KR20060036254A - Method for generation of distribution graph using analysis points input and recording medium therefor - Google Patents

Abstract

The present invention relates to a method for generating a distribution graph by inputting an analysis point and a recording medium therefor, and more particularly, to an analysis for easily generating a distribution graph when performing simulation for performance analysis and prediction of a communication network. The present invention relates to a method for generating a distribution graph through point input and a recording medium therefor.

The present invention provides a first step of displaying an initial screen for generating a distribution graph and receiving a maximum value and a minimum value of a distribution graph input by a user; Selecting a distribution graph type to receive corresponding selection information; Displaying a distribution graph editing initial screen corresponding to the selected distribution graph type; A fourth step of receiving corresponding edit point information when the user selects at least one edit point on the edit screen using a mouse; Including a fifth step of outputting a graph based on at least one edit point distribution, there is an advantage in that it is possible to generate various distribution graphs that are difficult to express by equations.

Distribution, graph

Description

Method for Generation of Distribution Graph Using Analysis Points Input and Recording Medium Therefor}

1 is a flowchart illustrating a method of generating a distribution graph according to the present invention;

2 to 7 are views for explaining an embodiment of a distribution graph generation process according to the present invention,

8 to 10 are views for explaining another embodiment of the distribution graph generation process according to the present invention,

11 is a view showing an embodiment of a distribution graph stored in a computer according to the present invention.

The present invention relates to a method for generating a distribution graph by inputting an analysis point and a recording medium therefor, and more particularly, to an analysis for easily generating a distribution graph when performing simulation for performance analysis and prediction of a communication network. The present invention relates to a method for generating a distribution graph through point input and a recording medium therefor.                         

As the importance of performance analysis of the Internet and wireless communication networks is emphasized, methods for managing the network and evaluating the performance are being studied.

For example, a network operator may build a network management system (NMS) that manages network conditions and failures, or create a virtual network model to predict and analyze the network's performance and use it to perform network network performance evaluation. Build network simulation systems.

The network simulation system prepares a model and a traffic model of the network equipment in advance, and constructs a traffic model using this to perform performance evaluation and analysis on any communication network. At this time, the network simulation system should generate a plurality of traffic models for performance evaluation of any communication network. In the past, a network of a desired type of traffic distribution was generated by directly inputting arbitrary values as numerical data.

However, in this case, the user is inconvenient to repeatedly input various arbitrary values until the distribution graph of the desired model is output.

The present invention has been made to solve the above-described problems, when generating a distribution graph for simulation, generating a distribution graph by selecting an edit point desired on the distribution graph edit screen to easily generate a distribution graph. There is a technical problem to provide a method and a recording medium therefor.

In order to achieve the above object, the present invention provides a method for generating a distribution graph through input of an analysis point using a computer having a display.

A first step of displaying an initial screen for generating a distribution graph and receiving a maximum value and a minimum value of a distribution graph input by a user; Selecting a distribution graph type to receive corresponding selection information; Displaying a distribution graph editing initial screen corresponding to the selected distribution graph type; A fourth step of receiving corresponding edit point information when the user selects at least one edit point on the edit screen using a mouse; And a fifth step of outputting a graph based on the at least one edit point distribution.

Another embodiment of the present invention is a computer-readable recording medium recording a program for generating a distribution graph through analysis point input,

A first function of displaying an initial screen for generating a distribution graph and receiving a maximum value and a minimum value of a distribution graph input by a user; A second function of selecting a distribution graph type to receive corresponding selection information; A third function of displaying a distribution graph editing initial screen corresponding to the selected distribution graph type; A fourth function of receiving corresponding edit point information when the user selects at least one edit point on the edit screen using a mouse; And a fifth function of outputting a graph based on the at least one edit point distribution.

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

FIG. 1 is a flowchart illustrating a method of generating a distribution graph according to the present invention, and will be described with reference to FIGS. 2 to 10 for explaining a process of generating a distribution graph.

The distribution graph generated in FIG. 1 is generated by a user using a computer having a display.

As the user wants to generate a distribution graph, a display of a computer (not shown) displays an initial screen for generating a distribution graph (S101).

Next, the maximum value and the minimum value of the distribution graph input by the user are received (S103). Here, the maximum value and the minimum value are values for designating the ranges of the X and Y axes on the distribution graph that the user intends to generate.

It is checked whether the user selects a desired distribution graph from a distribution graph list previously stored in the computer (S105).

As a result of step S105, if the user does not select a previously stored distribution graph, the screen moves to an edit screen for generating a distribution graph (S107).

The distribution graph can be divided into a uniform type representing continuous data between the edit points and a custom type representing discrete data.If the user selects one of the uniform type and the custom type, S109), an initial screen for distributing graph editing as shown in FIG. 3 (edit type initial screen) or FIG. 9 (edit type initial screen) is displayed (S111).

For reference, the 'Valre' field disclosed in FIGS. 2 to 11 indicates the X coordinate value and the Y coordinate value of the last selected edit point, and the 'Control Point' field includes X of at least one edit point selected by the user. Coordinate values and Y coordinate values are listed in the selected order.

