KR101645987B1 - Method And Apparatus for Diagnosing Wireless Performance in Mobile Communication - Google Patents

Abstract

The present embodiment receives a loop feedback signal looped back from the radio unit side in response to a radio signal input from the RRH, monitors the radio performance state for the radio unit based on the received loop feedback signal, And more particularly, to a method and apparatus for wireless performance diagnosis of a radio unit capable of measuring and constantly monitoring the performance of a radio unit without equipment.

Description

TECHNICAL FIELD The present invention relates to a method and apparatus for wireless performance diagnosis in a mobile communication system,

This embodiment relates to a method and apparatus for wireless performance diagnosis of a radio unit in a mobile communication antenna distribution system.

It should be noted that the following description merely provides background information related to the present embodiment and does not constitute the prior art.

2. Description of the Related Art In recent years, as the number of mobile communication subscribers and data traffic have increased, a mobile communication system has also changed to a small cell type, and thus a plurality of radio units are installed in a service area. On the other hand, in the case of a radio unit, performance deterioration occurs over time, and therefore, the output and performance of the radio unit are required to be periodically measured.

Generally, a radio measurement apparatus is used for measuring the system performance of a radio unit. However, in case of the performance measurement method using the radio measurement device, a professional technician should directly visit the site where the actual radio unit is installed, and directly verify the system performance of each radio unit. In this case, There is a problem in that it occurs. In particular, in the case of an antenna dispersion system in which dozens of radio units are installed, it is difficult to grasp a radio unit in which an error has occurred because the reverse signals input from the respective radio units are weighted to affect the base station. There is a need to verify all the radio units installed in the system.

Accordingly, there is a demand for a method for measuring and constantly monitoring the performance of a radio unit without a remote measurement instrument.

The present embodiment receives a loop feedback signal looped back from the radio unit side in response to a radio signal input from the RRH, monitors the radio performance state for the radio unit based on the received loop feedback signal, The main purpose of the present invention is to provide a method and an apparatus for diagnosing radio performance of a radio unit which can measure and monitor the performance of a radio unit without equipment.

In this embodiment, a test signal for wireless performance diagnosis is generated and output, and a wireless performance status for the corresponding radio unit is monitored based on a loop feedback signal looped back from the radio unit in response to the test signal, A main purpose of the present invention is to provide a method and an apparatus for radio performance diagnosis of a radio unit which can measure and continuously monitor the performance of a radio unit without measuring equipment.

This embodiment includes a wireless signal transceiver for receiving a wireless signal input from one or more RRHs included in an RRH group; Wherein the corresponding radio signal is packetized and output, and when a corresponding radio signal is a radio signal corresponding to a radio unit (RU) to be checked among the radio signals, An output control unit for inserting and outputting a control command for loop-feedback to diagnose radio performance of the radio unit to be checked; An optical transceiver for converting the packetized radio signals into optical signals and transmitting the optical signals to corresponding radio units; And a signal generation unit for receiving a loop feedback signal for an output signal output corresponding to the corresponding radio signal in the radio unit to be monitored and for monitoring a radio performance state for the radio unit to be checked based on the loop feedback signal, And a generation monitoring unit.

According to another aspect of the present invention, there is provided a radio unit provided with a paging communication related service from at least one RRH included in an RRH group, the radio unit comprising: An optical transceiver for receiving a signal, converting the optical signal into a radio signal, and outputting the radio signal; An output control unit for packetizing and outputting the radio signal and analyzing the packetized radio signal to generate a discrimination result for discriminating whether or not the packetized radio signal is a monitoring signal for radio performance diagnosis of the radio unit; And a control unit for controlling the output path of the packetized radio signal according to the determination result to selectively loop back the packetized radio signal to the signal distributor or outputting the packetized radio signal to a terminal corresponding to the packetized radio signal, And a radio communication unit.

According to another aspect of the present invention, there is provided a method for diagnosing an abnormality in a radio unit in which a signal distributing apparatus is provided with a mobile communication related service from an RRH group, the method comprising: receiving, from at least one RRH included in the RRH group, A receiving step of receiving a signal; Wherein the radio signal is packetized and output, and in the case of a corresponding radio signal, which is a radio signal corresponding to the radio unit to be checked, among the radio signals, in the packetization process of the corresponding radio signal, A packetization process for inserting and outputting a control command for performing loop feedback for performance diagnosis; A transmission process of converting the packetized radio signal into an optical signal and transmitting the optical signal to each corresponding radio unit; And a monitoring process of receiving a loop feedback signal for an output signal output corresponding to the corresponding radio signal in the radio unit to be monitored and monitoring a radio performance state of the radio unit to be checked based on the loop feedback signal And a radio unit diagnosis method of the signal distributing apparatus.

