KR101043113B1 - Apparatus and method for monitoring repeater - Google Patents

Abstract

The present invention relates to an apparatus and method for monitoring a repeater, and to an apparatus and method for detecting a repeater for monitoring whether the repeater operates normally by continuously checking the quality of a radio signal provided by the repeater.

The apparatus for monitoring a repeater according to an embodiment of the present invention includes a receiver for receiving a radio signal transmitted by a repeater, a controller for determining the quality of the received radio signal, and a message corresponding to the determination result to the repeater. And a transmitting unit.

Repeater, Abandonment, Reverse Deterioration, Reverse Discontinuity

Description

Apparatus and method for monitoring repeater

The present invention relates to an apparatus and method for monitoring a repeater, and more particularly, to an apparatus and method for detecting a repeater for monitoring whether the repeater operates normally by continuously checking the quality of a wireless signal provided by the repeater.

The mobile communication repeater refers to a device that enables a service for a subscriber by transmitting a signal of a base station to a remotely located place in order to solve a shadow area and to enlarge a size of a mobile communication cell.

As a result, high quality services are available for underground wallpaper, remote islands and remote areas, which are poor in the radio environment in urban areas, remote islands, and urban areas that mobile communication services cannot reach. Mobile communication repeaters are used in the system.

The mobile communication repeater receives a signal from a base station and delivers it to a remote subscriber. The mobile communication repeater is classified into an optical repeater and a radio frequency (RF) repeater according to a signal transmission method between the mobile repeater and the base station. Can be.

An optical repeater refers to a mobile communication repeater transmitting a signal of a base station through an optical fiber, and an RF repeater refers to a mobile communication repeater transmitting a signal of a base station through a wireless channel.

On the other hand, the optical repeater is provided with an alarm function, so if a hardware problem occurs, the optical repeater notifies the repeater management server that the problem has occurred. Thus, the administrator who monitors the repeater management server confirms that a problem has occurred in a specific optical repeater and takes measures to solve the problem of the optical repeater.

However, the optical repeater is not aware of the failure for problems other than hardware failures such as clock problems and phase noise.

That is, since the optical repeater does not correctly transmit the radio signal received from the base station, the coverage of the call occurs to the terminals located in the cell of the optical repeater.

In addition, as the device inside the optical repeater ages, the reverse signal may deteriorate or the reverse wave may occur. Accordingly, the optical repeater may not correctly transmit the signal received from the terminal to the base station.

Therefore, there is a need for the appearance of an invention in which an optical repeater correctly transmits a radio signal for a subscriber terminal and notifies the result.

An object of the present invention is to continuously check the quality of the radio signal provided by the repeater and to monitor whether the forward signal transmitted from the repeater to the terminal and the reverse signal transmitted from the terminal to the base station are normally transmitted.

The objects of the present invention are not limited to the above-mentioned objects, and other objects which are not mentioned will be clearly understood by those skilled in the art from the following description.

In order to achieve the above object, an apparatus for monitoring a repeater according to an embodiment of the present invention includes a receiver for receiving a radio signal transmitted by a repeater, a controller for determining the quality of the received radio signal, and corresponding to the comparison result. And a transmitting unit for transmitting a message to the repeater.

A method for monitoring a repeater according to an embodiment of the present invention includes the steps of receiving a radio signal transmitted by a repeater, determining the quality of the received radio signal and transmitting a message corresponding to the determination result to the repeater It includes a step.

Specific details of other embodiments are included in the detailed description and the drawings.

According to the apparatus and method for monitoring the repeater of the present invention as described above, by continuously checking the quality of the radio signal provided by the repeater to monitor whether the repeater is operating normally, the call coverage deviation phenomenon due to abnormal operation, reverse signal degradation and reverse There is an advantage of preventing the generation of unwanted waves.

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

1 is a view showing a system for monitoring a repeater according to an embodiment of the present invention, the repeater monitoring system includes a repeater management server 110, the base station 120, the repeater 130 and the repeater monitoring device 300 It is composed.

The repeater management server 110 receives the status of the repeater 130 and notifies the manager. Here, the state of the repeater 130 includes not only a hardware operating state but also a state of transmitting radio signals according to various factors.