After the distribution graph edit initial screen is presented, if the user selects an arbitrary point on the edit screen using a mouse, it is input as edit point information (S113). Here, the user selects an edit point through a mouse or a screen touch, rather than directly inputting arbitrary digitized data to generate a distribution graph.

In the case of using the screen touch, the display of the computer on which the distribution graph edit screen is displayed should have a touch screen function.

Subsequently, when the user wants to finish inputting the edit point (S115), a distribution graph is output based on at least one selected edit point distribution (S117).

For example, when the custom type is selected in step S109, a distribution graph is output as shown in FIGS. 3 to 7 according to at least one edit point input by the user. 3 to 7 are distribution graphs when one, two, three, four, and five edit points are sequentially input.

On the other hand, when the uniform type is selected in step S109, the distribution graph is output as shown in FIGS. 9 and 10 according to at least one edit point input by the user. For reference, FIG. 9 is a distribution graph when one edit point is input, and FIG. 10 is a distribution graph when seven edit points are input.

In addition, when the result edit point input of step S115 is not completed, the procedure after step S113 is repeated so that a plurality of edit points can be input.

On the other hand, when the user selects a desired distribution graph as a result of checking whether the user has selected one of the pre-stored distribution graphs, the procedure after step S117 is performed.

The user selects one of graph lists such as Poisson, Random, and Uniform in the 'Template' field displayed on the display in order to use the pre-stored distribution graph, and outputs the selected distribution graph in accordance with the minimum and maximum values.

Although not shown, it is also possible to provide a service for performing a graph change such as adding an edit point or deleting an edit point to a distribution graph selected by a user.

11 is a view showing an embodiment of a distribution graph stored in a computer according to the present invention.

A computer for supporting a distribution graph generation method according to the present invention stores a plurality of preset distribution graph lists and corresponding graphs, and the distribution graph shown in FIG. 11 is selected from a plurality of distribution graph lists (eg, For example, a distribution graph of Poisson distribution) is displayed.

The method for generating a distribution graph disclosed in the present invention can be applied to various fields for performing analysis through graphs such as a simulator (for example, a Dynamic CellPLAN simulator) for detailed analysis of the state of a mobile communication network in which a data service is introduced. Can be.

In addition, a program that executes the method of generating the distribution graph may be manufactured separately or installed on a computer.

As such, those skilled in the art will appreciate that the present invention can be implemented in other specific forms without changing the technical spirit or essential features thereof. Therefore, the above-described embodiments are to be understood as illustrative in all respects and not as restrictive. The scope of the present invention is shown by the following claims rather than the detailed description, and all changes or modifications derived from the meaning and scope of the claims and their equivalents should be construed as being included in the scope of the present invention. do.

As described above, the method for generating a distribution graph through the analysis point input of the present invention and a recording medium therefor are directly expressed by the edit point on the edit screen in order to generate a graph model desired by the user when generating the distribution graph. The advantage is that it is possible to generate various distribution graphs that are difficult to do.

In addition, the present invention saves the user from having to repeatedly enter an arbitrary value several times in order to generate a graph representing a specific traffic distribution.

Claims (6)

In the method for generating a distribution graph by inputting an analysis point using a computer having a display, A first step of displaying an initial screen for generating a distribution graph and receiving a maximum value and a minimum value of a distribution graph input by a user; Selecting a distribution graph type to receive corresponding selection information; Displaying a distribution graph editing initial screen corresponding to the selected distribution graph type; A fourth step of receiving corresponding edit point information when the user selects at least one edit point on the edit screen using a mouse; And A fifth step of outputting a graph based on the at least one edit point distribution; Method of generating a distribution graph through the analysis point input, characterized in that it comprises a. The method of claim 1, The distribution graph type is any one of a uniform type (Uniform Type) or a custom type (Custom Type) characterized in that the distribution graph generation method through the analysis point input. The method of claim 1, The maximum value and the minimum value is a distribution graph generation method through the analysis point input, characterized in that the range of the X-axis and Y-axis on the distribution graph. The method of claim 1, The computer stores a plurality of distribution graphs, and further comprising a sixth step in which the user selects any one of pre-stored distribution graphs between the first and second steps, And performing a fifth step of outputting the graph after performing the sixth step. A computer-readable recording medium that records a program for generating a distribution graph through analysis point input. A first function of displaying an initial screen for generating a distribution graph and receiving a maximum value and a minimum value of a distribution graph input by a user; A second function of selecting a distribution graph type to receive corresponding selection information; A third function of displaying a distribution graph editing initial screen corresponding to the selected distribution graph type; A fourth function of receiving corresponding edit point information when the user selects at least one edit point on the edit screen using a mouse; And A fifth function of outputting a graph based on the at least one edit point distribution; A computer-readable recording medium having recorded thereon a program for executing the program. The method of claim 5, wherein The distribution graph type is a computer-readable recording medium recorded by a program, characterized in that any one of a uniform type (Uniform Type) or a custom type (Custom Type).

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