KR100468570B1 - Apparatus for error detection of data transmission between units in wireless local loop - Google Patents

Abstract

The present invention provides an inter-unit data in a wireless subscriber network system which is suitable for diagnosing a malfunction of a corresponding unit by diagnosing a transmission error of traffic data between units using idle channels among matching channels in a base station system of a wireless subscriber network. In order to provide a transmission error diagnosis apparatus, the present invention includes a pattern generation block for generating a test pattern for error diagnosis of each unit and outputs it through the idle channel of the matching channel; It consists of a pattern detection block that detects the test pattern transmitted from the pattern generation block of another unit to diagnose data transmission error between units, and transmits the test pattern to the first channel of the matching channel, and the other unit transmits the test pattern. It can be received so that data transmission errors can be diagnosed in real time.

Description

Apparatus for error detection of data transmission between units in wireless local loop}

The present invention relates to transmission error diagnosis between units in a wireless local loop (WLL) system. In particular, the present invention relates to traffic data exchanged between units using an idle channel among system highways in a base station system of a wireless subscriber network. The present invention relates to an apparatus for diagnosing data transmission errors between units in a wireless subscriber network system that is suitable for diagnosing a malfunction of a corresponding unit by diagnosing transmission errors in real time.

In general, the base station system of the wireless subscriber network is provided with a Self (Shelf) mounted with a plurality of units in order to relay the radio signal exchange for a plurality of subscribers. The self has a path for data exchange between each mounted unit, and the data exchange path is implemented by a matching channel.

Hereinafter, a general wireless subscriber network system will be described.

First, Figure 1 is a block diagram of the self in a typical wireless subscriber network system.

As shown in FIG. 1, each self in the general wireless subscriber network system receives a signal from a base station controller through a predetermined line, retrieves an E1 frame structure, restores traffic data, and is transmitted from each modem unit 12. A trunk interface unit (11) for converting data into an E1 frame structure and transmitting the data to the base station controller through the circuit; A plurality of modem units demodulating data transmitted through the matching channel 14 in the trunk interface unit 11 and modulating data to be transmitted to the trunk interface unit 11 and transmitting the data through the matching channel 14. 12; A system clock generator 13 for generating and outputting a system clock necessary for the operation of each unit in the system; A matching channel (14) for providing a path for data exchange between the trunk interface unit (11) and each modem unit (12); And a control unit 15 for outputting a control signal for controlling the operation of each unit in the system.

The operation of the device configured as described above is as follows.

The base station system of the wireless subscriber network is equipped with a number of motherboards with self. In this case, a plurality of units 11 and 12 having functions appropriate to the operating environment of the system are mounted on the shelf, and data exchange between each unit 11 and 12 to be mounted is performed on the matching channel 14 provided on the motherboard. Through).

On the other hand, the data processed in each self of the base station system has an E1 frame structure, the E1 frame structure follows the standard communication protocol.

Therefore, the matching channel 14 provided on the motherboard can transmit data at a transmission rate of 2.048 MHz, and is composed of 32 time slots multiplexed according to a time division multiplex (TDM). Data flow is achieved. At this time, the first channel among the matching channels 14 is a channel allocated to frame alignment and control of the E1 frame signal and is not used for data exchange between the units 11 and 12.

Thus, if the matching channel 14 constitutes a data exchange path between each modem unit 11, the data channels of each modem unit 12 are random timeslots of the matching channel 14 in a random access method. Data exchange can be performed by occupying.

Then, data transmitted from another external system or another self is received by the trunk interface unit 11 and then transmitted through the matching channel 14. Since the matching channel 14 provides a data exchange path between each unit in the self, the data transmitted by the trunk interface unit 11 is input to each modem unit 12.

The data transmitted through the matching channel 14 is input to each modem unit 12, demodulated, and then output to another functional unit to be subjected to a certain processing operation. At this time, each modem unit 12 may perform a data exchange operation such as reception of transmitted data and transmission of demodulated data by occupying an arbitrary slot among 32 timeslots of the matching channel 14. .

That is, the data transmitted through the matching channel 14 after being interfaced in the trunk interface unit 11 is demodulated by the plurality of modem units 12 and received, and the data to be transmitted to the outside is transmitted by the plurality of modem units 12. After being modulated , it is transmitted to the trunk interface unit 11 through the matching channel 14 , multiplexed in the trunk interface unit 11, and then interfaced to an external line and transmitted.

In this case, the trunk interface unit 11, the plurality of modem units 12, and the system clock generator 13 operate according to the control signal of the controller 15, and the system clock generator 13 is required for the operation of each unit. The clock signal is generated and output.