That is, when a problem occurs in the hardware module included in the repeater 130, the repeater management server 110 may receive a message indicating that a problem occurs in a specific hardware module of the repeater 130, A message indicating that a problem has occurred in transmitting a wireless signal can be received.

The message received by the repeater management server 110 is notified to the manager. With this, the manager can perform maintenance of the repeater 130.

In addition, the repeater management server 110 may control the operation of the repeater 130 by transmitting a control signal to the repeater 130. For example, the repeater management server 110 may transmit a control signal indicating whether to drive to the repeater 130, a control signal for determining the transmission strength of the radio signal, a control signal for requesting the operation state, and the like, It is also possible to transmit the update information of 130).

The control signal transmitted to the repeater 130 also includes a control signal for the repeater monitoring apparatus 300 according to an embodiment of the present invention. That is, the repeater management server 110 may transmit a control signal indicating whether to drive to the repeater monitoring device 300 and a control signal for requesting an operation state, and receives a control signal for the repeater monitoring device 300. The repeater 130 may transmit the received control signal to the repeater monitoring device 300.

The base station 120 is a primary access point of a terminal (not shown), and may transmit and receive various signals and data with the terminal. That is, the base station 120 may perform a wireless modem function consisting of an antenna and a transmission / reception modem. The communication channel from the terminal to the base station is called an uplink channel, and the communication channel from the base station 120 to the terminal is called a downlink channel.

Here, the terminal may be a mobile communication device such as a mobile phone or a personal digital assistant (PDA). The terminal may have a terminal identifier. The terminal identifier is a unique value that identifies the terminal from another terminal and may be assigned for each terminal by the terminal manufacturer or an authorized authority when the terminal is produced.

An information card containing a subscriber identifier can be connected to the terminal. The subscriber identifier is unique information for identifying a subscriber, for example, an International Mobile Subscriber Identity (IMSI). In addition, the information card may generate an authentication value using a predetermined authentication function, which may be used when authenticating a subscriber in a mobile communication network.

The information card may be detachably connected to the terminal or may be fixed to the terminal so that the subscriber does not arbitrarily detach the information card from the terminal. The information card may include a memory capable of storing data and a central processing unit (CPU) capable of performing a predetermined operation. Examples of such information cards include a subscriber identity module (SIM) card and a universal subscriber identity module (USIM) card.

In addition, the base station 120 serves to relay a message or a control signal between the repeater management server 110 and the repeater 130. That is, the repeater 130 may transmit a message indicating its operation state to the repeater management server 110, and the repeater management server 110 may transmit various control signals to the repeater 130. May be transmitted to the relay management server 110 or the repeater 130 by relaying the message and the control signal.

The communication method between the relay management server 110 and the base station 120, and the communication method between the base station 120 and the repeater 130 may be wireless or wired, in particular, between the base station 120 and the repeater 130 in the present invention. The communication scheme includes optical communication connected to each other by an optical cable. Accordingly, the repeater 130 according to the embodiment of the present invention includes an optical repeater.

The repeater 130 performs an operation corresponding to the control signal received from the repeater management server 110 and transmits a message indicating its operation state to the repeater management server 110.

The mobile communication network of the base station 120 and the repeater 130 according to an embodiment of the present invention may be based on Code Division Multiple Access (CDMA), Wideband CDMA (WCDMA), or Global System for Mobile Telecommunication (GSM). However, the present invention is not limited thereto, and the mobile communication network provided by the base station 120 and the repeater 130 may be based on other types of mobile communication schemes.

Meanwhile, in the present invention, the repeater 130 may identify a hardware problem, that is, only a problem occurs in a specific hardware module, and transmit the result to the repeater management server 110. Accordingly, the quality of the radio signal may be checked. You may not be able to. Here, the quality of the radio signal may be understood as the transmission state of the radio signal, and may be understood as the appropriateness of the radio signal strength or the state registration attempt state. For example, when the strength of the radio signal is less than the preset threshold or the repeater monitoring device 300 is in a position registration attempt state, it may be determined that the quality of the radio signal is poor.

To this end, the repeater monitoring apparatus 300 according to an embodiment of the present invention by checking the quality of the radio signal transmitted from the repeater 130, the coverage deviation, reverse signal degradation phenomenon, the occurrence of reverse unwanted wave and attempt to register location It transmits the status to the relay management server 110.

