KR20000031479A - End-to-end traffic estimating device and method of telephone network - Google Patents

Abstract

PURPOSE: An end-to-end traffic estimating device and a method of a telephone network are provided to manage a telephone network by using a base traffic. CONSTITUTION: An end-to-end traffic estimating device of a telephone network comprise an input portion(101), a first storage portion(102), a first control portion(103), a second storage portion(104), a third storage portion(106), a production portion(105), a second control portion(107), and an output portion(108). The input portion receives a parameter. The first storage portion stores end-to-end traffic information. The first control portion controls a base traffic path. The second storage portion stores the amount of a root traffic flow. The third storage portion stores the measured root traffic information. The production portion calculates the amount of the end-to-end traffic. The second control portion controls the base traffic information. The output portion outputs the end-to-end information.

Description

End-to-end traffic estimator and its method in telephone network

The present invention provides an apparatus for estimating end-to-end traffic of a telephone network for efficiently calculating end-to-end traffic data and analyzing the characteristics and performance of communication networks, calculating the number of relay request lines between appropriate stations, and analyzing and predicting trends of required network resources. The present invention relates to a method for estimating end-to-end traffic of a telephone network, and more particularly, to provide quantitative analysis data for managing a telecommunication network using an end-to-end base traffic.

In general, call demand traffic to subscribers accommodated at any other exchange by subscribers accommodated at a particular exchange is one of the most important information in the field of network planning and management, including trunk line planning and routing planning.

However, since the end-to-end attempt traffic cannot be measured directly, an alternative method of indirect estimation using route traffic measurement data, exchange traffic data, and routing rules is instituted in various countries such as Bellcore. The situation is being studied in.

On the other hand, the traffic data that can be used to calculate the end-to-end traffic demand of the communication network includes route traffic data (carrying traffic volume, overflow rate, average occupancy time, total number of attempts) and telephone exchange traffic data (ORG-OG, ORG). -TERM, INC-OG, INC-TERM), and the constraints in using the traffic data include the root traffic constraint and the telephone exchange station constraint.

The use of any route is then the sum of all end-to-end traffic using that route, and total call origination (ORG-OG) traffic measured by any exchange is subject to the total switching of the switching center. All the end-to-end traffic from the destination exchange is equal to the sum of the incoming exchanges, and the total incoming incoming (INC-TERM) traffic measured by any exchange is equal to the sum of the end-to-end traffic to this exchange for all outgoing exchanges. .

In addition, conventional methods of estimating end-to-end traffic demand include the method of "Martin TU" and the method of "Kim Roh-sik," both of which consider the above constraints.

The "Martin Tew" method solves the system of equations constructed from the root traffic constraints using the Gauss-seidel iteration method. In addition, the method of "Sim Kim" follows the iterative process of obtaining a direction vector and "step size", updating an estimate, and checking a stop condition, and limiting the estimated end-to-end traffic demand for each iteration step. The condition is mainly calculated.

On the other hand, in the method of "Martin Tue" and the method of "Kim Roh," the more likely the number of independent simultaneous equations configurable approaches the number of unknowns, that is, the more connected to the telephone network, the higher the probability of obtaining a useful solution. Kim's method increases the probability of obtaining a useful solution when the generation pattern of each end-to-end traffic is relatively homogeneous due to the characteristics of the method of obtaining the direction vector.

Thus, the drawbacks of both the "Martin Tew" method and the "Kim Rohsik" method are that the lower the number of independent configurable simultaneous equations compared to the unknown, the lower the connectivity to the telephone network, A useful solution cannot be obtained. In addition, the method of "Kim Roh Sik" cannot find a useful solution when the occurrence pattern of each end-to-end traffic is a non-uniformity traffic due to the characteristics of the method of obtaining the direction vector.

In addition, in the conventional method, the solution can be easily obtained in fixed sequential alternate routing, which flows while selecting all the paths in which traffic has always flowed in a certain order. It is difficult to solve the solution in a telephone network with a fixed load sharing and mutual alternate routing scheme that distributes calls to routes at a constant ratio and then bypasses them again in case of a short circuit. There is a problem losing.

Accordingly, the present invention has been made to solve the above problems, and an object of the present invention is to provide an apparatus and method for estimating end-to-end traffic of a telephone network which provides quantitative analysis data of a telephone network essential for communication network diagnosis to improve service quality. have.

In order to achieve the above object, an end-to-end traffic estimation apparatus for a telephone network according to the present invention comprises: input means for receiving various parameters required for traffic calculation of a telephone network from a user;

First storage means for receiving and storing end-to-end base traffic information from the input means;

First control means for storing a telephone network routing rule inputted through the input means to control a base traffic path from the first storage means to each end-to-end during operation of the virtual telephone network;

Second storage means for temporarily storing the route traffic flow amount by flowing the base traffic information through a virtual telephone network that simulates an actual telephone network according to a routing rule stored in the first control means;

Third storage means for receiving and storing route traffic information measured at a relay line group route of an actual telephone network from the input means;

Calculating means for receiving respective traffic information stored in the second and third storage means and comparing them with each other to calculate end-to-end traffic volume;

Second control means for adjusting the amount of base traffic to enable end-to-end traffic flow according to the comparison result in said calculating means;

And output means for outputting end-to-end traffic information calculated by the calculating means.

