KR101758127B1 - Realtime contents guide method using realtime contents guide system through qos of mobile application - Google Patents

Abstract

The present invention relates to a mobile; A server for providing an application service to the mobile; A hooking module operating in conjunction with the server and collecting quality measurement data for the server; And analyzing data collected through the mobile, the server, and the hooking module and analysis data on the collected data, measuring communication service quality for the mobile based on the stored data, The present invention relates to a real-time content guide method using a real-time content guide system through a mobile application service quality measurement, and more particularly, to a real-time content guide method using a mobile application service quality measurement, By using the passive monitoring technology of mobile real users, it is possible to measure the quality indicators of all applications used by users in the cloud based on Web / WAS server and to measure the quality of end users, Detect errors and performance degradation Seats, and thus stops the appropriate action service mobile application service that can reflect real-time quality without due: relates to a method using a real-time program guide system with real-time content guide (QOS Quality of service) measurement.

Description

TECHNICAL FIELD [0001] The present invention relates to a real-time content guide method using a real-time content guide system through measurement of a mobile application service quality,

The present invention measures the quality indexes of all applications used by users in a cloud based on a Web / WAS server using a passive monitoring technology of a mobile real user, And mobile application that can detect and analyze cause of application error and performance degradation and reflect appropriate measures in real time without interruption of service Real-time content using real-time content guidance system by measuring quality of service (QOS) Guide method.

Conventionally, in order to measure the quality of service (QOS) of mobile web users, it is necessary to manually inject Javascript for measuring service quality in web contents to collect service quality information for mobile do.

However, the above-described method is accompanied with the inconvenience of having to configure and install JavaScript for each web site.

In addition, in order to solve the error (error) detection of the website, it is necessary to provide the service after closing the website for a certain period of time, and since the provision of the maintenance service is also detected by the user's report, In reality, it is impossible to understand various error (error) messages in real time and take immediate action.

On the other hand, the background art of the present invention can be referred to Registration No. 10-0358721 filed by the applicant of the present invention.

SUMMARY OF THE INVENTION The present invention has been made in view of the above problems, and it is an object of the present invention to provide a hooking module in a server (Web / WAS server) associated with a mobile to measure all quality measurement data related to an application of a mobile operating over the Internet, There is provided a method for real-time content guidance using a real-time content guide system by measuring service quality of a mobile application that can provide real-time guide information of various contexts for a mobile application.

It is another object of the present invention to provide a mobile application service quality measurement method and system capable of realizing the guide information of each situation for the mobile application in real time without any interruption of service, And a method for guiding real-time contents using a guide system.

According to an aspect of the present invention, there is provided a system and method for real-time content guidance through mobile service quality measurement, A server for providing an application service to the mobile; A hooking module operating in conjunction with the server and collecting quality measurement data for the server; And analyzing data collected through the mobile, the server, and the hooking module and analysis data on the collected data, measuring communication service quality for the mobile based on the stored data, And a decision engine for transmitting case-specific guide information on the service to the server.

Here, the quality measurement data may include the first quality measurement data, the first quality measurement data, the second quality measurement data, the second-1 quality measurement data, and the like described in claims 2 and 3 .

In addition, the mobile is provided with a monitoring application for transmitting data related to a failure upon occurrence of a failure of an application executed in the mobile to the decision engine.

Meanwhile, the real-time content guide method using the real-time content guide system through the mobile application service quality measurement may include: a first step of loading the hooking module into the server while the server is running; A second step of collecting, analyzing and storing quality measurement data for the server, which occurs in the process of using the server by the mobile user through the loaded hooking module; A third step of generating guide information for an application requested by a mobile user through information acquired and analyzed through the mobile, the server, and the hooking module; A fourth step of inserting and transmitting a quality measurement script for the mobile to the guide information generated through the hooking module; A fifth step of using the guide information provided through the fourth step using the mobile; A sixth step of transmitting quality measurement data for the mobile to the decision engine through a module inserted in the guide information; And a seventh step of storing and analyzing data transmitted to the decision engine and generating guide information based on the analyzed data.