The radio signal transmitted by the repeater 130 includes a forward signal to be transmitted to the terminal and a reverse signal to properly process the signal received from the terminal and transmit the signal to the base station. If the signal is out of range, the reverse signal is weak, reverse signal degradation occurs. If the reverse signal strength is abnormally strong, reverse signal disturbance is generated.

In checking the state of the radio signal transmitted from the repeater 130 in order to detect the occurrence of such an abnormal phenomenon, the repeater monitoring device 300 is coupled to the antenna of the repeater 130, the signal transmitted along the connected wire With reference to it can determine the state of the radio signal of the repeater 130.

2 is a diagram illustrating a repeater monitoring apparatus connected to a repeater according to an embodiment of the present invention, in which a wireless signal of the repeater 130 is monitored through a conductor coupled to an antenna 135 of the repeater 130. Is a diagram illustrating delivery to the device 300.

As the wireless signal is received from the repeater 130, the repeater monitoring apparatus 300 determines the quality of the received wireless signal, generates a message according to the result, and transmits the message to the repeater 130.

As described above, when a hardware problem occurs, the repeater 130 transmits a message about the message to the repeater management server 110. Accordingly, the repeater 130 includes a means (not shown) for transmitting a message. It can be understood that there is.

That is, when the message generated by the repeater monitoring apparatus 300 is delivered to the repeater 130, the repeater 130 transmits the message received from the repeater monitoring apparatus 300 using the provided message transmitting means, to the repeater management server 110. To send).

In addition, the repeater 130 may be provided with a message generating means (not shown). Accordingly, the repeater monitoring apparatus 300 generates a signal indicating the state of the received wireless signal and transmits the signal to the repeater 130. The repeater 130 may generate a message corresponding to the signal received from the repeater monitoring device 300 and transmit the message to the repeater management server 110.

For example, when the forward signal does not reach a preset threshold or the repeater monitoring device 300 is in a position registration attempt state, the repeater monitoring device 300 indicates that a problem has occurred in wireless transmission of the repeater 130. Alternatively, a signal is generated and delivered to the repeater 130. When the message is received, the repeater 130 transmits the message to the repeater management server 110, and when receiving the signal, the repeater 130 corresponds to the signal. The message is generated and transmitted to the relay management server 110.

3 is a block diagram showing a repeater monitoring apparatus according to an embodiment of the present invention, the repeater monitoring apparatus 300 is a receiver 310, a transmitter 320, a storage unit 330, a controller 340, a timer 350 ) And a message generator 360.

The receiver 310 serves to receive a radio signal transmitted by the repeater 130. Here, in receiving the radio signal, the receiver 310 may receive a radio signal transmitted through a conductive wire coupled to the antenna 135 of the repeater 130. The receiver 310 may wirelessly receive a signal transmitted from the antenna 135 of the repeater 130 as well as the coupled conductor.

In addition, the receiver 310 serves to receive a control signal transmitted from the repeater management server 110. As described above, the repeater management server 110 may transmit a control signal indicating whether to drive to the repeater monitoring device 300, the receiver 310 serves to receive this.

As such, the receiver 310 may receive a radio signal transmitted from the repeater 130 and a control signal transmitted from the repeater management server 110. For this purpose, the receiver 310 may receive signals for each type. It may be composed of a plurality of different communication means, each communication means may use a different communication scheme.

In addition, as described above, the wireless signal transmitted from the repeater 130 may also be divided into a forward signal and a reverse signal, and each signal may use a different frequency. Accordingly, the receiver 310 receives the forward signal and the reverse signal. It may be provided with a communication means that can be received separately.

The controller 340 determines the quality of the wireless signal received through the receiver 310. At this time, the controller 340 compares an Ec / Io (Energy of Carrier / Interference of Others) or RSSI (Received Signal Strength Indicator) level of a radio signal transmitted to the terminal, that is, a forward threshold signal, or attempts to register a location. You can check the status. A location register (not shown) that performs this for location registration may be provided in the repeater monitoring device 300.