In addition, the end-to-end traffic estimation method of the telephone network according to the present invention having the above configuration receives and stores various parameters required for traffic calculation, and simultaneously initializes the virtual trunk line route and sets the base traffic of each end-to-end pair. A first process of doing;

A second process of selecting one end-to-end pair from the entire end-to-end pair and flowing the selected end-to-end pair base traffic to the virtual trunk line route according to the routing rule, and then comparing it with the traffic of the actual trunk line route;

In the second process, if the route traffic of all the virtual trunk line groups among the total routes is smaller than the measured route traffic, the end-to-end traffic to be obtained is increased by the base traffic, and the route traffic of the virtual trunk line group among the entire routes is measured. If there is a route larger than the route traffic, the base traffic flowed immediately before is removed from the virtual relay group, and the end-to-end base traffic is reduced by a constant ratio, and if the adjusted base traffic value is smaller than the predetermined route, the entire stage A third process of controlling to be excluded from a great pair of objects;

After the end of the third process, if the end-to-end pair exists, the process returns to the second process and repeats the subsequent process, and if the end-to-end pair does not exist, the fourth process outputs the calculated traffic. It is characterized by.

The parameters are route traffic measurement information, telephone network routing rule information, base traffic information, and end-to-end traffic statistics information.

In addition, the routing rule has information about the bypass routing order and the allocation rate of the call.

In determining the initial value of the base traffic (that is, the minimum unit traffic imposed on the end-to-end), the value of the end-to-end base traffic is determined as the end-to-end traffic ratio using statistical data (billing data, etc.). The heterogeneous traffic can also be useful to estimate the solution.

1 is a block diagram showing an end-to-end traffic estimation apparatus of a telephone network according to the present invention

2 is a flowchart illustrating a method for estimating end-to-end traffic of a telephone network according to the present invention.

<Description of the symbols for the main parts of the drawings>

101: input means 102, 104, 106: storage means

103, 107: control means 105: calculation means

108: output means

The above and other objects and features and advantages of the present invention will become more apparent from the following detailed description taken in conjunction with the accompanying drawings. Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a block diagram illustrating an apparatus for estimating end-to-end traffic of a telephone network according to the present invention, and includes various parameters required for traffic estimation (for example, route traffic measurement information, telephone network routing rule information, base traffic information, and end-to-end traffic statistics). Information means) for receiving a value from the user; Storage means 102 for storing the traffic information of the minimum unit that can be imposed on each end-to-end pair input from the input means 101 and stores it as base traffic information (β ₁₂ , β ₁₃ , β ₁₄ , ... β _sd ) )and; Stores routing rules of the telephone network inputted from the input means 101 (for example, information about the bypass routing order and call distribution rate), and stores the end-to-end pair base traffics from the storage means 102. Control means (103) for controlling a traffic route when operating in a telephone network; Storage means (104) for temporarily storing the route traffic flow amount when the base traffic information (β ₁₂ , β ₁₃ , β ₁₄ ,... _Sd ) is flowed to a virtual telephone network that simulates an actual network according to the routing rule; Storage means (106) for receiving and storing route traffic information measured at the relay line group route of the actual telephone network from the input means (101); Calculation means (105) for receiving respective traffic information stored in the storage means (104 and 106) and comparing the traffic information to calculate end-to-end traffic volume; Control means (107) for adjusting the amount of base traffic to enable end-to-end traffic flow according to the comparison value in the calculation means (105); And output means 108 for outputting end-to-end traffic information calculated by the calculation means 105.

The storage means 102 for storing the base traffic information maintains an initial value determined by the end-to-end traffic ratio using the parameter as the minimum amount of traffic charged between end-to-end.

In addition, as the route traffic information stored in the storage means 106, the traffic volume, the overflow rate, the average occupancy time, the total number of attempts, and the like are used.

2 is a flowchart illustrating a method for estimating end-to-end traffic of a telephone network according to the present invention. Referring to the drawings, an operation and a process of the present invention will be described.

First, the route traffic information and the telephone network routing rule information necessary for the traffic calculation are stored through the input means 101, and the base traffic information is set to a small value according to the end-to-end ratio using end-to-end traffic statistics information (process). 201).

Thereafter, end-to-end pairs are sequentially selected and end-to-end base traffic is flowed to the virtual relay line route according to the call setup routing rule (step 202).

Then, compare the amount of traffic flowing into the virtual trunk line group with the amount of trunk line route traffic (step 203), and if the traffic value of all virtual trunk line groups among the total routes is smaller than the value of the measured relay line route traffic, After increasing the end-to-end traffic by the base traffic (step 204), it is fed back to the step 202 to control to repeat repeatedly for all the end-to-end pair until the target end-to-end pair does not exist (step 205).