According to another aspect of the present invention, there is provided a method of controlling an output of a radio unit for providing a radio performance diagnosis service, the method comprising: receiving, from a signal distributor for relaying signals between at least one RRH included in the RRH group and the radio unit, An outputting step of converting the optical signal into a radio signal and outputting the radio signal; A packetization process for packetizing and outputting the radio signal and generating a determination result of analyzing the packetized radio signal and determining whether the packetized radio signal is a monitoring signal for diagnosing radio performance of the radio unit ; And an output control unit for controlling the output path of the packetized radio signal according to the determination result to loop-feed the packetized radio signal selectively to the signal distributor or output the packetized radio signal to a terminal corresponding to the packetized radio signal, And controlling the output of the radio unit.

According to this embodiment, the loop feedback signal looped back from the radio unit side in response to the radio signal input from the RRH is received, and the radio performance state for the radio unit is monitored based on the received loop feedback signal So that the performance of the radio unit can be measured and monitored at all times without the need of a measuring instrument of the present invention.

According to the present embodiment, a test signal for wireless performance diagnosis is generated and output, and the radio performance status for the radio unit is monitored based on a loop feedback signal looped back from the radio unit in response to the test signal The performance of the radio unit can be measured and monitored at all times without any additional measuring equipment.

In addition, according to the present embodiment, it is possible to diagnose radio performance with respect to all the radio units in the system, so that it is possible to more easily grasp the radio unit in which the abnormality has occurred compared to the existing system, Time and cost can be saved.

In addition, according to the present embodiment, the system itself can diagnose the radio performance of the radio unit without any additional measuring equipment, thereby reducing the cost and time caused in the radio performance diagnosis process.

According to the present embodiment, a specific test signal for diagnosing the radio performance of a specific radio unit is separately allocated to the inside of the digital frame, so that even in the course of performing the radio performance diagnostic service procedure, There is an effect that a normal mobile communication service can be performed without service interruption.

1 is a network diagram schematically showing an antenna dispersion system according to the present embodiment.
2 is a block diagram schematically showing a signal distributor according to the present embodiment.
3 is a block diagram schematically showing a radio unit according to the present embodiment.
4 is a flowchart for explaining a method for diagnosing abnormality of a radio unit according to the present embodiment.
5 is a flowchart illustrating a method of providing a radio performance diagnosis service by a radio unit according to the present embodiment.
6 is an exemplary view illustrating a method for diagnosing radio performance of a radio unit according to the present embodiment.
7 is an exemplary diagram illustrating an output form of a test signal according to the present embodiment.

Hereinafter, the present embodiment will be described in detail with reference to the accompanying drawings.

1 is a network diagram schematically showing an antenna dispersion system according to the present embodiment.

1, the antenna distribution system 100 according to the present embodiment includes an RRH group 110, a signal distributor 120, a hub unit 130, and a radio unit 140. Here, the components included in the antenna distribution system 100 are not limited thereto. Meanwhile, the transmission medium (cable infrastructure) for signal transmission between the respective components included in the antenna distribution system 100 is preferably an optical cable, but is not limited thereto. The UTP (Unshielded Twisted Pair) cable and the RF ) Cable may be used.

The antenna distribution system 100 according to the present embodiment has a structure capable of diagnosing radio performance of the radio unit 140 itself in the system so that the performance of the radio unit 140 can be measured and measured remotely without a separate measuring instrument. So that it can be monitored at all times.

The antenna distribution system 100 incorporates a test signal generating means for generating a test signal for diagnosing the radio performance of the radio unit 140 in the system so that the state of the entire system and self diagnosis can be performed using the test signal .

Since the antenna dispersion system 100 is capable of measuring radio performance with respect to all the radio units 140 in the system, it is possible to more easily grasp the radio unit in which the abnormality has occurred compared to the existing system, The time and cost consumed by the system can be reduced.

1, in order to more clearly illustrate the radio performance diagnosis service procedure for the radio unit 140 performed in the antenna distribution system 100, a downlink signal transmitted from the RRH group 110 to a mobile station Link process, it will be appreciated by those skilled in the art that the antenna distribution system 100 may perform an uplink process to transmit a radio signal received from the terminal to the RRH group 110. [

The RRH group 110 is a group in which at least one RRH (the first RRH, the second RRH, and the third RRH) is concentrated, and means a central station. At least one radio remote head (RRH) included in the RRH group 110 receives a radio signal transmitted from an exchange in the form of an optical signal, re-converts the received optical signal into a radio signal, . In the present embodiment, one or more RRHs in the centralized station are concentrated, but the present invention is not limited thereto. Various types of data base stations supporting 2G, 3G and LTE frequencies may be concentrated.

The signal distributor 120 refers to a device that relays signals between one or more RRHs in the RRH group 110 and a radio unit 140 installed in the service area. The signal distributor 120 may relay radio signals received from one or more RRHs in the RRH group 110 directly to the radio unit 140 and may transmit the radio signals to the radio unit 140 via the hub unit 130, (140). The signal distributor 120 is preferably installed inside the RRH group 110 and around the RRH group 110, but is not limited thereto.

