KR100270629B1 - Method for deciding quality of mux trunk - Google Patents

Abstract

PURPOSE: A method for deciding a quality of a multiplexing line is provided to supply information on a quality decision to a trunk station. Therefore, an operator can perceive a quality state of the multiplexing line. CONSTITUTION: A communication controller leads a CRC(Cyclic Redundancy Check) error counting(32). If the CRC error counting is '0', or is larger than '0' and smaller than '3', the communication controller transmits good decision information to a trunk station(42). If a transmission of the good decision information is completed, the communication controller clears the CRC error counting, and completes a process(44). If the CRC error counting is larger than '3', the communication controller decides whether the CRC error counting is larger than '10'(36). If so, the communication controller transmits defective decision information to the trunk station(38). If a transmission of the defective decision information is completed, the communication controller completes a process(44). If the CRC error counting is smaller than '10', the communication controller transmits average decision information to the trunk station(40). If a transmission of the average decision information is completed, the communication controller completes a process(44).

Description

Quality Determination Method of Multiplexed Trunks {METHOD FOR DECIDING QUALITY OF MUX TRUNK}

The present invention relates to multiplexing equipment, and more particularly, to a method for determining the quality of a multiplexed trunk.

Conventional electronic exchangers are used in conjunction with electronic exchanges using multiple multiplexing trunks. In this case, in order to connect the electronic exchange with multiplexed trunks, wireless transport equipment is usually used. FIG. 1 illustrates electronic switches connected to the wireless transport equipment. The first electronic switch 10 of FIG. 1 is connected to a first wireless transport equipment 12, and the first wireless transport equipment 12 is wirelessly connected to a second wireless transport device 14. The radio carrier 14 is again connected to the second electronic exchange 16.

However, conventionally, the quality of the multiplexed trunk was not measured. As described above, since the quality of the multiplexed trunk is not measured in the related art, the operator of the relay station cannot take measures due to the deterioration of the quality of the multiplexed trunk. As a result, even if the transmission quality of the data is deteriorated due to the deterioration of the quality of the multiplexed trunk, the operator may not be able to take any further measures.

As described above, even if the transmission quality of data is deteriorated due to the deterioration of the quality of the multiplexed trunk, there is a difficulty in that the operator cannot take any additional measures.

Accordingly, an object of the present invention is to provide an operator with information on the quality determination of the multiplexed trunk as a relay in an exchange system in which exchanges are connected through multiplexed trunks so that an operator can take appropriate measures according to the quality of the multiplexed trunks. To provide a quality judgment method of the.

In order to achieve the above object, the quality determination method of the multiplexed trunk according to the present invention includes the steps of checking whether there is an error through a CRC check every frame received through the multiplexed trunk, and an error in the frame through the CRC check. Increasing the CRC error count, determining the quality of the multiplexed trunk by searching the count value of the CRC error at a predetermined time interval, and transmitting the information on the quality determination to the relay station; And displaying information on the quality determination received at the relay station.

1 is a block diagram of an electronic exchange connected to a wireless transport equipment.

2 is a flowchart of data transmission and reception through a multiplex card.

3 is a flowchart illustrating a CRC error counting method according to a preferred embodiment of the present invention.

4 is a flowchart illustrating a quality determination method of multiplexing trunks according to a preferred embodiment of the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description and the annexed drawings, numerous specific details are set forth in order to provide a more thorough understanding of the present invention. It will be apparent to those skilled in the art that the present invention may be practiced without these specific details. And a detailed description of known functions and configurations that may unnecessarily obscure the subject matter of the present invention will be omitted.

Fig. 2 shows a flowchart of processing of data through a multiplex card in the control unit of the electronic exchange. 32 channels of data received from the counterpart equipment are received by the multiplexing matching board 18. At this time, the time division switching panel 20 switches the received data to process interrupts in the processor in the communication control panel 24 through the SIO (Serial Input Output) chip embedded in the channel 1 data. At this time, the first channel is a channel for transmitting only control data. The SIO chip embedded in the signal processor 22 detects an error by a cyclic redundancy check (CRC) error checking method on a frame basis.

When the SIO chip detects an error by the CRC error checking method on a frame-by-frame basis, data on the CRC error check is input to the communication control panel 24. 3 is a flowchart illustrating an error counting method of the communication control panel 24.

When reception of one frame is completed, the communication control panel 24 performs step 28. At this time, the communication control panel 24 searches for a CRC error from the signal processing panel 22. At this time, the communication control panel 24 performs the step (30) when the CRC error occurs, and ends if the CRC error does not occur.