In this case, the second step includes steps 2-1 and 2-2 described in claim 6.

A first step of loading the hooking module into the server while the server is running; A second step of collecting, analyzing and storing quality measurement data for the server, which occurs in the process of using the server by the mobile user through the loaded hooking module; A third step of generating guide information for an application requested by a mobile user through information acquired and analyzed through the mobile, the server, and the hooking module; A fourth step of inserting and transmitting a quality measurement script for the mobile to the guide information generated through the hooking module; A fifth step of using the guide information provided through the fourth step using the mobile; A sixth step of transmitting quality measurement data for the mobile to the decision engine through a monitoring application for transmitting data related to a failure in the occurrence of a failure of an application executed in the mobile to the decision engine; And a seventh step of storing and analyzing data transmitted to the decision engine and generating guide information based on the analyzed data.

In this case, the second step is characterized by comprising the step (2-3) and the step (2-4) according to claim 8.

As described above, according to the present invention, a hooking module can be installed in a server (Web / WAS server) associated with a mobile to easily measure all quality measurement data related to an application of a mobile operating over the Internet, , The administrator can provide real-time guide information of various contexts for the mobile application.

In addition, the administrator can freely set or change the necessary pages through the use of the decryption engine, and maintenance work of the administrator becomes very easy.

In addition, since the administrator provides the guide information of various contexts for the mobile application in real time as described above, the flow flow is changed without changing the entire site, so that the user can operate efficiently without stopping the service.

In addition, a monitoring application for transmitting data related to a failure at the occurrence of a failure of an application executed in the mobile to the decision engine is provided, thereby easily collecting and analyzing quality measurement data for applications other than the web provided in the mobile Based on this, the administrator can provide real-time guide information for various mobile applications related to the Internet.

FIG. 1 is a conceptual diagram of a real-time content guide system through measurement of a mobile application service quality according to an embodiment of the present invention.
FIG. 2 is a conceptual diagram illustrating a guide information generation process of the decision engine of FIG. 1;
3 is a conceptual diagram of another embodiment of a real-time content guidance system through mobile service quality of service measurement according to the present invention.
FIG. 4 is a conceptual view illustrating a guide information generation process of the decision engine of FIG. 3;
5 is a flowchart illustrating a processing procedure for a web application of a real-time content guide method using a real-time content guide system through measurement of a mobile application service quality according to the present invention;
6 is a flowchart illustrating a processing procedure for a non-web application of a real-time content guide method using a real-time content guide system through measurement of a mobile application service quality according to the present invention.

While the invention is susceptible to various modifications and alternative forms, specific embodiments thereof are shown by way of example in the drawings and will herein be described in detail.

It should be understood, however, that the invention is not intended to be limited to the particular embodiments, but includes all modifications, equivalents, and alternatives falling within the spirit and scope of the invention. Like reference numerals are used for like elements in describing each drawing.

The terms including ordinal, such as second, first, etc., may be used to describe various elements, but the elements are not limited to these terms.

The terms used herein are used only for the purpose of distinguishing one element from another. For example, without departing from the scope of the present invention, the second component may be referred to as a first component, and similarly, the first component may also be referred to as a second component. And / or < / RTI > includes any combination of a plurality of related listed items or any of a plurality of related listed items.

It is to be understood that when an element is referred to as being "connected" or "connected" to another element, it may be directly connected or connected to the other element, . On the other hand, when an element is referred to as being "directly connected" or "directly connected" to another element, it should be understood that there are no other elements in between.

The terminology used in this application is used only to describe a specific embodiment and is not intended to limit the invention. The singular expressions include plural expressions unless the context clearly dictates otherwise. In the present application, the terms "comprises" or "having" and the like are used to specify that there is a feature, a number, a step, an operation, an element, a component or a combination thereof described in the specification, But do not preclude the presence or addition of one or more other features, integers, steps, operations, elements, components, or combinations thereof.