The signal distributor 120 according to the present embodiment relays signals between at least one RRH in the RRH group 110 and the radio unit 140 installed in the service area, ) For all radio units (140). That is, the signal distributor 120 receives the loop feedback signal for the output signal output from each radio unit 140 in response to the radio signal input from the RRH, and based on the received loop feedback signal, Thereby diagnosing the radio performance for the mobile station 140.

The signal distributing apparatus 120 may include a radio unit to be checked (hereinafter, the radio unit of 140b is an example of a radio unit to be checked) to diagnose radio performance among radio signals input from one or more RRHs when performing a radio performance diagnosis service (Hereinafter, referred to as a corresponding radio signal will be described later). The signal distributor 120 packetizes and outputs a radio signal input from one or more RRHs, and in the case of a corresponding radio signal, a radio signal corresponding to the radio signal of the radio unit 140b And outputs the control command. The signal distributing apparatus 120 according to the present embodiment inserts and outputs a control command for looping back the corresponding radio signal for the radio performance diagnosis of the radio unit to be checked 140b in the packetization process of the corresponding radio signal, The radio unit to be checked 140b can be operated to loop-back the output signal to the signal distributor 120. [

The signal distributor 120 stores node information for each of a plurality of radio units 140a, 140b, and 140c that are provided with mobile communication related services from one or more RRHs, and stores a plurality of radio units 140 Sequentially select the radio unit to be checked. For example, the signal distributor 120 may sequentially select a plurality of radio units 140 as the radio unit to be checked based on the node order for each radio unit 140 assigned in the registration process of the radio unit 140 have. The signal distributor 120 repeatedly performs the process of selecting the next radio unit to be checked based on the node information of each radio unit when the diagnosis of the specific radio unit to be checked is completed, So that radio performance diagnosis can be performed on the radio unit 140. [

The signal distributor 120 includes means for generating test signals 2G, 3G, and LTE, and generates and outputs a specific test signal for wireless performance diagnosis for a specific radio unit by using test signal generating means, 140 in order to perform the wireless performance diagnosis service. For example, when the corresponding radio signal corresponding to the radio unit to be checked 140b to be measured for radio performance is not received from the one or more RRHs in the RRH group 110 for a predetermined period, 140b, and output the test signal for the wireless performance diagnosis. In addition, when the signal distributor 120 receives the radio performance diagnosis request information for the radio unit other than the radio unit to be checked 140b, the signal distributor 120 may generate and output a test signal for the radio performance diagnosis for the other radio unit have. Similarly, the signal distributor 120 inserts a control command for packetizing and outputting a specific test signal so that a specific test signal is loop-fed back for diagnosing the radio performance of a specific radio unit during packetization of a specific test signal, do.

The signal distributing apparatus 120 according to the present embodiment includes a radio performance measuring unit and a test signal generating unit and performs a radio performance diagnosis service for the radio unit 140 using the provided means, The performance of the radio unit 140 can be remotely measured and monitored at all times.

The hub unit 130 is a concentrator that accommodates a plurality of local area network (LAN) terminals, and transmits a radio signal transmitted from the signal distributor 120 to a specific radio unit 140 installed in the city .

The radio unit 140 refers to a device that receives mobile communication related services from one or more RRHs included in the RRH group 110. The radio unit 140 may be installed in a mobile communication service area (Indoor or Outdoor) and may be connected to one or more RRHs in the RRH group 110 via the signal distributor 120 and / or the hub unit 130 ) To a corresponding terminal in the mobile communication service area.

The radio unit 140 according to the present embodiment selectively outputs an output signal corresponding to the radio signal transmitted from the signal distributor 120 during the performance of the radio performance diagnosis service to the signal distributor 120, And the dispersing apparatus 120 is operable to diagnose radio performance for the radio unit 140 based on the loop feedback signal. The radio signal received by the radio unit 140 from the signal distributor 120 may be a radio signal transmitted from one or more RRHs in the RRH group 110 via the signal distributor 120, The test signal may be a test signal for wireless performance diagnosis of the radio unit 140 generated in the wireless unit 140. [

The radio unit 140 determines whether or not the radio signal transmitted from the signal distributor 120 is a monitoring signal for diagnosing the radio performance of the radio unit 140 and transmits the radio signal from the signal distributor 120 And outputs the output signal corresponding to the radio signal to the signal distributor 120 through loop feedback or output to the corresponding terminal. Meanwhile, the radio unit 140 checks whether a control command for loop-feedbacking the corresponding radio signal is included in the header of the radio signal packetized and transmitted from the signal distributor 120, and transmits the radio signal as a monitoring signal .

2 is a block diagram schematically showing a signal distributor according to the present embodiment. The signal distributor 120 according to the present embodiment may perform a downlink process for relaying a radio signal received from one or more RRHs included in the RRH group 110 to a corresponding mobile station, And performs an uplink process for relaying one radio signal to the corresponding RRH in the RRH group 110 at the same time. 2, the downlink process of the signal distributor 120 and the downlink process of the signal distributor 120 are explained in more detail to explain the radio performance diagnosis service method for the radio unit 140 provided by the signal distributor 120 according to the present embodiment. It will be appreciated by those skilled in the art that each component of the signal distributor 120 may perform the uplink process, while focusing on the downlink process during the uplink process.