However, in the general wireless subscriber network system as described above, even when a data transmission error occurs due to a malfunction of a modem unit or a matching channel during data transmission and reception between each unit, the subscriber cannot be confirmed during operation of the system. There was a problem that had to continue to be provided.

Therefore, in case of transmission error of the system, the system administrator has to use the equipment such as the instrument to diagnose the problem of the unit and the matching channel that may have a problem, and it takes a lot of time to diagnose the error by the measurement equipment. There is a problem in that the efficiency of the system operation is low because the cost and cost is required.

Accordingly, the present invention has been proposed to solve the conventional problems as described above, and an object of the present invention is to real-time transmission error of traffic data between units using a first channel of a matching channel in a base station system of a wireless subscriber network. The present invention provides a device for diagnosing data transmission error between units in a wireless subscriber network system that is suitable for diagnosing a malfunction of a corresponding unit.

In order to achieve the above object, an apparatus for diagnosing data transmission errors between units in a wireless subscriber network system according to the present invention generates a test pattern for diagnosing an error of each unit and outputs the pattern through an idle channel of a matching channel. and; The technical configuration is characterized in that it consists of a pattern detection block for detecting a data transmission error or a failure of the unit by detecting a test pattern transmitted from the pattern generation block of another unit and comparing with the test pattern generated in the pattern generation block . .

1 is a block diagram of a self in a general wireless subscriber network system,

2 is a block diagram of an apparatus for diagnosing data transmission error between units in a wireless subscriber network system according to an embodiment of the present invention;

3 is a detailed block diagram of a trunk interface unit in FIG.

Explanation of symbols on the main parts of the drawings

20: trunk interface unit 21, 32: pattern generation block

22, 31: pattern detection block 30: modem unit

Hereinafter, the configuration and operation of the present invention will be described in detail according to an embodiment of the present invention in the apparatus for diagnosing data transmission errors between units in a wireless subscriber network system.

First, FIG. 2 is a block diagram of an apparatus for diagnosing data transmission error between units in a wireless subscriber network system according to an embodiment of the present invention, and FIG. 3 is a detailed block diagram of a trunk interface unit in FIG.

As shown in FIG. 2, a suitable embodiment of the present invention includes: a pattern generation block 21 for generating a test pattern for error diagnosis of each unit and outputting it through an idle channel of a matching channel; And a pattern detection block 22 for detecting a test pattern transmitted from the pattern generation block 32 of another unit to diagnose data transmission errors between units.

The pattern generation block 21 may include a pattern generation unit 51 generating a test pattern for a test; A pattern inserting unit 52 for inserting a test pattern generated by the pattern generating unit 51 into an idle channel of a matching channel; The clock generator 53 is configured to output a clock signal necessary for transmitting and receiving a test pattern to the pattern insertion unit 52 and to be used when detecting a test pattern of the pattern detection block 22.

In addition, the pattern detection block 22 includes: a pattern search unit 54 for detecting a test pattern transmitted from the pattern generation block 32 of another unit according to a clock signal; The test pattern generated by the pattern generation block 21 and the test pattern detected by the pattern search unit 54 are compared with each other and an error counter unit 55 that counts an error on the pattern.

Referring to the operation of the device according to such a configuration as follows.

In the present invention, each unit in the self generates and outputs a test pattern to perform error diagnosis through a matching channel, and detects a test pattern generated and transmitted from another unit. That is, when a certain pattern of data is transmitted from one unit, an error occurring in the data transmission path and a failure of each unit are diagnosed by comparing the transmitted data with other units before receiving the transmitted data.

In order to perform a hardware diagnosis, the trunk interface unit 20 and each modem unit 30 in the self are provided with pattern generation blocks 21 and 32 and pattern detection blocks 22 and 31, respectively. Thus, the pattern generation block 21 of the trunk interface unit 20 generates a test pattern and transmits it through the first channel of the matching channel. The pattern detection block 31 of each modem unit 30 receives a test pattern transmitted from the trunk interface unit 20 through a matching channel to detect an error.

Since the first channel of the matching channel is not used for transmission of traffic data, transmission and reception of a test pattern for error diagnosis of hardware can be performed even while the system is in operation. In other words, when the first channel of the matching channel is used, real-time testing is possible.

In addition, each modem unit 30 performs the detection of the test pattern transmitted from the trunk interface unit 20, while generating the same test pattern as the test pattern generated by the trunk interface unit 20, the trunk interface unit ( 20).

In this case, the data transmission path from the trunk interface unit 20 to each modem unit 30 becomes a system reception channel in the matching channel, and the transmission path from each modem unit 30 to the trunk interface unit 20 is a system transmission channel. Becomes The transmission path of the test pattern generated by each unit 20, 30 is the same as the data transmission path.