In addition, the controller 340 may compare the difference between the preset reference value and the measured value with respect to the wireless signal transmitted to the base station 120, that is, the reverse signal, with the preset threshold range. Here, the reference value includes a value obtained by subtracting a repeater noise figure from a sum of a reverse noise level and a transmission adjustment value Tx_adj, and the measurement value includes a transmission adjustment value.

In addition, the controller 340 may perform overall control of the receiver 310, the transmitter 320, the storage 330, the timer 350, the message generator 360, and the repeater monitoring apparatus 300. .

For example, when a control signal indicating whether to drive is received from the repeater management server 110, the controller 340 may control the power input to the device to determine whether to drive, and the control signal requesting an operation state is received. In this case, the controller 340 causes the message generator 360 to generate a message in which information on the received wireless signal is specified, and causes the transmitter 320 to transmit the message.

In addition, a new threshold value (or threshold range) may be received from the repeater management server 110. In this case, the controller 340 may compare the newly received threshold value (or threshold range) with the strength of the radio signal of the repeater 130. Can be.

That is, the control unit 340 can be generated and transmitted according to the policy set by the administrator of the relay management server 110, Figure 4 shows a message generation policy table according to an embodiment of the present invention This is a table that includes a message generation policy when a problem occurs in transmission of a forward signal.

The message generation policy table 400 according to an embodiment of the present invention includes at least one of a comparison target field 410, a threshold field 420, and a duration field 430.

In the comparison target field 410, the target to which the strength of the radio signal received from the repeater 130 can be compared is specified. For example, when RSSI is specified in the comparison target field 410, the controller 340 compares the strength of the received radio signal with the RSSI level. On the other hand, the comparison target field 410 may also include a plurality of comparison targets.

In the threshold field 420, the threshold of the comparison target included in the comparison target field 410 is specified. The controller 340 checks whether the received wireless signal has a strength lower than a threshold specified in the threshold field 420.

The duration field 430 specifies the time duration for which the strength of the received wireless signal was below the threshold. That is, the alert message is generated only when the time duration of the wireless signal with the strength below the threshold exceeds the duration specified in the duration field 430.

The message generation policy table 400 according to the embodiment of the present invention may be updated according to a control signal received from the relay management server 110. That is, the manager of the relay management server 110 may transmit update information on at least one of the fields 410, 420, and 430 constituting the message generation policy table 400 to the relay monitoring apparatus 300.

Although the above has described the message generation policy table 400 for the forward signal, a message generation policy table (not shown) for the reverse signal may be provided separately, and the control unit 340 generates and transmits an alarm message with reference thereto. Of course you can.

For example, when the value obtained by subtracting the measured value from the reference value for the reverse signal exceeds the upper limit of the preset threshold range, the controller 340 determines that the reverse signal degradation occurs and the measured value is determined from the reference value for the reverse signal. If the value obtained by subtracting the value exceeds the lower limit of the preset threshold range, the controller 340 determines that a reverse signal disturbance phenomenon has occurred.

3 again, the storage unit 330 stores the message generation policy table 400. The storage unit 330 may include a hard disk, a flash memory, a Compact Flash Card, a Secure Digital Card, an SD Card, a Smart Media Card, an MMC Card, a Memory Stick, or the like. As a module capable of inputting / outputting information, the module may be provided inside the repeater sensing device or may be provided in a separate device. When the storage unit 330 is provided in a separate device, the receiver 310 and the transmitter 320 may transmit and receive information on the message generation policy table 400 by communicating with a separate device.

The timer 350 serves to measure the duration. On the other hand, when the message generation and transmission according to the duration is not performed, the timer 350 may not be provided in the repeater monitoring device 300.

The message generator 360 serves to generate a message. The message generator 360 may separately generate a message when a problem occurs in the forward signal and a message when a problem occurs in the reverse signal.

The transmitter 320 transmits a message generated by the message generator 360. When the message generated by the message generator 360 is an alarm message, the relay management server 110 may be a destination, and the transmitter 320 may transmit the generated message to the relay 130.

That is, the repeater 130 performs continuous communication with the base station 120 through the optical cable, and the base station 120 relays data transmission and reception between the repeater management server 110 and the repeater 130, and the repeater 130. The message transmitted to the relay management server 110 may be delivered to the relay management server 110 via the base station 120.

