KR101307033B1 - A method and apparatus for determining uplink abnormal state in a distributed antenna system - Google Patents

Abstract

PURPOSE: Uplink error judgment method and apparatus thereof in a distributed antenna system are provided to judge a specific path which is being a problem by controlling more than two independent units of a distributed antenna system through a communication network. CONSTITUTION: A radio frequency unit (RFU) (120) includes a switch, one or more than two amplifiers and a detector. A remote antenna unit (RAU) (320) is connected to one or more micro control units (MCUs). The RAU include a switch and a terminator. The switch selects one path of a signal between the uplink input antenna or terminator. The terminator blocks a signal from the outside. [Reference numerals] (500) Internet; (700) Member terminal

Description

A method and apparatus for determining uplink abnormal state in a distributed antenna system

The present invention relates to a method for controlling a plurality of distributed units in a distributed antenna system to identify a problem path among multiple paths and to notify the user of the problem through the Internet. When a problem occurs in one or more paths in the uplink received through the control of two or more independent units, to determine a specific path where the problem occurs, and to inform the user through the Internet.

Distributed antenna systems are installed to increase service coverage in radio shadow areas such as underground stores, tunnels, subways, and interior spaces of buildings.
Such a distributed antenna system converts RF signals of various bands received from a base station into a single RF signal using a combiner and transmits them to an independent unit installed in a radio shadow area. The transmitted signal is divided into RF signals of various bands using a divider and then transmitted to subscriber stations through multiple antennas.
The distributed antenna system is installed between the base station and the subscriber station, and has two paths, a downlink for transmitting a signal received from the base station to the subscriber station and an uplink for transmitting a signal received from the subscriber station to the base station.
In a distributed antenna system, uplink amplifies a signal of various paths in various bands received from a subscriber station, filters the signal, and transmits the signal to a base station. In this process, since the uplink of the distributed antenna system receives a signal only when a call is made to the subscriber station, it is not always received constantly. Due to this feature, there is a problem in that the uplink is difficult to determine whether there is a system abnormality, unlike the downlink, in which a signal is constantly received and the system can be determined whether there is an abnormality in signal processing.
In particular, the generation of high level noise among system abnormalities that may occur in the distributed antenna system generates a new shadow area by reducing coverage of the base station, thereby causing a problem in that a terminal that does not receive a service causes a drop in data throughput. In addition, the signal-to-noise ratio is lowered, so that the terminal in the service area of the distributed antenna system outputs a larger signal, thus consuming unnecessary power. In addition, due to the characteristics of a distributed antenna system that combines multiple paths and transmits a signal to a base station, if a problem occurs in one or more paths, it may affect the unaffected path and cause a fatal problem in the system. Determination of link abnormalities is very important.
In order to solve the above problems, noise level should be measured in a distributed antenna system, and the presence or absence of an uplink should be determined based on the measured noise level (reverse signal transmission path monitoring system and method of an optical repeater, KR 1020080058557 A).
However, in the case of a conventional distributed antenna system, even if a problem occurs, there is no device that can easily determine it, so it is difficult for a system user to determine whether a problem occurs, and it is more impossible to identify a problem occurring in a plurality of paths. In addition, even if you know whether or not a problem occurs, the problem must be determined by hand, and in order to identify it manually, go to a place where a large number of remote units (hereinafter referred to as RUs) are installed and disconnect the uplink antenna and terminate the terminal. After going to the head end unit (hereafter referred to as HE) and measuring the noise level, there is a lot of trouble.

The present invention has been proposed to solve the above-mentioned conventional problem, and an object of the present invention is to provide a method of determining a specific path in question by controlling two or more independent units of a distributed antenna system through a communication network. .

In order to achieve the above object, a method and apparatus for determining an uplink abnormality in a distributed antenna system according to an embodiment of the present invention include a micro control unit (hereinafter referred to as MCU) having a web server and a switch for determining a signal path. A method for determining an uplink abnormality of a communication system including a distributed antenna system having at least one management terminal, the method comprising: requesting, by a distributed antenna system, a noise level check command to a management terminal; A control step of controlling multiple switches of each unit separated for uplink noise level detection; And detecting and determining whether there is a problem in at least one of a plurality of paths of the uplink.
The requesting of the noise level check command may include: transmitting, by the distributed antenna system, a web page including state information to display the web page on the management terminal; And setting, by the management terminal, a noise level check and a normal operation mode based on the displayed web page.
In the control step, a noise level amplification at a final stage of a unit including a switch for switching a signal received in a unit connected to a receiving antenna in an uplink path from a subscriber station to a base station, and a transmitting antenna in an uplink path. The noise level detector switch for detection is controlled simultaneously by one MCU.
In the detection and abnormality determination step, the signals of all paths are switched to amplify the noise level, the amplified noise level is detected through a detector, the noise level is compared with a threshold value of a steady state, and the noise level is higher than the threshold value. In this case, a detection and comparison step of sequentially switching for each path and further comparing the noise level and the threshold value is included.
A unit connected to an antenna for receiving a signal from the base station and transmitting a signal transmitted to the base station, and a unit connected to an antenna for transmitting a signal transmitted to the subscriber station and receiving a signal of the subscriber station to perform the above steps. In this independently operated distributed antenna system,
A switch that connects to one or more MCUs and routes the signal to one of an uplink output antenna or Noise Detector (hereafter referred to as ND), one or more amplifiers for noise amplification, amplified An RFU unit including a detector for measuring a level of noise; And an RAU unit connected to one or more MCUs and including a switch for selecting one path of an uplink input antenna or a terminator, and a terminator for blocking a signal from the outside.