In the pattern generation block 21 provided in the trunk interface unit 20, as shown in FIG. 3, when the pattern generation unit 51 generates a series of data composed of a predetermined pattern, the pattern insertion unit 52 The generated data is inserted into the first timeslot of the matching channel as a test pattern and transmitted to each modem unit 30. In this case, since the test pattern is detected by each modem unit 30 and an error diagnosis is to be performed, the test pattern is composed of a proper pattern according to a standard diagnosis method, and each pattern generation block 21 and 32 in the self stores data of the same pattern. Will be created.

In order to insert the test pattern into the first time slot of the matching channel, the pattern inserting unit 52 needs a clock signal to be used for transmitting and receiving data through the matching channel. The clock signal is generated by the clock generating unit 53. Supplied. As such, the clock signal generated by the clock generator 53 is used during the test pattern insertion operation of the pattern insertion unit 52 and the test pattern detection operation of the pattern search unit 54, thereby using a pattern generation block using the same clock signal ( The test pattern transmission and reception between the 21 and 32 and the pattern detection blocks 22 and 31 can be performed.

The operation of the pattern generation block 21 of the trunk interface unit 20 described above is equally applied to the operation of the pattern generation block 32 provided in each modem unit 30. That is, each modem unit transmits the test pattern generated in the pattern generation block 32 to the trunk interface unit 20 through the system transmission channel.

Thus, the test pattern transmitted through the matching channel in each modem unit 30 is detected by the pattern detection block 22 of the trunk interface unit 20. That is, in the pattern detection block 22, the pattern search unit 54 searches the first timeslot of the system transmission channel according to the clock signal supplied from the clock generator 53 to detect the test pattern.

The test pattern detected by the pattern search unit 54 is compared with the test pattern before transmission in the error counter unit 55, and counts the number of occurrences of an error through the comparison. The error count value may be transmitted to a control unit or the like in the system and used as basic data of another task.

The above description of the operation is for the pattern detection block 22 of the trunk interface unit 20, and the same applies to each pattern detection block 31 provided in the plurality of modem units 30.

As described above, the present invention transmits a test pattern in one unit by using a first channel of the matching channels constituting a data transmission path between units in the system, and enables another unit to receive the transmitted test pattern, thereby transmitting data. The errors that occur can be diagnosed in real time.

Although the preferred embodiment of the present invention has been described above, the present invention may use various changes, modifications, and equivalents. It is clear that the present invention can be applied in the same manner by appropriately modifying the above embodiments. Accordingly, the above description does not limit the scope of the invention as defined by the limitations of the following claims.

As described above, the apparatus for diagnosing data transmission errors between units in the wireless subscriber network system according to the present invention can perform diagnosis on data transmission errors having a predetermined pattern, so that the matching channels and the respective channels are detected by detecting the transmission errors. It is effective to check the malfunction of hardware such as unit.

And unlike the prior art, which requires a lot of time to diagnose the error of the system and provides a poor service to the subscriber, the error diagnosis is performed in real time even when the system is in operation, so it is easy to diagnose a malfunctioning unit and Through statistical analysis, it is possible to check the unit which has a relatively high possibility of malfunction, and increase the efficiency of system operation management.

In addition, since the first channel, which was not used conventionally, is used among the matching channels, there is an effect of improving utilization efficiency of resources provided in the system.

Claims (4)

A pattern generation block which generates a test pattern for error diagnosis of each unit and outputs it through an idle channel of a matching channel; A wireless subscriber network system comprising a pattern detection block for detecting a test pattern transmitted from a pattern generation block of another unit and diagnosing a data transmission error or a failure of the unit by comparing with a test pattern generated in the pattern generation block. Diagnosis device for data transmission error between units. The method of claim 1, wherein the pattern generation block, A pattern generator which generates a test pattern for a test; A pattern insertion unit for inserting a test pattern generated by the pattern generation unit into an idle channel of a matching channel; An apparatus for diagnosing data transmission errors between units in a wireless subscriber network system, comprising: a clock generator for outputting a clock signal required for transmission and reception of a test pattern to the pattern insertion unit to be used when detecting a test pattern of the pattern detection block. The method of claim 1, wherein the pattern detection block, A pattern search unit for detecting a test pattern transmitted from a pattern generation block of another unit according to a clock signal transmitted from the pattern generation block; And an error counter unit for comparing the test pattern generated by the pattern generation block with the test pattern detected by the pattern search unit and counting an error on the pattern. The method of claim 1, Idle channel used for transmitting and receiving a test pattern is a device for diagnosing data transmission errors between units in a wireless subscriber network system, characterized in that the first channel of the matching channel.