2, the signal distributing apparatus 120 according to the present embodiment includes a wireless signal transceiver 200, a signal converting unit 210, an output controlling unit 220, an optical transceiver 230, 240).

The radio signal transceiver 200 receives a radio signal input from at least one RRH included in the RRH group 110 and outputs the received radio signal to the signal converter 210.

The signal converting unit 210 converts a radio signal received from the radio signal transceiver 200 into a digital signal in a downlink process and outputs the digital signal. The signal converting unit 210 converts the radio signal transmitted from the terminal via the radio unit 140 into an analog signal in the uplink process and outputs the analog signal. To this end, the signal converter 210 includes an analog-to-digital converter (ADC) 212 and a digital-analog converter (DAC) 214.

The output control unit 220 packetizes the radio signal received from the signal converting unit 210 for each predetermined frame unit. The output control unit 220 according to the present embodiment packetizes and outputs the radio signal received from the signal converting unit 210. In the packetizing process, the radio unit of the radio target to be checked 140b Radio unit, which will be described later).

In the case of a corresponding radio signal corresponding to the radio unit to be checked 140b among the radio signals, the output control unit 220 outputs a radio signal corresponding to the radio signal to the radio unit 140b And inserts and outputs a control command to be fed back. That is, the output controller 220 inserts a control command to the header of the packetized corresponding radio signal so that the corresponding radio signal is loop-fed back to diagnose the radio performance of the radio unit to be checked 140b.

The output controller 220 selects a corresponding radio signal among the radio signals when the notification information about the abnormality of the radio unit to be checked 140 is recognized every predetermined period or by using a data interface unit (not shown).

The output control unit 220 stores node information for each of a plurality of radio units 140 that are provided with mobile communication related services from one or more RRHs included in the RRH 110 group, 140) are sequentially selected as the radio unit to be checked. For example, the output control unit 220 may sequentially select a plurality of radio units 140 as the radio units to be checked based on the node order for each radio unit 140 granted in the registration process of the radio unit 140 . The output control unit 220 may select a particular radio unit as a radio unit to be checked according to a control command received from a user.

The output controller 220 packetizes and outputs a specific test signal when receiving a specific test signal for diagnosing radio performance for a specific radio unit from the signal generation monitoring unit 240. [ At this time, the output control unit 220 inserts a control command to cause a specific test signal to be fed back to diagnose the radio performance of a specific radio unit in the process of packetizing a specific test signal. Accordingly, the signal distributor 100 according to the present embodiment not only can measure the radio performance for the radio unit to be checked 140b based on the radio signal received from one or more RRHs in the RRH group 110 The radio performance for the radio unit to be checked 140b may be measured using a test signal generated internally.

The output control unit 220 inserts a packetized specific test signal into another packetized radio signal and outputs the inserted test signal. That is, the output control unit 220 allocates the signal path for the test signal to the inside of the digital frame, so that even during the radio performance diagnosis service process for the radio unit 140, the radio unit for inspection 140b The remaining radio units operate so that normal mobile communication services can be performed without service interruption.

The output control unit 220 receives the loop feedback signal for the output signal output from the radio unit for inspection 140b in response to the radio signal (corresponding radio signal or test signal) input from the signal distributor 110, And outputs the received loop feedback signal to the signal generation monitoring unit 240. On the other hand, the output control unit 220 analyzes the uplink radio signal from each radio unit 140 and determines whether or not there is display information (information indicating that the radio signal is a signal fed back for radio performance diagnosis of the radio unit) And selectively outputs a radio signal input from each radio unit 140 to the radio signal transceiver 200 or outputs it to the signal generation monitoring unit 240 according to the confirmation result.

The optical transceiver 230 converts the packetized radio signal into an optical signal by the output control unit 220 and outputs the converted optical signal to the corresponding hub unit 130 or To the radio unit (140).

The signal generation monitoring unit 240 receives the loop feedback signal for the output signal corresponding to the corresponding radio signal or the test signal from the radio unit for inspection 140b, RTI ID = 0.0 > 140b. ≪ / RTI > The signal generation monitoring unit 240 generates EVM (Error Vector Magnitude), Adjacent Channel Leakage Ratio (ACLR), and SEM (Spectrum Emission Mask) for the output signal of the check target radio unit 140b based on the received loop feedback signal, Gain information and output power, and determines whether or not the radio unit to be checked 140b is abnormal according to the measurement result. On the other hand, the signal generation monitoring unit 240 outputs the radio performance condition diagnosis result for the radio unit to be checked 140b in a form matched with the predetermined report format, thereby enabling the system administrator to check the performance of the system and to perform self diagnosis do.

