KR101073464B1 - method for controlling repeater of base station in mobile telecommunication system - Google Patents

Abstract

The present invention stops the operation of the repeater when there is no signal or when a signal from another operator operating the mobile communication system is received. The present invention relates to a base station repeater control method of a mobile communication system.

A method of controlling a base station repeater in a mobile communication system according to an aspect of the present invention includes the steps of: (a) maintaining a repeater in an operating state at predetermined intervals; (B) determining whether the operator identification information for identifying the carrier is successfully extracted from the downlink signal transmitted from the base station before the total test reference time T _R1 elapses from the arrival of the period; In the step (b), if the operator identification information is successfully extracted before the total test reference time T _R1 elapses, the operator identification information is compared with a predetermined combination information and the repeater is operated. The repeater operation may be performed when the extraction of the operator identification information fails until the step (c) of maintaining and the total test reference time T _R1 elapses or when the operator identification information is not compared with a predetermined combination information. Stopping (d).

Mobile communication, base station, repeater, control, frequency, stop, time

Description

{Method for controlling repeater of base station in mobile telecommunication system}

The present invention relates to a method for controlling a base station repeater in a mobile communication system, and more particularly, to a method for controlling a base station repeater in a mobile communication system which stops an operation of a repeater when there is no signal or a signal from another operator operating a mobile communication system is received. It is about.

In general, a wireless communication system aims to provide a high quality communication service to a subscriber anywhere. Accordingly, in recent years, mobile communication systems have searched for shaded areas with poor mobile communication services and installed wireless repeaters (hereinafter, simply referred to as 'relays') in the shaded areas.

Repeater installed in the shadow area as described above amplifies and transmits a weak signal. That is, the repeater amplifies the forward signal transmitted from the system (the configuration including the base station and the exchange in mobile communication) to the terminal side, and amplifies the reverse signal transmitted from the terminal side to the system side.

On the other hand, the mobile operator provides a communication service to the subscriber through a fixed communication access method within the frequency assigned by the government and conducts business by collecting a communication fee accordingly. However, because radio frequency is a public property, it may be redistributed to other operators, and technology may change to another communication method due to the development of technology.

As such, when the frequency currently being operated is redistributed to another operator or becomes empty, or when the communication method is changed, the repeater designed according to the frequency or communication method is continuously operated. There is a problem that not only interfere with the signal of the other frequency band but also act as a large noise.

And a technique for solving such a problem has been disclosed in the Patent No. 852675 (hereinafter referred to as "prior invention"), Figure 1 is a block diagram of a wireless relay device according to an embodiment of the prior invention, 2 is a flowchart illustrating the operation of the radio relay apparatus of the present invention.

1 and 2, the wireless relay apparatus 3 according to an embodiment of the present invention relays a signal between a base station BS and a mobile station MS in a W-CDMA wireless communication system. As an apparatus for transmitting a signal, a base station antenna 10 receives a transmission signal of a base station, amplifies the received signal by an amplifier 341 included in the downlink relay unit 34, and then downlinks the amplified downlink. DL) signals from the mobile station side antenna 11. As a result, signal relay in the DL direction from the base station to the mobile station is executed.

The radio relay apparatus 3 further receives the transmission signal of the mobile station by the mobile station antenna 11, amplifies the received signal by the amplifier 351 included in the uplink relay section 35, The uplink (UL) signal is transmitted from the base station side antenna 10. Accordingly, signal relay in the UL direction from the mobile station toward the base station is executed.

In more detail, the base station side antenna 10 is an antenna for receiving a signal transmitted from a base station and transmitting a signal to the base station. The mobile station side antenna 11 is an antenna that transmits a signal to a mobile station and receives a signal transmitted from the mobile station.

A duplexer 12 is provided for sharing the base station side antenna 10 for transmission and reception, and a duplexer 13 is provided for sharing the mobile station side antenna 11 for transmission and reception.

Next, the downlink repeater 34 has an amplifier 341 and a switch 342. The amplifier 341 is an amplifier that amplifies the power in the downlink frequency band, and amplifies and outputs the power of the signal output from the duplexer 12. The switch 342 is provided on a wiring connecting the amplifier 341 and the duplexer 13. The switch 342 is a circuit for electrically connecting or disconnecting between the amplifier 341 and the mobile station side antenna 11 in accordance with the control signal S1 output from the relay control section 37 to be described later. That is, the switch 342 is a circuit which cuts off the signal input from the amplifier 341 to the mobile station antenna 11 in order to stop the downlink relaying process by the downlink relay 34.