According to the present invention, a method and apparatus for determining an uplink abnormality in a distributed antenna system can detect a unit in a path in which a problem occurs through control of a distributed unit connected by using a communication network. When a problem occurs, the user can go to the area where the RU is located and immediately deal with it without having to manually disconnect the uplink antenna and determine whether there is a problem with the system.
In addition, even if a problem occurs in more than one path, because it is possible to recognize the problem and solve the problem immediately, there is an effect of increasing the quality of service of the mobile subscriber to the entire band.

1 to 5 are block diagrams illustrating a distributed antenna system according to an embodiment of the present invention.
6 to 8 are flowcharts illustrating a method for determining an uplink abnormality of a distributed antenna system according to an exemplary embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings in order to facilitate a person skilled in the art to easily carry out the technical idea of the present invention. . In the drawings, the same reference numerals are used to designate the same or similar components throughout the drawings. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear. In addition, the present invention may be variously modified and have various embodiments, and specific embodiments will be illustrated in the drawings and described in detail. It should be understood, however, that the invention is not intended to be limited to the particular embodiments, but includes all modifications, equivalents, and alternatives falling within the spirit and scope of the invention.
Terms such as RFU, RU, RAU, etc. may be used to describe various components, but the components should not be limited by the terms. The terms are used only for the purpose of distinguishing one component from another. The terminology used in this application is used only to describe a specific embodiment and is not intended to limit the invention. A singular expression includes a plural expression unless the context clearly indicates otherwise. In the present application, the terms "comprises" or "having" and the like are used to specify that there is a feature, a number, a step, an operation, an element, a component or a combination thereof described in the specification, But do not preclude the presence or addition of one or more other features, integers, steps, operations, elements, components, or combinations thereof.
Hereinafter, with reference to the accompanying drawings, the configuration and embodiment of the present invention will be described in detail.
(Example)
First, the configuration of the system to explain the method and apparatus for determining uplink abnormality in a distributed antenna system will be described in detail as follows. 1 to 5 are block diagrams illustrating a distributed antenna system according to an exemplary embodiment of the present invention.
As shown in FIG. 1, a distributed antenna system consists of an HE 100 and one or more RUs 300.
The HE 100 is a channel combiner (hereinafter referred to as CHC) that combines the MCU 160 controlling the operation of the distributed antenna system, an RF unit (hereinafter referred to as RFU) 120 to process RF signals, and multiple input bands into one. 140). In this case, as shown in FIG. 2, the MCU 160 includes a web server 162 and is connected to the management terminal 600 through the Internet 500. The web server 162 transmits the state information data of the distributed antenna system to the management terminal 600 in the form of a web page. That is, the web server 162 enables the distributed antenna system manager to check the state of the distributed antenna system and control the detailed items through the web browser of the management terminal 600. At this time, the management terminal 600 is a device including a web browser capable of data communication via the Internet, such as personal personal computers, laptops, personal portable terminals, and can display a web page provided with the status information of the distributed antenna system It is composed.
The RU 300 transmits a signal received from the RFU 120 of each band to the subscriber station 700 and simultaneously transmits a signal received from the subscriber station 700 to the RFU 120. Antenna unit (hereinafter referred to as RAU) 320 is included.
The RFU 120 includes a noise detector switch 124 that selects a path to direct the uplink signal to the antenna or the ND 128 as shown in FIG. 3, a noise amplifier 126 that amplifies a low noise level, and a noise level. ND 128 to measure.
As illustrated in FIG. 4, the RAU 320 includes a RAU noise switch 324 for switching an uplink input signal and a terminator 320 for blocking a signal from the outside.