The signal generation monitoring unit 240 includes test signal generating means (not shown), and generates and outputs a specific test signal for diagnosing radio performance for a specific radio unit by using the test signal generating means. For example, when the corresponding radio signal corresponding to the radio unit to be checked 140b is not received from the one or more RRHs for a predetermined period, the signal generation monitoring unit 240 generates a test signal And outputs it. When the signal generation monitoring unit 240 receives the radio performance diagnosis request information for the radio unit other than the radio unit to be checked 140b, the signal generation monitoring unit 240 may generate and output a test signal for the radio performance diagnosis for the other radio unit . Thereafter, the signal generation monitoring unit 240 receives the loop feedback signal for the output signal output from the specific radio unit corresponding to the specific test signal, and outputs the radio performance state for the specific lid unit based on the received loop feedback signal Monitoring.

3 is a block diagram schematically showing a radio unit according to the present embodiment.

3, the radio unit 140 according to the present embodiment includes an optical transceiver 300, an output control unit 310, a wireless signal transceiver 320, a filter unit 330, and a switching unit 340 do.

The optical transceiver 300 receives the optical signal transmitted from the signal distributor 120 relaying the signal between the at least one RRH included in the RRH group 110 and the radio unit 140, Signal and outputs it. The optical signal received by the optical transceiver 300 from the signal distributor 120 may be a downlink signal downlinked from the at least one RRH included in the RRH group 110 via the signal distributor 120, But is not limited to, a test signal for wireless performance diagnosis of the radio unit 140 generated from the apparatus 120. [ 3, the radio unit 140 receives a radio signal in the form of an optical signal from the signal distributor 120. However, the present invention is not limited thereto. For example, the radio unit 140 may be configured to receive a digital electrical signal 140 when the signal distributor 120 relays a radio signal received from one or more RRHs in the RRH group 110 to the radio unit 140 via the hub unit 130. [ Type wireless signal. In this case, optical transceiver 300 may be replaced with another type of transceiver capable of transmitting and receiving radio signals in the form of digital electrical signals.

The output control unit 310 packetizes the radio signal received from the optical transceiver 300 for each predetermined frame unit and outputs the packet. The output control unit 310 analyzes the packetized radio signal and generates a determination result that determines whether the packetized radio signal is a monitoring signal for radio performance diagnosis of the radio unit 140. [ At this time, the output control unit 310 checks whether a control command for loop-feedbacking the corresponding radio signal is included in the header of the packetized radio signal, and discriminates the packetized radio signal as a monitoring signal . Thereafter, the output control unit 310 outputs a result of discrimination of whether or not the packetized radio signal is a monitoring signal, together with the packetized radio signal.

The output control unit 310 packetizes and outputs the loop feedback signal loop-fed back by the switching unit 340. In the packetization process of the loop feedback signal, the feedback signal is output to the radio unit 140 for radio performance diagnosis And inserts and outputs display information indicating that the signal is a feedback signal. That is, the output controller 310 inserts the indication information indicating that the corresponding loop feedback signal is fed back to the radio unit 140 to diagnose the radio performance, and outputs the inserted information to the header of the packetized loop feedback signal.

The wireless signal transceiver 320 receives the packetized wireless signal from the output controller 310 and performs processing on the packetized wireless signal. The wireless signal transceiver 320 includes a data interface 322, a signal converter 324, a frequency converter 326, and an amplifier 328.

The data interface unit 322 performs an interface function for transmitting and receiving signals to and from the output control unit 310.

The signal converting unit 324 converts the packetized radio signal received from the output control unit 310 in the downlink process into an analog signal and outputs the analog signal. The signal converting unit 324 converts a radio signal transmitted from the terminal or a loop feedback signal loop-fed back by the switching unit 340 into a digital signal in the uplink process. To this end, the signal conversion unit 324 is implemented in a form including a digital-analog converter and an analog-digital converter.

The frequency converting unit 326 changes the frequency of the loop feedback signal loop-fed back by the switching unit 340 to a specific frequency corresponding to the uplink signal transmitted from the UE to the corresponding RRH in the RRH group 110 . Generally, in the case of the antenna distribution system 100, a downlink signal transmitted from one or more RRHs included in the RRH group 110 to a corresponding terminal and an uplink signal transmitted from a terminal to a corresponding RRH in the RRH group 110 Different frequencies are used. Accordingly, the frequency converter 326 converts the loop feedback signal having the frequency form corresponding to the downlink signal into the frequency form corresponding to the uplink signal, so that the loop feedback signal is transmitted to the radio signal transceiver 320 without error, To be transmitted to the distributing apparatus 120. [ The frequency converter 326 may be configured to include a mixer and a PLL (Phase Locked Loop).

The amplifier 328 amplifies the radio signal output from the signal converting unit 324 and outputs the amplified radio signal. 3, the wireless signal transceiver 320 includes two amplifiers. However, the present invention is not limited thereto. The number of the amplifiers 328 provided in the wireless signal transceiver 320 is not limited to a specific number.

The filter unit 330 performs a filtering process on the radio signal output from the radio signal transceiver 320 to remove a spurious included in the radio signal.