The uplink relay 35 has an amplifier 351 and a switch 352. The amplifier 351 is an amplifier for power amplification in the uplink frequency band, and amplifies and outputs the power of the signal input from the duplexer 13. The switch 352 is provided on the wiring connecting the amplifier 351 and the duplexer 12. The switch 352 is a circuit for electrically connecting or disconnecting between the amplifier 351 and the base station side antenna 10 in accordance with the control signal S1 output from the relay control section 37 to be described later. That is, the switch 352 is a circuit that cuts off the signal input from the amplifier 351 to the base station side antenna 10 to stop the uplink relaying process by the uplink relay unit 35.

The amplifiers 341 and 351 may be a variable gain amplifier having an AGC (Automatic Gain Control) circuit for controlling the signal power after amplification to be constant, or may be a fixed gain amplifier having a substantially constant gain.

The operator identification information acquisition unit 36 acquires the operator identification information from the downlink signal transmitted from the base station (step S10). Here, the carrier identification information is information for identifying a carrier that provides a mobile communication service. In other words, the carrier identification information transmitted from the base station is a signal indicating the existence of the base station and is also a signal indicating a communication provider that is the source of the signal.

The relay control unit 37 combines the operator identification information acquired by the operator identification information acquisition unit 36 with the combination information (step S20). Here, the combination information is information for verifying whether or not the company identification information acquired by the company identification information acquisition unit 36 indicates a company to be subjected to signal relay. Specifically, what is necessary is just to make company identification information corresponding to the business operator which should be the target of signal relaying as information for combination. For example, in the case of the W-CDMA system, the combination information may be PLMNid (Public Land Mobile Network Country Code) corresponding to a provider to be subjected to signal relay.

In addition, the relay control unit 37 controls (steps S30 to S50) the operation of the switches 342 and 352 by the control signal S1 in accordance with the combination result of the operator identification information and the combination information. Specifically, when the operator identification information and the combination information match, the relay control section 37 closes the switches 342 and 352 to enable signal relay in the downlink direction and the uplink direction (step S40).

On the other hand, when the operator identification information and the combination information do not match, the relay control section 37 opens the switches 342 and 352 to stop signal relay in the downlink direction and the uplink direction (step S50).

However, according to the above-described method of controlling a wireless relay device, even if the frequency band allocated to the self is not recovered and there is no countermeasure, there is no countermeasure for this, even though the operator identification information itself cannot be obtained. Even if the operator identification information cannot be obtained due to a temporary market or an error in the base station or the operator identification information acquisition unit, the operation of the repeater is immediately stopped without considering this, which may cause a more fatal problem.

The present invention has been made to solve the above-mentioned problems, and stops the operation of the repeater when there is no signal or when a signal from another operator operating the mobile communication system is received, the temporary failure of the base station or operator identification information acquisition unit or An object of the present invention is to provide a method for controlling a base station repeater in a mobile communication system to correct an irrationality in which a repeater stops an operation due to an error.

According to an aspect of the present invention, there is provided a method for controlling a base station repeater in a mobile communication system, the method including: maintaining a repeater in an operating state at predetermined intervals; (B) determining whether the operator identification information for identifying the carrier is successfully extracted from the downlink signal transmitted from the base station before the total test reference time T _R1 elapses from the arrival of the period; In the step (b), if the operator identification information is successfully extracted before the total test reference time T _R1 elapses, the operator identification information is compared with a predetermined combination information and the repeater is operated. The repeater operation may be performed when the extraction of the operator identification information fails until the step (c) of maintaining and the total test reference time T _R1 elapses or when the operator identification information is not compared with a predetermined combination information. Stopping (d).

