KR100309374B1 - Method for detecting transmission error rate between RCS and RNT in WLL - Google Patents

Abstract

The present invention relates to a method for detecting a transmission error rate between a base station and a terminal station in a wireless subscriber network. In particular, the present invention relates to a wireless subscriber network that ensures reliability of wireless sections by accurately measuring bit error rates of data during transmission between a base station and a terminal station. A transmission error rate detection method between a base station and a terminal station.

An embodiment of the preferred transmission task according to the present invention comprises the steps of the associated constant values being initialized and the reception of a message in a waiting state; Returning to the step of requesting the use of the wireless section, and after the predetermined time elapses after requesting the cancellation of the wireless section, the message returns to the standby step.

An embodiment of the preferred reception task according to the present invention comprises the steps of initializing the related constant values and waiting for reception of a message, and obtaining a radio section according to a request of a transmitting party, analyzing the data after receiving the data, and calculating a bit error rate. And generating and transmitting the function usage data, canceling according to the request for canceling the radio section of the transmitter, and reporting the calculated bit error rate to the operator if canceling, and canceling according to the request for canceling the radio section, if the cancellation fails. It is a step back to step.

Description

Method for detecting transmission error rate between RCS and RNT in WLL in wireless subscriber network

The present invention relates to a method for detecting a transmission error rate between a base station and a terminal station in a wireless subscriber network. In particular, the present invention relates to a wireless subscriber network that ensures reliability of wireless sections by accurately measuring bit error rates of data during transmission between a base station and a terminal station. A transmission error rate detection method between a base station and a terminal station.

Wireless Local Loop (WLL) is a method of constructing subscriber lines connecting telephone stations and subscriber terminals using a wireless system instead of wired lines. The commercialization stage has not been reached due to the securing frequency and economic feasibility.

However, with the advancement of electronic communication technology, economical products have been developed, which has attracted the interest of telecommunication operators and users.

Loss of data generated when a task is installed in a Radio Carrier Station (RCS) and a Radio Network Terminal (RNT) of the wireless subscriber network and data is transmitted and received by direct communication between the two tasks. Detect distortion and measure the Bit Error Rate (BER).

The bit error rate is a probability that binary data of 1s and 0s are changed to wrong data on a communication line or a storage device, and in data communication, it indicates how wrong the data received at the receiving side is compared to the transmitted data within a certain time.

For example, a communication line with a bit error rate of 10 ^-4 is a line with an average error of about 10 bits when transmitting 10,000 bits of data.The bit error rate of a communication line varies depending on the data signal rate and the length of the line. Most of these errors are caused by noise on the communication line.

The noise characteristics are normal in phase and irregular in frequency distribution of noise energy. This normal noise is not a big problem for data transmission, while impulse noise has a big impact on the data signal.

In the above storage device, the read error is expressed as a bit error rate of the recording device as compared with the data at the time of writing. The error rate is expressed in bytes and the block error rate is expressed in units of blocks.

On the other hand, there is a problem in that the measurement of the bit error rate during data transmission and reception is unclear and cannot be processed quickly when an abnormality occurs.

Therefore, an object of the present invention, which was devised to solve the problems of the prior art operating as described above, is to wirelessly perform the function smoothly while occupying the smallest resource by accurately measuring the transmission error rate of the wireless section in the wireless subscriber network. The present invention provides a transmission error rate detection method between a base station and a terminal station in a subscriber network.

Other objects and advantages of the present invention will become more apparent from the following detailed description of the invention and the accompanying drawings.

1 is a flow chart of the sender task of the present invention.

2 is a flow chart of the receiving task of the present invention.

An embodiment of a preferred transmission task according to the present invention, which was created to achieve the above object,

The associated constant values are initialized and the reception of the message is in a waiting state;

Requesting the acquisition of the radio segment usage, and if it is obtained, generating and transmitting the function usage data;

Thereafter, after the predetermined time elapses, the wireless section is requested to be canceled, and when the cancellation is completed, the message returns to the waiting step for receiving the message.

The step in which the reception of the message is in a waiting state indicates waiting for an operator's request, and the initialization makes the receiving side and the radio section available.

Random function is generated when generating the function utilization data, and the random number generation function included in the transmitting side and the receiving side is the same.

The random number generation function is calculated by the following equation.

Xn = (Xn-1 * Seed)% M

Xn: Output Used as input in the next process

Xn-1: Generated as output during the entire input process

Seed: Specific number

M: Size value of random number to generate

*: Symbol multiplying two numbers

%: Divide the previous number by the latter number to get the remainder

When the random number is generated, the serial number and the number of transmission data are combined and transmitted, and the request for canceling the wireless section after the predetermined time indicates that the receiving side is required to restore the wireless section.

An embodiment of a preferred receiving task according to the present invention,

The associated constant values are initialized and the reception of the message is in a waiting state;

Calculating a bit error rate by securing a wireless section at the request of a transmitter and analyzing the data after receiving the data;

After generating and transmitting the function usage data, canceling according to the request for canceling the radio section by the transmitter, reporting the calculated bit error rate to the operator when canceling, and returning to cancel the request for canceling the radio section when the cancellation is failed. It is a thin step.

The step in which the reception of the message is in a waiting state indicates waiting for an operator's request, and the initialization makes the transmitting side and the radio section available.

In the step of calculating the bit error rate by analyzing after receiving the data, the received data is divided into a serial number and a total number part of the transmission data to determine whether there is an abnormality of the data. Restore the original.