The switching unit 340 controls the output path of the radio signal according to whether the radio signal output from the radio signal transceiver 320 is a monitoring signal for diagnosing the radio performance of the radio unit 140. At this time, the switching unit 340 confirms whether the wireless signal is a monitoring signal according to the determination result transmitted together with the packetized wireless signal from the output control unit 310. [

When the radio signal output from the radio signal transceiver 320 is a monitoring signal, the switching unit 340 controls the radio signal to be loop-fed back to the signal distributor 120. When the radio signal output from the radio signal transceiver 320 is not a monitoring signal, the switching unit 340 controls the radio signal to be output to the corresponding terminal.

4 is a flowchart for explaining a method for diagnosing abnormality of a radio unit according to the present embodiment.

The signal distributor 120 receives a radio signal input from at least one RRH included in the RRH group 110 (S402).

The signal distributor 120 packetizes and outputs the radio signal received in step S402. In the case of a corresponding radio signal, which is a radio signal corresponding to the radio target to be checked 140b, among the radio signals, A control command for loop-feeding the radio signal for diagnosis of radio performance of the radio unit to be checked 140b is inserted and outputted (S404). In step S404, the signal distributor 120 inserts and outputs a control command to the header of the packetized corresponding radio signal so that the corresponding radio signal is loop-fed back for the radio performance diagnosis of the radio unit to be checked 140b.

On the other hand, in step S404, when the corresponding radio signal corresponding to the radio unit to be checked 140b is not received from the one or more RRHs for a predetermined period of time, A test signal can be generated and output. In addition, when the signal distributing apparatus 120 receives the radio performance diagnosis request information for the radio unit other than the radio unit to be checked 140b, the signal distributor 120 may generate and output a test signal for the radio performance diagnosis of the other radio unit have.

The signal distributor 120 inserts and outputs a control command that causes the test signal to be fed back for diagnosis of the radio performance of the radio unit 140 during packetization of the test signal.

The signal distributor 120 converts the packetized radio signal into an optical signal in step S404 and transmits the optical signal to each corresponding radio unit (S406). When the test signal is generated in step S404, the signal distributor 120 inserts the packetized test signal between other packetized radio signals and outputs the inserted test signal.

The signal distributor 120 receives the loop-feedback loop feedback signal from the radio unit to be checked 140b (S408). At this time, the loop feedback signal received by the signal distributor 120 in step S408 is a loop feedback signal for the output signal output from the radio unit for inspection 140b corresponding to the corresponding radio signal output in step S404, Is a loop feedback signal for an output signal output from the radio unit 140b to be inspected in response to the test signal generated by the signal distributor 120 in FIG.

The signal distributor 120 monitors the radio performance state of the radio unit to be checked 140b based on the loop feedback signal received in step S408 (S410). After step S410, the signal distributor 120 sequentially selects a plurality of radio units 140 as a radio unit to be checked based on node information for each of a plurality of previously stored radio units, Steps S404 to S408 are repeatedly performed.

Here, steps S402 through S410 correspond to the operations of the output control unit 220 and the signal generation monitoring unit 240 of the signal distributor 120 described above, respectively, and thus the detailed description thereof will be omitted.

5 is a flowchart illustrating a method of providing a radio performance diagnosis service by a radio unit according to the present embodiment.

The radio unit 140 receives the optical signal from the signal distributor 120, converts the optical signal into a radio signal, and outputs the radio signal (S502). The optical signal received by the radio unit 140 from the signal distributor 120 in step S502 is a downlink signal that is downlinked from the one or more RRHs included in the RRH group 110 via the signal distributor 120, And may be a test signal for wireless performance diagnosis of the radio unit 140 generated from the dispersing apparatus 120. [

The radio unit 140 packetizes and outputs the radio signal received in step S502 (S504).

The radio unit 140 analyzes the packetized radio signal in step S504 and determines whether the packetized radio signal is a monitoring signal (S506). In step S506, the radio unit 140 determines whether or not a control command for loop-feeding the radio signal is included in the header of the packetized radio signal, and determines the packetized radio signal as a monitoring signal do. The radio unit 140 outputs a result of discrimination as to whether or not the packetized radio signal is a monitoring signal, together with the packetized radio signal.

The radio unit 140 checks whether the packetized radio signal is a monitoring signal according to the discrimination result determined in step S506 (S508). If the packetized radio signal is not a monitoring signal according to the check result obtained in step S508 , The packetized radio signal is output to the corresponding terminal (S510).

If the packetized radio signal is a monitoring signal according to the confirmation result obtained in step S508, the radio unit 140 provides the looped-back feedback of the packetized radio signal to the signal distributor 120 (S512). In step S512, the radio unit 140 packetizes and outputs a loop feedback signal loop-fed back to the signal distributor 120. In the packetization process of the loop feedback signal, the feedback signal is transmitted to the radio unit 140 And inserts display information indicating that the signal is fed back for diagnosis and outputs it.