Hereinafter, a method and apparatus for determining an uplink abnormality in a distributed antenna system according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings. FIG. 5 is a block diagram illustrating a distributed antenna system for one path according to an exemplary embodiment of the present invention, and FIGS. 6 to 8 are flowcharts illustrating a method for determining an uplink abnormality in a distributed antenna system. .
First, the MCU 160 of the distributed antenna system requests a noise level check command to the management terminal 600 (S100). The step of requesting a noise level check command will be described in more detail below.
When the manager requests the noise level check operation of the distributed antenna system through the management terminal 600, the distributed antenna system transmits a web page including its own state information to the management terminal 600. The management terminal 600 outputs a web page received from the distributed antenna system and displays state information of the distributed antenna system on the screen (S120).
The manager executes a noise level check operation through the management terminal 600 (S140). The distributed antenna system performs a noise level check command received from the management terminal 600 (S200). That is, the distributed antenna system receives from the management terminal 600 whether the noise level check operation commanded in step S140 described above. As shown in FIG. 5, the MCU 160 of the distributed antenna system controls the RAU noise switch 324 located in the RAU 320 and the noise detector switch 124 located in the RFU 120. At this time, the RAU noise switch 324 in the RAU 320 is for switching the signal input from the subscriber terminal 700, and the noise detector switch 124 in the RFU 120 is a signal output to the BTS 200. It alternates and serves to amplify and detect the noise level.
The step S200 of performing the noise level check command is illustrated in FIG. 8, and is divided into a primary detection process S210 and a secondary detection process S220 to determine whether there is an abnormality. More detailed description is as follows.
The step of determining whether there is an uplink abnormality in the MCU 160 first proceeds to the first detection process (S210). The primary detection process S210 detects noise levels of all installed paths (S212). The detected noise level is detected as one signal through the CHC 140.
The level of noise summed through the CHC 140 is compared with the set primary threshold value (S140). At this time, if the noise level is smaller than the threshold value, the signal is recognized as normal and the current routine is stopped. When the noise level is high compared to the first threshold value, it is determined as abnormal and the second detection process (S200) is performed.
The secondary detection process S200 transfers one path among the plurality of installed paths (S222) and detects a noise level in the remaining paths (S224). The detected noise level is compared with the secondary threshold value (S226). If the noise level is less than the threshold, it recognizes that there is an abnormality in the altered path and recognizes the remaining path as normal and stops the ongoing routine. If the second threshold and the noise level are high, the third-order detection process proceeds by recognizing that a problem has occurred in the remaining paths other than the altered path. In the third case or more, the same procedure as in the second detection process is performed. When the normal state is reached, all routines are terminated, and the check result data is synthesized by the MCU 160 (S230).
When the step of performing the noise level check command (S200) is completed, the MCU 160 transmits a web page including the result synthesized in the noise level check process to the management terminal 600 (S300). The management terminal 600 outputs the web page received from the distributed antenna system and displays the noise level check result information of the distributed antenna system on the screen (S320).

100: HE (Head End Unit) 120: RFU (RF Unit)
124: noise detector switch 126: noise amplifier
128: ND (Noise Detector) 140: CHC (Channel Combiner)
160: microcontrol unit (MCU) 162: web server
200: BTS (Base station Transceiver Subsystem)
300: RU (Remote Unit) 320: RAU (Remote Antenna Unit)
324: RAU noise switch 326: RAU terminator
600: management terminal 700: subscriber terminal

Claims (7)

A distributed antenna system having an MCU having a web server and a switch for determining a signal path, and a method for determining an uplink abnormality of a communication system including at least one management terminal,
Requesting, by the distributed antenna system, a noise level check command to the management terminal;
A control step of controlling multiple switches of each unit separated for uplink noise level detection; And
Uplink abnormality determination method in a distributed antenna system comprising a step of detecting and determining whether there is a problem in one or more of the plurality of paths of the uplink The method according to claim 1,
In the step of requesting a noise level check command,
Transmitting, by the distributed antenna system, a web page including state information to display the web page on the management terminal; And
And determining, by the management terminal, a noise level check and a normal operation mode based on the displayed web page. The method according to claim 1,
In the control phase,
A switch for switching a signal received at a unit connected with a receiving antenna in an uplink path from the subscriber station to the base station;
A method for determining uplink abnormality in a distributed antenna system, characterized in that a single MCU simultaneously controls a noise level detector switch for performing noise level amplification and detection at a final stage of a unit including a transmitting antenna in an uplink path. The method according to claim 1,
In the detection and abnormality determination phase
Amplify the noise level by switching the signals of all paths, detecting the amplified noise level through the detector, comparing the noise level with the threshold of steady state, and sequentially for each path if the noise level is higher than the threshold. Uplink abnormality determination method in a distributed antenna system, characterized in that it comprises a detection and comparison step of additionally comparing the noise level and the threshold value after switching A distributed antenna system in which a unit connected to an antenna for receiving a signal from a base station and transmitting a signal transmitted to the base station and a unit connected to an antenna for transmitting a signal transmitted to a subscriber station and receiving a signal from the subscriber station are independently operated. To
A switch that connects to one or more MCUs and selects one of the paths of the uplink output antenna or the noise level detector, one or more amplifiers for noise amplification, and measures the level of amplified noise. An RFU unit including a detector; And
In the distributed antenna system, comprising a RAU unit connected to one or more MCUs, and including a switch for selecting a path of one of an uplink input antenna or a terminator, and a terminator for blocking a signal from the outside. Uplink abnormality determination device
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