Unless defined otherwise, all terms used herein, including technical or scientific terms, have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. Terms such as those defined in commonly used dictionaries are to be interpreted as having a meaning consistent with the contextual meaning of the related art and are to be interpreted as either ideal or overly formal in the sense of the present application Do not.

Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings.

FIG. 1 is a diagram showing a system configuration and a process according to an embodiment of the present invention when a web application is used using a mobile device, FIG. 2 conceptually shows a process of generating guide information of a decision engine according to FIG. 1, 5 is a diagram illustrating a real-time content guide method using a real-time content guide system through measurement of a mobile application service quality according to FIG.

In order to facilitate understanding of the present invention, a real-time content guide system (at the time of running a web application) and a real-time content guide method using the same will be described with reference to FIGS. 1, 2, Respectively.

The real-time content guidance system through measurement of mobile application quality of service according to the present invention comprises: a mobile (100, mobile user), as shown in FIG. 1; A server 200 for providing a service corresponding to an application selected by the mobile 100; A hooking module (300) operating in conjunction with the server (200) and collecting quality measurement data for the server (200); And analysis data for the collected data and data collected through the mobile 100, the server 200, and the hooking module 300, and stores communication service quality for the mobile 100 on the basis of the stored data And a decision engine (400) for transmitting case-specific guide information about the service requested from the mobile device (100) to the server (200).

The mobile device 100 includes all mobile phones capable of Internet communication. The server 200 separately displays a web server and a web application server (WAS), and a web server and a web application server (WAS) Will include.

The decision engine 400 manages the category related to the Qos quality index.

Also, it manages information on Qos quality index in time series, manages statistical information (avg, max, min, stddev) about Qos quality index, and Rule (guide information) about URL Pattern and Qos quality index Management.

A real-time content guide method using a real-time content guide system (at the time of running a web application) through measurement of a mobile application service quality according to the present invention will be described with reference to FIGS. 1, 2, and 5 as follows.

In Fig. 1, reference numerals are given in accordance with the processing procedures and are described according to the numbers described.

1. When running the Web server / Web Application Server (WAS) and specifying the hooking module 300, the Web / WAS server program is loaded and the hooking module 300 is loaded as shown in the following <Example 1>.

<Example 1>

was.jar (WAS Server), hookagent.jar (Hooking Module)

java -javaagent: D: \ javaagent \ lib \ hookagent.jar -Dhookconf.dir = D: / java5agent / conf -jar was.jar

2. The hooking module 300 reads was.jar when loaded and loads the module by inserting the beforeAction () function at the start of the code function and the afterAction () function at the time of the end of the function in the binary of the module specified in the config file .

The following <Example 2> is an example of a configuration where you want to insert code in all the binaries under the com.infranics package.

<Example 2>

#Contains the configuration for Hooking Agent

package-list = com.infranics. *

package-rule = include

3. The mobile (100, mobile user) accesses the server 200 through the mobile web browser.

4. In the server 200, a server module corresponding to Url (Uniform Resource Locator) accessed from the mobile 100 (mobile user) is executed.

For example, suppose a user accesses the login page of a specific site (www.site.com/login.do), a function called UserLogin (Argument) corresponding to the URL is requested.

Hooking module functions before insertion into code After the hooking module is inserted into the code, UserLogin (Argument arg)
{
Result result;
Result = doLogin (arg);
}
UserLogin (Argument arg)
{
Result result;
Before ();
Result = doLogin (arg);
After ();
}

The hooking module 300 inserts the Before () and After () functions so that all functions of a specific package are executed. The Before () function collects quality measurement data uploaded in the user environment before the function starts.