However, in the determination process of step 203, if there is a route larger than the trunk line route traffic in which the virtual trunk line route traffic value is measured, the base traffic flowed immediately before is removed from the virtual relay line route, and end-to-end traffic flows. The base traffic is reduced by a certain ratio to readjust the data (step 206). At this time, if it is determined that the size of the base traffic is smaller than the tolerance ε in the re-adjustment process (step 206) (step 207), it is excluded from the end-to-end pair to be repeated (step 208).

Repeating the process (steps 202 to 208), the traffic on the virtual trunk line route gradually converges to the route traffic of the measured relay line group, and the end-to-end pair is no longer present and thus there is no end-to-end pair to repeat. In this case, the calculated end-to-end traffic value is output via the output means 108 (step 209).

As a result, the amount of end-to-end traffic can be accurately estimated from the output value.

As described above, the apparatus for estimating end-to-end traffic of a telephone network and the method thereof according to the present invention enable accurate end-to-end traffic data to be estimated, thereby analyzing communication network characteristics and performance, calculating the number of relay request lines between stations, and requesting communication networks. There is a very good effect of being able to use them efficiently for trend analysis and forecasting of resources.

In addition, preferred embodiments of the present invention are disclosed for the purpose of illustration, those skilled in the art will be able to make various modifications, changes, additions, etc. within the spirit and scope of the present invention, such modifications and modifications belong to the scope of the claims You will have to look.

Claims (11)

Input means for receiving a parameter for calculating traffic of a telephone network from a user; First storage means for receiving and storing end-to-end base traffic information from the input means; First control means for storing a telephone network routing rule inputted through the input means to control a base traffic path from the first storage means to each end-to-end during operation of the virtual telephone network; Second storage means for temporarily storing the route traffic flow amount by flowing the base traffic information through a virtual telephone network that simulates an actual telephone network according to a routing rule stored in the first control means; Third storage means for receiving and storing route traffic information measured at a relay line group route of an actual telephone network from the input means; Calculating means for receiving respective traffic information stored in the second and third storage means and comparing them with each other to calculate end-to-end traffic volume; Second control means for adjusting base traffic information stored in the first storage means to enable end-to-end traffic flow according to the comparison result in the calculation means; And an output means for outputting end-to-end traffic information calculated by said calculating means. The method of claim 1, And said parameter is route traffic measurement information, telephone network routing rule information, base traffic information, and end-to-end traffic statistics information. The method of claim 1, The base traffic information is determined by the end-to-end traffic ratio using the parameter, the end-to-end traffic estimation device of the telephone network, characterized in that the traffic amount of the minimum unit to enable the end-to-end traffic flow. The method of claim 1, The route traffic information is the end-to-end traffic estimation device of the telephone network, characterized in that the information on the traffic volume, overflow rate, average occupancy time, total attempts. The method of claim 1, The routing rule is an end-to-end traffic estimation device of a telephone network, characterized in that the rule having information about the bypass routing order and call distribution rate. A first step of receiving and storing various parameters required for traffic calculation, and at the same time, initializing the virtual trunk line route and setting base traffic for each end-to-end pair; A second process of selecting one end-to-end pair from the entire end-to-end pair and flowing the selected end-to-end pair base traffic to the virtual trunk line route according to the routing rule, and then comparing it with the traffic of the actual trunk line route; In the second process, if the route traffic of all the virtual trunk line groups among the total routes is smaller than the measured route traffic, the end-to-end traffic to be obtained is increased by the base traffic, and the route traffic of the virtual trunk line group among the entire routes is measured. If there is a route larger than the established route traffic, the base traffic flowed immediately before is removed from the virtual relay group, and the end-to-end base traffic is reduced by a certain ratio, and if the adjusted base traffic value is smaller than the reference value, the entire end-to-end A third process of controlling to be excluded from the pair of objects; After the end of the third process, if the end-to-end pair exists, the process returns to the second process and repeats the subsequent process, and if the end-to-end pair does not exist, the fourth process outputs the calculated traffic. End-to-end traffic estimation method of the telephone network, characterized in that. The method of claim 6, The parameter is a route traffic measurement information, telephone network routing rule information, base traffic information, end-to-end traffic statistics information, characterized in that the telephone network. The method of claim 6, The base traffic information is determined by the end-to-end traffic ratio using the parameter, the end-to-end traffic estimation method of the telephone network, characterized in that the traffic amount of the minimum unit to enable the end-to-end traffic flow. The method of claim 6, The route traffic information is a method for estimating end-to-end traffic of a telephone network, characterized in that the information on the amount of transport traffic, overflow rate, average occupancy time, total attempts. The method of claim 6, The routing rule is a method for estimating end-to-end traffic of a telephone network, characterized in that a rule having information about a bypass routing order and a call distribution ratio. The method of claim 6, The reference value is a method of estimating end-to-end traffic of a telephone network, characterized in that the tolerance value of the base traffic size of the minimum unit to enable end-to-end traffic flow.