In step S512, the radio unit 140 transmits the frequency of the loop feedback signal loop-fed back to the signal distributor 120 to a specific frequency corresponding to the uplink signal transmitted from the UE to the corresponding RRH in the RRH group 110 And output it.

Steps S502 to S512 correspond to the operations of the output control unit 310, the radio signal transceiver 320, and the switching unit 340 of the radio unit 140 described above, respectively, so that detailed description will be omitted.

6 is an exemplary view illustrating a method for diagnosing radio performance of a radio unit according to the present embodiment.

As shown in FIG. 6, the signal distributing apparatus 120 according to the present embodiment generates and outputs a specific test signal for radio performance diagnosis of a specific radio unit, for example, the radio unit to be checked (RU # 1: 140a) So that the radio performance diagnosis service for the radio unit to be checked can be performed. At this time, the signal distributor 120 may transmit a specific test signal to the radio unit to be checked via the hub unit (HU # 1: 130a).

The signal distributing apparatus 120 receives the loop feedback signal for the output signal output corresponding to the specific test signal from the radio unit to be monitored and monitors the radio performance status for the radio unit to be checked based on the received loop feedback signal do.

Upon completion of the radio performance diagnosis of the radio unit to be checked, the signal distributor 120 sequentially selects other radio units provided in the system as the radio unit to be checked based on the node information of each radio unit previously stored. Thereafter, the signal distributor 120 generates and outputs a specific test signal for the radio performance diagnosis for the new radio target unit to be checked, and outputs the rope feedback for the output signal corresponding to the specific test signal from the new radio unit to be checked Signal to monitor a radio performance state for a new radio unit to be checked, so that the radio performance can be diagnosed for all the radio units provided in the system.

6, the signal distributor 120 generates a specific test signal for diagnosing the radio performance of the radio unit to be checked, and in response to the test target radio unit, The present invention is not limited to this example. The signal distributor 120 monitors the radio performance state of the radio unit to be checked using the loop feedback signal from the radio unit to be checked in response to the radio signal input from one or more RRHs in the RRH group 110 It is possible.

7 is an exemplary diagram illustrating an output form of a test signal according to the present embodiment.

As shown in FIG. 7, the signal distributing apparatus 120 according to the present embodiment packetizes and outputs a specific test signal for diagnosing radio performance for a specific radio unit, and outputs a packetized specific test signal as an existing packetized Inserted between the other radio signals. The signal distributor 120 according to the present embodiment allocates the signal path for the specific test signal separately within the digital frame so that even during the performance of the radio performance diagnosis service for the radio unit 140, ) Operates in a normal radio communication service without service interruption in the remaining radio units.

The foregoing description is merely illustrative of the technical idea of the present embodiment, and various modifications and changes may be made to those skilled in the art without departing from the essential characteristics of the embodiments. Therefore, the present embodiments are to be construed as illustrative rather than restrictive, and the scope of the technical idea of the present embodiment is not limited by these embodiments. The scope of protection of the present embodiment should be construed according to the following claims, and all technical ideas within the scope of equivalents thereof should be construed as being included in the scope of the present invention.

100: antenna dispersion system 110: RRH group
120: signal distributor 130: hub unit
140: radio unit 200: radio signal transceiver
210: signal conversion unit 220: output control unit
230: optical transceiver 240: signal generation monitoring section
330: filter unit 340: switching unit

Claims (18)