According to another aspect of the present invention, there is provided a method for controlling a base station repeater in a mobile communication system, the method comprising: (h) maintaining a repeater in an operating state at predetermined intervals; (I) determining whether a total test reference time T _R1 has elapsed since the time point at which the cycle is reached; Repeating the operation of the repeater for the switch-on reference time (T _R3 ) and stopping the operation of the repeater for the switch-off reference time (T _R2 ) while the identification of the carrier identification information for identifying the carrier from the downlink signal transmitted from the base station (J) determining whether the extraction is successful; When the operator identification information is compared with the predetermined combination information in a state in which the extraction of the operator identification information is succeeded in step (j) before the total test reference time T _R1 in step (i) elapses (K) maintaining the repeater in an operating state in step (i) until the total test reference time (T _R1 ) has elapsed until the extraction of the operator identification information in step (j) or the operator identification (L) stopping the operation of the repeater in case of inconsistency by comparing the information with the predetermined combination information.

In the above configuration, the operation of the repeater and its suspension consists of turning on or off the power amplifier switch of the repeater.

According to the method of controlling the base station repeater of the mobile communication system of the present invention, it is more lethal such as stopping the operation of the repeater without controlling the operation of the repeater by fully considering the temporary failure or error of the base station or the operator identification information acquisition unit. Problems can be prevented from occurring.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment of the instrument control method of the base station of the mobile communication system of the present invention.

FIG. 3 is a flowchart illustrating a repeater control method of a mobile communication system according to an aspect of the present invention. In FIG. 1, the relay control unit 37 is performed as a subject. As shown in FIG. 3, according to the method for controlling a base station repeater (wireless repeater) of the mobile communication system of the present invention, first, in step S100, the relay control unit 37 performs a predetermined period, for example, an operation immediately before the test (test). It is determined whether one day, one week, one month or one year has elapsed since the point of time. If it has not elapsed, step S100 is repeated, whereas if it has passed, the process proceeds to step S110, where the switches 342 and 352 It is determined whether it is currently on, that is, it is currently performing a function as a base station relay.

As a result of the determination in step S110, when the current switches 342 and 352 are not turned on, that is, when they are not currently performing the function of the base station repeater, the process proceeds to step S120 for testing and the switch 342, (( 352) is temporarily turned on, in which case it may be necessary, for example, to allow the base station repeater, which has ceased operation, to function again as a repeater.

When the switches 342 and 352 are turned on in this manner, RF signals are transmitted and received between the amplifiers 341 and 351 and the duplexers 12 and 13. In this case, the operator identification information acquisition unit 36 attempts to acquire the operator identification information from the downlink signal transmitted from the base station, and then transfers the result to the relay control unit 37. Accordingly, the relay control unit 37 performs step S130. In step S140, the operator identification information is extracted and whether the extraction is successful.

As a result of the determination in step S140, when the extraction of the operator identification information is successful, the program proceeds to step S170 to compare the combination identification information with the operator identification information acquired by the operator identification information acquisition unit 36. Here, the combination information is information for verifying whether or not the company identification information acquired by the company identification information acquisition unit 36 indicates a company to be subjected to signal relay. Specifically, what is necessary is just to make company identification information corresponding to the business operator which should be the target of signal relaying as information for combination. For example, in the case of the W-CDMA system, the combination information may be PLMNid (Public Land Mobile Network Country Code) corresponding to an operator to be subjected to signal relay.

Next, the relay control unit 37 determines whether the operator identification information and the combination information match in step S180. If there is a match, the relay control unit 37 proceeds to step S300 to maintain the switches 342 and 352 in the closed state. If the signal relay processing in the direction and the uplink direction is continued, but does not match, the process proceeds to step S400 to stop the signal relay in the downlink direction and the uplink direction by opening the switches 342 and 352.

On the other hand, when the determination result in step S140 is not successful in extracting the operator identification information, the process proceeds to step S160 and the predetermined predetermined total test reference time T _R1 from the time point of arrival of the cycle in step S100, for example, the base station. In the event of a failure, it is determined whether 2 to 4 hours of mean time to repair (MTTR) have elapsed. As a result of the determination in step S160, if the total test reference time (T _R1 ) has not elapsed, the cause of failing to acquire the operator identification information is due to the temporary failure or error of the base station or the operator identification information acquisition unit 36 to date. If it is determined that the cause may be due to the return to step S130, but fails to acquire the operator information until the total test reference time (T _R1 ) has elapsed, the cause may be a failure or temporary failure of the base station or operator identification information acquisition unit 36 It is determined that the frequency band allocated to itself is not caused by an error, but because the frequency band itself is recovered and does not exist, and the flow proceeds to step S400 to open the switches 342 and 352 to relay the signal in the downlink direction and the uplink direction. Stop it.