The quality measurement data collected by the Before () function includes the function start time (requested web page preparation start time) information of the web server 200 requested from the mobile 100, IP address information ), User information (extracting user information from cookie information or URL parameters), URL information (collecting target URL names), browser information (detecting the browser type used by mobile: safari, chrome, etc) And first quality measurement data made up of referrer information (URL before transmission), cookie information (capable of analyzing the pattern of specific information in cookie information), and the like.

5. The After () function is requested after the URL internal function is requested.

In the After () function, the function end time (time required for preparing the requested web page), the web page result value (HTML before change, JSON, XML) according to the user request, guide information (Information generated and transmitted from the decision engine in response to the information requested from the mobile).

6. Referring to FIG. 2, the HTML and Http Error Code (for example, 200: OK, 302: Page Moved, 404: Not Found, 500: Server) And transmits the guide information according to manager definition (management) in the form of matrix (matrix).

7. The guide information is transmitted to the mobile station 100 through the server 200 and the quality measurement script for the mobile station 100 is transmitted and transmitted to the server 200 for transmission.

The bold part of <Example 3> below is the inserted script area.

<Example 3>

<html>< javascript language = "javascript"> monitoring.js </ javascript> <body> · · · <body><html>

8. The quality measurement script inserted in the guide information collects quality measurement data for the mobile (100).

The quality measurement data collected on the mobile is DNS time (time when the user entered site address is converted into IP address, response time, page rendering time), Html rendering time Time).

9. The collected quality measurement data for the mobile 100 is transmitted directly to the decision engine 400. [

10. Although not shown, all the quality measurement data collected through the above-described series of processes are stored in the decision engine 400. Based on the collected data, the manager analyzes the quality measurement data and generates guide information And the generated guide information is provided to the mobile 100 by the WorkFlow as described above.

The above-described WorkFlow will be described with reference to FIG.

A first step S100 of loading the hooking module 300 into the server 200 while the server 200 is running; A second step S200 of collecting, analyzing and storing quality measurement data for the server 200, which occurs in the course of using the server 200 by the mobile user 100 through the loaded hooking module 300; A third step (S300) of generating guide information on an application required by the mobile user (100) through the information acquired and analyzed through the mobile (100), the server (200), and the hooking module (300); A fourth step S400 of inserting and transmitting a quality measurement script for the mobile 100 to the guide information generated through the hooking module 300; A fifth step (S500) of using the guide information provided through the fourth step (S400) using the mobile device (100); A sixth step (S600) of transmitting quality measurement data for the mobile device (100) to the decision engine (400) through a module inserted in the guide information; And a seventh step (S700) of storing and analyzing data transmitted to the decision engine 400 and generating guide information based on the analyzed data.

At this time, the second step (S200) is a step of transmitting the function start time (requested web page preparation start time), the IP address, the user, the URL (Uniform Resource Locator), the browser of the web server 200 requested by the mobile 100, A second step (S210) of collecting operating system, referrer (URL before transmission), and cookie information (Cookie); (Step S220) of collecting the function end time (the requested web page preparation completion time), the web page result value according to the user request, and the guide information of the decision engine 400 according to the user request .

FIG. 3 is a diagram showing a system configuration and an outline process according to the system when using an application using a mobile. FIG. 4 conceptually shows a process of generating guide information of a decision engine according to FIG. 3 is a diagram illustrating a real-time content guide method using a real-time content guide system through a mobile application service quality measurement according to FIG.

To facilitate understanding of the present invention, a real-time content guide system (when an application is running) and a real-time content guide method using the mobile application service quality measurement according to the present invention will be described with reference to FIGS. 3, 4, And omitting parts that can be sufficiently inferred by those skilled in the art through the above description or overlapping with the above description.

3. The mobile (100, mobile user) accesses the server 200 through the mobile application.

4. In the server 200, a server module corresponding to an application Url (Uniform Resource Locator) accessed from the mobile 100 (mobile user) is executed.

The quality measurement data collected by the Before () function includes function start time information (requested application preparation start time) of the application requested from the mobile device 100, IP Address information (identifying the user's country and area), URL information (First application preparation start time), an IP address, and URL (Uniform Resource Locator) information of at least an application function start time among the application program information (the collection of the target URL name for the application) And quality measurement data.