A wireless signal transceiver for receiving a wireless signal input from one or more RRHs included in an RRH group;
Wherein the corresponding radio signal is packetized and output, and when a corresponding radio signal is a radio signal corresponding to a radio unit (RU) to be checked among the radio signals, An output control unit for inserting and outputting a control command for loop-feedback to diagnose radio performance of the radio unit to be checked;
An optical transceiver for converting the packetized radio signals into optical signals and transmitting the optical signals to corresponding radio units; And
Receiving a loop feedback signal for an output signal corresponding to the corresponding radio signal in the radio unit to be monitored and generating a signal generation signal for monitoring a radio performance state for the radio unit to be checked based on the loop feedback signal The monitoring section
And a signal distributor for distributing the signals. The method according to claim 1,
Wherein the output control unit comprises:
When the alarm information for the predetermined period or the abnormality of the radio unit to be checked is recognized, the control unit selects the corresponding radio signal among the radio signals and inserts the control command in the packetization process of the corresponding radio signal . The method according to claim 1,
Wherein the output control unit comprises:
Storing the node information for each of the plurality of radio units receiving the mobile communication related service from the one or more RRHs, and sequentially selecting the plurality of radio units as the radio unit to be checked based on the node information Dispersing device. The method according to claim 1,
Wherein the output control unit comprises:
And inserts the control command into the header of the packetized corresponding radio signal. The method according to claim 1,
Wherein the signal generation monitoring unit comprises:
Measuring a part or all of EVM (Error Vector Magnitude), ACLR (Adjacent Channel Leakage Ratio), SEM (Spectrum Emission Mask), gain information and output power of the output signal based on the loop feedback signal, And judges whether or not the radio unit to be checked is abnormal according to the measurement result. The method according to claim 1,
Wherein the signal generation monitoring unit comprises:
And a test signal generating means for generating and outputting a specific test signal for diagnosing radio performance for a specific radio unit by using the test signal generating means. The method according to claim 6,
Wherein the signal generation monitoring unit comprises:
Generating a test signal for radio performance diagnosis of the radio unit to be checked if the corresponding radio signal is not received from the one or more RRHs for a predetermined period of time, And generates a test signal for wireless performance diagnosis of the other radio unit when the information is received. The method according to claim 6,
Wherein the output control unit comprises:
And a control command for causing the specific test signal to loop-feedback for diagnosis of the radio performance of the specific radio unit is inserted and output in the packetizing process of the specific test signal, And a signal path for the test signal is separately allocated in the digital frame and output. 1. A radio unit for receiving a paging communication related service from at least one RRH included in an RRH group,
An optical transceiver for receiving an optical signal transmitted from a signal distributor relaying a signal between the RRH and the radio unit, converting the optical signal into a radio signal, and outputting the radio signal;
An output control unit for packetizing and outputting the radio signal and analyzing the packetized radio signal to generate a discrimination result for discriminating whether or not the packetized radio signal is a monitoring signal for radio performance diagnosis of the radio unit; And
A switching unit for controlling the output path of the packetized radio signal according to the determination result to loop-back the packetized radio signal to the signal distributor or outputting the packetized radio signal to a terminal corresponding to the packetized radio signal,
≪ / RTI > 10. The method of claim 9,
And a controller for receiving the packetized radio signal and amplifying the packetized radio signal, wherein the switching unit is provided between the output control unit and the switching unit, amplifies and amplifies the packetized radio signal, Further comprising: a radio signal transceiver for outputting the radio signal to a corresponding specific frequency. 10. The method of claim 9,
Wherein the output control unit comprises:
Wherein the control unit checks whether a control command for loop-feedbacking the radio signal is included in a header of the packetized radio signal, and discriminates the packetized radio signal as the monitoring signal according to a result of the check. unit. 10. The method of claim 9,
Wherein the output control unit comprises:
And packetizing and outputting a loop feedback signal loop-fed back by the switching unit, and in the packetization process of the loop feedback signal, display information indicating that the loop feedback signal is a signal fed back for wireless performance diagnosis for the radio unit And outputs the radio signal. 10. The method of claim 9,
Wherein the optical signal received from the signal distributor is a downlink signal downlinked from the RRH or a test signal for wireless performance diagnosis of the radio unit generated from the signal distributor. A method for diagnosing an abnormality in a radio unit in which a signal distributing apparatus is provided with a mobile communication related service from an RRH group,
Receiving a radio signal input from at least one RRH included in the RRH group;
Wherein the radio signal is packetized and output, and in the case of a corresponding radio signal, which is a radio signal corresponding to the radio unit to be checked, among the radio signals, in the packetization process of the corresponding radio signal, A packetization process for inserting and outputting a control command for performing loop feedback for performance diagnosis;
A transmission process of converting the packetized radio signal into an optical signal and transmitting the optical signal to each corresponding radio unit; And
A monitoring process of monitoring a radio performance state of the radio unit to be checked based on the loop feedback signal, receiving a loop feedback signal for an output signal corresponding to the corresponding radio signal in the radio unit to be checked,
Wherein the radio unit diagnosis method comprises the steps of: 15. The method of claim 14,
Generating and outputting a test signal for wireless performance diagnosis of the radio unit to be checked if the corresponding radio signal is not received from the one or more RRHs for a predetermined period; And
Further comprising the step of generating and outputting a test signal for wireless performance diagnosis of the other radio unit when the radio performance diagnosis request information for the radio unit other than the radio unit to be checked is received. A method of diagnosing a radio unit of a device. A method of controlling an output of a radio unit for providing a radio performance diagnosis service,
An outputting step of receiving an optical signal from a signal distributor relaying a signal between at least one RRH included in the RRH group and the radio unit, converting the optical signal into a radio signal, and outputting the radio signal;
A packetization process for packetizing and outputting the radio signal and generating a determination result of analyzing the packetized radio signal and determining whether the packetized radio signal is a monitoring signal for diagnosing radio performance of the radio unit ; And
An output control step of controlling the output path of the packetized radio signal according to the determination result to loop-back the packetized radio signal to the signal distributor or outputting the packetized radio signal to a terminal corresponding to the packetized radio signal
And outputting the output signal to the radio unit. 17. The method of claim 16,
Further comprising the step of changing the frequency of the loop feedback loop feedback signal to a specific frequency corresponding to the uplink signal transferred from the terminal to the RRH in the output control process and outputting . 18. The method of claim 17,
And packetizing and outputting the loop feedback signal and inserting display information indicating that the loop feedback signal is a signal fed back for wireless performance diagnosis for the radio unit in the process of packetizing the loop feedback signal, And outputting the output signal to the radio unit.

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