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

The present invention has the characteristics of a code division multiple access (CDMA) scheme, which has a larger capacity for receiving subscriber lines than other schemes, is non-combustible, and does not cause multichannel fading.

In addition, the present invention provides a method for measuring the transmission error rate accompanying the communication between the base station and the terminal, the method is to install a task in the base station (RCS) and the terminal station (RNT) to establish a serial communication between the two tasks Send and receive data by

At this time, the bit error rate is measured by detecting the loss or deformation of the data, and using this value, it is possible to predict a problem that may occur in the interval or to quickly process the problem.

The data used here is generated by using a random number generation function, and the sender and the receiver have the same function. Therefore, when the specific data is used as the input of the function, the output value is always the same. The value is used to measure the bit error rate.

The preconditions of the sending task and the receiving task shall satisfy the following.

-The random number generation function included in the sending side and the receiving side must be the same.

-The data to be transmitted is made by combining random number generation data and serial number.

First, the sending task

-Wait for the operator's request.

-Initialize the receiver and radio section to the available state.

Generate a random number using a function and combine it with the serial number and the total number of transmitted data.

-After the transmission ends, request the receiver to restore the radio section.

-Go back and wait for the request.

The receiving task

-Wait for the operator's request.

-Initialize the transmitter and radio section to the available state.

-It receives the data sent from the sender and separates it into random number part, serial number, and total number part of the transmitted data to determine the abnormality of the data and calculate the bit error rate based on this.

-When the reception is judged to be finished and the sender requests, the radio section is restored.

-Register the calculated bit error rate and send it to the operator.

-Go back and wait for the request.

The function for generating the random number is calculated by the following equation.

Xn = (Xn-1 * Seed)% M

Xn: output It is used as input in the next process.

Xn-1: Generated as an output during the entire input process.

Seed: Make a suitable number by calculation in advance with a specific number.

Ex) 7 ⁵ , 11 ⁵ , 13 ⁵ , 17 ⁵ , 19 ⁵

M: Value related to the size of random numbers to generate

8-bit random number: 255 (2 ^8-1 )

16-bit random number: 65535 (2 ¹⁶ - 1)

24-bit random number: 16777215 (2 ²⁴ - 1)

32-bit random number: 4294967295 (2 ³² - 1)

n-bit random number: xxxxxxxxxx (2 ⁿ -1)

*: Symbol multiplying two numbers

%: Divide the previous number by the latter number to find the remainder.

Therefore, by detecting a loss or modification of data during data transmission between the base station and the terminal station, it is possible to quickly process when an abnormality occurs in the radio section by measuring the bit error rate.

1 is a flowchart of a task of a transmitting side of the present invention, in which related constant values are initialized (s10) and reception of a message becomes a standby state (s20).

If it is obtained by requesting the use of the radio section (s30), if it is obtained (s40), it generates and transmits the function usage data (s50).

After a certain time elapses after requesting the cancellation of the wireless section (s60), if the cancellation (s70) returns to the message reception standby step, if the cancellation fails, the return to the request step.

2 is a flowchart of a task of a transmitting side of the present invention, in which related constant values are initialized (s100) and reception of a message becomes a standby state (s200).

In accordance with the request of the transmitting side to secure a wireless section (s300) and after receiving the data to calculate the bit error rate (s400).

After generating and transmitting the function usage data (s500) and canceling according to the request for canceling the radio section of the transmitting side (s600) and then canceling (s700), the calculated bit error rate is reported to the operator (s800). Return to the step of canceling according to the request to cancel the wireless section.

The invention can be variously modified and can take various forms and only the specific embodiments thereof are described in the detailed description of the invention. It is to be understood, however, that the present invention is not limited to the specific forms mentioned in the detailed description of the invention, but rather includes all modifications, equivalents, and substitutions within the spirit and scope of the invention as defined by the appended claims. It should be understood to do.

In the present invention operating as described in detail above, the effects obtained by the representative ones of the disclosed inventions will be briefly described as follows.

By accurately measuring the transmission error rate between the base station and the terminal station in the wireless subscriber network, it is possible to predict a problem that may occur in the wireless section or to quickly deal with a problem, thereby ensuring the reliability of the wireless section.

Claims (3)

A method for detecting a transmission error rate between a base station and a terminal station using transmission and reception tasks installed in each of a base station and a terminal station in a wireless subscriber network, Requesting the reception side task to acquire the radio section usage, acquiring a radio section; and generating preset function usage data for generating the same output random number at the same input upon obtaining the radio section; Transmitting a request to the receiving end task to terminate the wireless section by transmitting to the receiving side task; Acquiring the radio section according to a request of the transmitting task, calculating a bit error rate by analyzing data received from the transmitting task, generating the function utilization data, and transmitting the generated data to the transmitting task; And canceling the wireless section according to the request for canceling the wireless section of the transmitting task and outputting the calculated bit error rate to an operator when the wireless section is cancelled. Transmission error rate detection method characterized in that it has a process. The method of claim 1, wherein the random number generation function Xn: Output Number used as input in the next process Xn-1: Number generated as output during the entire input process Seed: Specific number for random number generation M: Size value of random number to generate *: Symbol multiplying two numbers %: Operator to get the remainder by dividing the previous number by the latter number Xn = (Xn-1 * Seed) transmission error rate detection method characterized in that given by % M. 7. The transmission error rate detection method according to claim 1 or 6, wherein the random number is generated by combining a serial number and a number of transmission data.