5. The After () function is requested after the URL internal function for the application is requested.

In the After () function, the function end time (requested application preparation completion time), the web page result value (HTML before change, JSON, XML) according to the user request, guide information And information generated and transmitted from the decision engine in response to the information requested from the mobile).

6. Referring to FIG. 4, the decision engine 400 transmits guide information in the form of a matrix manager.

9. A monitoring application is provided for transmitting data related to a failure in the occurrence of a failure of an application executed in the mobile device (100) to the decision engine (400).

The execution of the application may be set to be performed automatically or manually, but it is preferable to configure the pop-up window to indicate to the client whether or not the monitoring application is executed when a failure occurs.

10. The user executes the monitoring application and transmits the collected quality measurement data for mobile directly to the decision engine 400. [

11. Although not shown, all the quality measurement data collected through the above-described series of processes are stored in the decision engine 400. Based on the collected data, the manager analyzes the quality measurement data and generates guide information And the generated guide information is provided to the mobile 100 by the WorkFlow as described above.

The above-described WorkFlow will be described with reference to FIG.

A first step S100 of loading the hooking module 300 into the server 200 while the server 200 is running; A second step S200 of collecting, analyzing and storing quality measurement data for the server 200, which occurs in the course of using the server 200 by the mobile user 100 through the loaded hooking module 300; A third step (S300) of generating guide information on an application required by the mobile user (100) through the information acquired and analyzed through the mobile (100), the server (200), and the hooking module (300); A fourth step S400 of inserting and transmitting a quality measurement script for the mobile 100 to the guide information generated through the hooking module 300; A fifth step (S500) of using the guide information provided through the fourth step (S400) using the mobile device (100); (3) for transmitting quality measurement data for the mobile device (100) to the decryption engine (400) through a monitoring application for transmitting data related to the failure in the failure of the application executed in the mobile device (100) Step 6 (S600); And a seventh step (S700) of storing and analyzing data transmitted to the decision engine 400 and generating guide information based on the analyzed data.

At this time, the second step (S200) includes the function start time information (requested application preparation start time), the IP address information (grasping the country and the area of the user), the URL information (Step S230) of collecting at least the function start time (requested application preparation start time), the IP address, and the URL (Uniform Resource Locator) information among the application version, operating system information, ; And the function end time (requested application preparation completion time), the web page result value (HTML before change, JSON, XML) according to the user request, guide information of the decision engine 400 according to the user request (Step S240) of collecting information (e.g., information generated and transmitted from the decision engine in response to the information).

On the other hand, when the present invention is applied to a credit card,

Shopping mall Web application When a user makes a payment after purchasing a product, the card payment system that is interlocked may not be approved by the card company due to an error of the card company.

At this time, the error message is displayed in the form of an authentication error Error: 9999 approval error message in the system.

When a person in charge (administrator) predicts a recovery expected time of about two hours, he or she registers the screen viewed by the user in the target decryption engine 400 to change the guide information to a page without any separate development (modification) This is possible.

As described above, according to the present invention, an administrator is free to set or modify a necessary page.

Also, when you want to change from a system that does not have business logic development applied to categories (user area, user class [general, VIP], OS, browser) to category services, The service can be provided without stopping the service by changing only the WorkFlow flow through the engine 400, so that the durability of the service can be maintained.