FIG. 4 is a flowchart illustrating a repeater control method of a mobile communication system according to another aspect of the present invention. Since step S140 is the same as the flowchart of FIG. 3, a detailed description thereof will be omitted.

As a result of the determination in step S140, when the extraction of the operator identification information is not successful, the flow proceeds to step S150, where the predetermined time is set for the switch-on reference time T _R3 , for example, the time required to extract the operator identification information in the normal case. Determine if 2 minutes have elapsed.

As a result of the determination in step S150, if the switch-on reference time T _R3 has not elapsed, the program returns to step S140, whereas if it has elapsed, the program proceeds to step S160 again and the total test reference time T _R1 described above. Determine if this has elapsed. As a result of the determination in step S160, if the total test reference time T _R1 has not elapsed, the process proceeds to step S190 to turn off the power amplifier switches 14 and 20, and again in step S200, the switch predetermined from this point in time. It is determined whether the off reference time T _R2 , for example, 5 minutes has elapsed. As a result of the determination in step S200, if the switch-off reference time T _R2 has not elapsed, step S200 is repeatedly performed, but if it has elapsed, the process proceeds to step S120 to close the switches 342 and 352 again. After the step S130 is performed.

On the other hand, when the total test reference time T _R1 has passed as a result of the determination in step S160, the cause of the failure to extract the operator identification information is not caused by a failure or a temporary error by the base station or the operator identification information acquisition unit 36, but by itself. It is determined that the frequency band itself assigned to the network is not present and does not exist, and the flow proceeds to step S400 to stop the signal relay in the downlink direction and the uplink direction by opening the switches 342 and 352. In FIG. 4, the size of each reference time may be determined as T _R1 > T _R2 > T _R3 .

The control method of the base station repeater of the mobile communication system of the present invention is not limited to the above-described embodiment, and can be modified in various ways within the scope of the technical idea of the present invention. That is, the above description has been made to stop the operation of the power amplifier which consumes the most power in the repeater, but the present invention is not limited thereto. It may be possible to stop the operation of the repeater by cutting off the power supplied to it. Further, in the above-described embodiment, the description has been made using a down conversion (intermediate frequency) type repeater as an example, but the present invention is not limited thereto, and the present invention may be applied to a zero conversion type repeater. In addition, the present invention may be applied to other mobile communication systems in addition to the general CDMA or WCDMA mobile communication systems.

1 is a block diagram of a wireless relay device according to an embodiment of the present invention;

2 is a flow chart for explaining the operation of the wireless relay device of the present invention;

3 is a flow chart for explaining a base station repeater control method of a mobile communication system according to an aspect of the present invention;

4 is a flowchart illustrating a base station repeater control method of a mobile communication system according to another aspect of the present invention.

*** Explanation of symbols for the main parts of the drawing ***

10, 11: antennae, 12, 13: duplexer,

34: downlink relay, 35: uplink relay,

341, 351: amplifier, 342, 352: switch,

36: business operator identification information acquisition unit, 37: relay control unit

Claims (3)

delete (H) maintaining the repeater in an operational state every predetermined period; (I) determining whether a total test reference time T _R1 has elapsed since the time point at which the cycle is reached; Operator identification information for identifying the carrier from the downlink signal sent from the base station while repeating the operation of the repeater for the switch-on reference time (T _R3 ) and the operation of the repeater for the switch-off reference time (T _R2 ) (J) determining whether or not extraction is successful; When the operator identification information is compared with the predetermined combination information in a state in which the extraction of the operator identification information is succeeded in step (j) before the total test reference time T _R1 in step (i) elapses (K) maintaining the repeater in operation and When the extraction of the operator identification information fails in step (j) until the total test reference time T _R1 in step (i), or when there is a mismatch by comparing the operator identification information with a predetermined combination information And (l) stopping the operation of the repeater. The method of claim 2, The operation of the repeater and the stop thereof is a base station repeater control method of a mobile communication system, characterized in that the power amplifier switch of the repeater on or off.

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