset module,
During a predetermined reset determination time, the push notification message transmission period resetting process so that the distribution of the number of cases exceeding t seconds among the total number of periodic differences calculated by the periodic calculation module becomes less than or equal to a predetermined ratio; Device for adjusting the frequency of sending push notification messages of the push notification service through the system. 11. The method of claim 10,
In the transmission period reset module, the push notification message transmission period reset processing,
If the nth slot period is defined as "SLP [n]" and the nth push notification message transmission period is defined as "BLP [C]", the nth period D is defined as "| SLP [n]-BLP [ C] | " In the case of α period, "(β × 60 sec) / α" D values are calculated based on the β minute, and expressed as "√D × √D" matrices, and the corresponding values are expressed in each matrix. After mapping, if the state of the D value is 95% close to the value of "BLP [C]", it is expressed as "1" and vice versa as "0", so that the ratio of "0" to the distribution of the matrix is high. And a push notification message transmission period adjusting apparatus of a push notification service through a communication system, wherein the push notification message transmission period is adjusted by adjusting a value. The method of claim 11,
Adjusting the push notification message transmission period of the push notification service through the communication system, characterized in that for adjusting the value of "C" so that the proportion of '0' occupies more than 90% to the distribution of the matrix. A recording medium mounted on a push notification message service system provided through a communication system, and configured to control a transmission period of a push notification message transmitted to a communication terminal.
A procedure for measuring a time required to receive a response message from a corresponding communication terminal after transmitting a push notification message to a communication terminal receiving a service from a push notification service system;
Setting the measured time as a response time and setting "1 / response time" as a slot period; and
And a program for executing a procedure for resetting the push notification message transmission period when the period difference between the set slot period and the push notification message transmission period is exceeded by a predetermined reference time T seconds.

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