The communication method between the transmitter 320 and the repeater 130 may be a wired communication method such as Ethernet, USB, IEEE 1394, serial communication, and parallel communication, and may include infrared communication, Bluetooth, and home RF. And wireless communication schemes such as wireless LAN.

5 is a flowchart illustrating a process of monitoring a repeater according to an embodiment of the present invention.

The repeater 130 continuously transmits a wireless signal in order to provide a mobile communication service to a neighboring terminal. A part of the wireless signal transmitted through a conductive line coupled to the antenna 135 of the repeater 130 is transmitted. Transmitted to the repeater monitoring apparatus 300, the receiver 310 receives the transmitted radio signal (S510).

The received wireless signal is transmitted to the control unit 340, and the control unit 340 determines the quality of the received wireless signal (S520). That is, the controller 340 determines whether the strength of the forward signal is less than the preset threshold or the strength of the reverse signal is out of the preset threshold range, or checks whether the current location registration attempt state.

Thus, according to the comparison result of the control unit 340, when the strength of the forward signal is less than the predetermined threshold, the strength of the reverse signal is out of the predetermined threshold range, or the position registration attempt state, the message generating unit 360 is the control unit An alarm message is generated according to the control command of step 340 (S530). Here, the alert message may be understood to be a message indicating that a problem has occurred in the radio signal transmitted by the repeater 130.

The transmitter 320 transmits the alert message to the repeater 130 (S540). Accordingly, the repeater 130 transmits the alert message received through the base station 120 to the repeater management server 110.

On the other hand, when the transmitter 320 is provided with a communication means for communicating with the base station 120, the transmitter 320 may transmit an alert message directly to the base station 120.

The repeater management server 110 receiving the alarm message from the relay monitoring device 300 notifies the manager of the received alarm message, so that the manager can take appropriate measures for the monitoring device.

Although embodiments of the present invention have been described above with reference to the accompanying drawings, those skilled in the art to which the present invention pertains may implement the present invention in other specific forms without changing the technical spirit or essential features thereof. You will understand that. It is therefore to be understood that the above-described embodiments are illustrative in all aspects and not restrictive.

1 is a diagram illustrating a system for monitoring a repeater according to an embodiment of the present invention.

2 is a view showing a form in which a repeater monitoring apparatus according to an embodiment of the present invention is connected to a repeater.

3 is a block diagram showing a repeater monitoring apparatus according to an embodiment of the present invention.

4 is a diagram illustrating a message generation policy table according to an embodiment of the present invention.

5 is a flowchart illustrating a process of monitoring a repeater according to an embodiment of the present invention.

<Explanation of symbols on main parts of the drawings>

310: receiver 320: transmitter

330 storage unit 340 control unit

350: timer 360: message generator

Claims (14)

Receiving unit for receiving a radio signal transmitted by the repeater; A location register that attempts to register a location based on the received wireless signal; The state where the strength of the received wireless signal is less than a preset threshold or a state in which the difference between the strength of the wireless signal and a preset reference value is outside a preset threshold range is maintained for more than a preset duration, or is located in the location register. A controller configured to generate an alarm message when attempting to register; And A transmitting unit which transmits the generated message to the repeater, The repeater is a device for monitoring a repeater, characterized in that for receiving a message transmitted from the transmitting unit in a wired communication method and transmits to a repeater management server. The method of claim 1, And the receiving unit monitors a repeater for receiving the wireless signal transmitted through a conductive wire coupled to the antenna of the repeater. delete delete delete The method of claim 1, The strength of the radio signal is a device for monitoring a repeater comprising an Energy of Carrier / Interference of Others (Ec / Io) or Received Signal Strength Indicator (RSSI) level. delete delete A method for monitoring a repeater in a device for monitoring a repeater connected by wire with a repeater management server, Receiving a radio signal transmitted by a repeater; The state where the intensity of the received radio signal is below a preset threshold or the state where the difference between the intensity of the radio signal and a preset reference value is out of a preset threshold range is maintained for more than a preset duration, or the position registration means is located Generating an alert message when attempting to register; And Transmitting the generated message to the repeater in a wired communication manner. The method of claim 9, Receiving the wireless signal comprises receiving the wireless signal transmitted through a conductive wire coupled to an antenna of the repeater. delete delete delete delete

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