Typically, the BER (Bit Error Rate) required for data communication is about ^10-6 . That is, an error of 1 bit per 1,000,000 bits has occurred. Accordingly, the criterion for determining the state of the transmission path is good when the BER is 10 ⁻⁶ , a good case when the BER is 10 ⁻⁴ to 10 ⁻⁶ , and a bad case when the BER is 10 ⁻³ or less. In this case, since the transmission rate is 16kbps per channel, 16,000 bits are transmitted per second. As a result, 80,000 bits are transmitted every 5 seconds.

In this case, when the BER of ^10-3 is defective, 80 bits of the 80,000 bits transmitted during the 5 seconds are generated as an error. Typically, 8 bit errors occur when one CRC error occurs. Accordingly, the 80-bit error is equivalent to 10 CRC errors. Therefore, when 10 CRC errors occur in 5 seconds, the state of the multiplexing trunk is considered to be in a bad state. For the same reason, when the CRC error is less than 4 to 10, the state of the multiplexed edge is judged as normal, and when the CRC error is 0 to less than 3, the state of the multiplexed edge is judged as good.

4 is a flowchart illustrating a quality determination method of the multiplexing trunk. The communication control panel 24 executes the program according to the flowchart of FIG. 4 every 5 seconds to determine and transmit the quality of the multiplexed trunk to the relay station. Accordingly, every five seconds the communication control panel 24 performs step (32). In step 32, the communication control panel 24 reads the CRC error count. When the read of the CRC error count ends, the communication control panel 24 performs step 34. In step 34, the communication control panel 24 performs step 42 when the CRC error count is 0 or greater than 0 and less than 3. When the CRC error count is greater than 3, step (36) is performed. In step (42), the communication control panel 24 transmits the good judgment information to the relay station. When the transmission of the good decision information is finished, the communication control panel 24 performs step 44.

In step (36), if the CRC error count is greater than 10, the communication control panel 24 performs step (38). If the CRC error count is less than 10, step 40 is performed. In step (38), the communication control panel 24 transmits the failure determination information to the relay station. When the transmission of the defective determination information is completed, the communication control panel 24 performs step 44.

On the other hand, in step (40), the communication control panel 24 transmits the normal determination information to the relay station. When the transmission of the normal determination information is finished, the communication control panel 24 performs step 44. In step (44), the communication control panel 24 clears the CRC error count and ends.

As described above, the present invention transmits information on the quality determination of the multiplexed trunk to the relay station every 5 seconds. Accordingly, the relay station displays information on the quality determination of the multiplexed trunk through an operator terminal so that the operator can recognize the quality state of the multiplexed trunk. Accordingly, if the quality of the multiplexed trunk is degraded, the operator can take appropriate measures accordingly, and thus there is a convenience in that a good multiplexed trunk can be always used.

As described above, the present invention enables the operator to always recognize the quality of the multiplexed trunk. Accordingly, if the quality of the multiplexed trunk is degraded, the operator can take appropriate measures accordingly, and thus there is a convenience in that a good multiplexed trunk can be always used.

Claims (4)

In the quality determination method of multiplexing edges, Checking whether there is an error through CRC checking for each frame received through the multiplexing trunk; Increasing a CRC error count when determining that an error has occurred in the frame through the CRC check; Determining the quality of the multiplexing edge by searching the count value of the CRC error at a predetermined time interval; Transmitting the information on the quality determination to the relay station; And displaying information on the quality determination received at the relay station. According to claim 1, wherein the quality determination process, Reading the CRC error count value at the predetermined time interval, determining a quality of the multiplexed trunk based on the read CRC error count value; And clearing the CRC error count value after the determination. In the quality determination method of multiplexing edges, Checking whether there is an error through CRC checking for each frame received through the multiplexing trunk; Increasing a CRC error count when determining that an error has occurred in the frame through the CRC check; Retrieving the CRC error count value at a predetermined time interval to determine the quality of the multiplexed trunk as good, normal, or poor; Transmitting the information on the quality determination as a relay; And displaying information on the quality determination received at the relay station. The method of claim 3, wherein the quality determination process, If the bit error rate corresponding to the CRC error count is less than or equal to a predetermined bit error rate, it is determined to be good, if it is greater than or equal to a predetermined bit error rate, to be bad, and if it is between the two predetermined bit error rates, it is determined to be normal. Characterized in that the method.

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