100: mobile 200: server
300: hooking module 400: deciphering engine
S100: first step S200: second step
S210: Step 2-1: Step S220: Step 2-2
S230: Step 2-3: Step S240: Step 2-4
S300: third step S400: fourth step
S500: Sixth step S700: Seventh step

Claims (8)

mobile; A server for providing an application service to the mobile; A hooking module operating in conjunction with the server and collecting quality measurement data for the server; And analyzing data collected through the mobile, the server, and the hooking module and analysis data on the collected data, measuring communication service quality for the mobile based on the stored data, And a decision engine for transmitting case-specific guide information on the service to the server,
Wherein the quality measurement data comprises:
(Requested Web page preparation start time), an IP address, a user, a URL (Uniform Resource Locator), a browser, an operating system, a Referrer (URL before transmission), and a Cookie First quality measurement data; And second quality measurement data composed of a function end time (a requested web page preparation completion time), a web page result value according to a user request, and guide information of the decision engine according to a user request,
In the mobile,
And a monitoring application for transmitting data related to a failure in the occurrence of a failure of an application executed in the mobile to the decision engine. The method of guiding real-time content using the real-time content guide system through measurement of mobile application quality of service As a result,
A first step of loading the hooking module into the server while the server is running;
A second step of collecting, analyzing and storing quality measurement data for the server, which occurs in the process of using the server by the mobile user through the loaded hooking module;
A third step of generating guide information for an application requested by a mobile user through information acquired and analyzed through the mobile, the server, and the hooking module;
A fourth step of inserting and transmitting a quality measurement script for the mobile to the guide information generated through the hooking module;
A fifth step of using the guide information provided through the fourth step using the mobile;
A sixth step of transmitting quality measurement data for the mobile to the decision engine through a module inserted in the guide information; And
And a seventh step of storing and analyzing data transmitted to the decision engine and generating guide information based on the stored data,
The second step comprises:
(Start time of requested web page preparation), an IP address, a user, a URL (Uniform Resource Locator), a browser, an operating system, a referrer (URL before transmission), and a cookie Step 2-1 to collect; And
And a second step of collecting guide information of the decision engine according to a user request, a function end time (a requested completion time of the web page), a web page result value according to a user request, A method of real - time content guidance using real - time content guide system through.
mobile;
A server for providing an application service to the mobile;
A hooking module operating in conjunction with the server and collecting quality measurement data for the server; And
Storing data collected through the mobile, the server, and the hooking module and analysis data on the collected data, measuring communication service quality for the mobile based on the stored data, And a decision engine for transmitting case-specific guide information to the server,
Wherein the quality measurement data comprises:
At least the function start time of the application (requested application preparation start time) of the function start time (requested application preparation start time), IP address, URL (Uniform Resource Locator), application version and operating system information of the requested application from the mobile, IP address, and URL (Uniform Resource Locator) information; And
(2-1) quality measurement data including a function end time (a requested application preparation completion time), an application result value according to a user request, and guide information of the decision engine according to a user request,
In the mobile,
And a monitoring application for transmitting data related to a failure in the occurrence of a failure of an application executed in the mobile to the decision engine. The method of guiding real-time content using the real-time content guide system through measurement of mobile application quality of service As a result,
A first step of loading the hooking module into the server while the server is running;
A second step of collecting, analyzing and storing quality measurement data for the server, which occurs in the process of using the server by the mobile user through the loaded hooking module;
A third step of generating guide information for an application requested by a mobile user through information acquired and analyzed through the mobile, the server, and the hooking module;
A fourth step of inserting and transmitting a quality measurement script for the mobile to the guide information generated through the hooking module;
A fifth step of using the guide information provided through the fourth step using the mobile;
A sixth step of transmitting quality measurement data for the mobile to the decision engine through a monitoring application for transmitting data related to a failure in the occurrence of a failure of an application executed in the mobile to the decision engine; And
And a seventh step of storing and analyzing data transmitted to the decision engine and generating guide information based on the stored data,
The second step comprises:
At least the function start time of the application (requested application preparation start time) of the function start time (requested application preparation start time), IP address, URL (Uniform Resource Locator), application version and operating system information of the requested application from the mobile, An IP address, and URL (Uniform Resource Locator) information; And
(2) collecting the function end time (requested application preparation completion time), the application result value according to the user request, and guide information of the decision engine according to the user request, Real - time content guide method using real - time content guide system. delete delete delete delete delete delete

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