KR100991766B1 - Management and control system for a plurality of mobile repeaters - Google Patents

Abstract

The present invention relates to a supervisory control system for a plurality of relay devices that can efficiently configure and operate a monitoring and control system when a plurality of relay devices are installed. In the present invention, any one of a plurality of relays is set as the master relay 10 and the other relays are set as the slave relay 20. The master relay device 10 includes a communication modem for executing communication with the external management device, and the slave relay device 20 communicates with the external management device through the master relay device 10. Therefore, in the present invention, since the necessity of having a communication modem for executing communication with the external management apparatus is eliminated in the slave relay apparatus, the configuration of the relay apparatus is simplified.

Relay, Modem Sharing

Description

Monitoring and control system for multiple repeaters {Management and control system for a plurality of mobile repeaters}

The present invention relates to a relay device used in a mobile communication system, and more particularly, to a monitoring control system for a plurality of relay devices that can be configured and operated efficiently monitoring and control system in the case of installing a plurality of relay devices will be.

In general, in a mobile communication system, a communication service area is divided into cell units, and a base station is provided in each cell to provide a communication service to a user located in the cell. In addition, in a shaded area where the frequency signal transmitted from the base station is hardly transmitted, a separate relay device is used to provide a high quality communication service to all users in the cell.

On the other hand, when installing and operating a relay device in the cell, it is necessary to monitor the radio wave transmission and reception environment of the relay device from time to time. Therefore, in the conventional relay device, a separate communication modem is provided in the relay device, and the monitoring and control system is configured and operated through the modem. In the configuration of such a monitoring and control system, a modem must be provided in the relay device, which causes a increase in the manufacturing price of the relay device.

On the other hand, with the rapid development of communication technology, even in the case of mobile communication systems, the technological progress is gradually made to the second generation, the 2.5 generation and the third generation. In the case of a mobile communication system, the relay device is also required to have a configuration suitable for a new communication system according to the technical progress thereof. In the conventional case, a plurality of relay devices are installed and operated at one place. In addition, since each of these relays is provided with a modem to configure and operate a monitoring and control system, there is a disadvantage in that the configuration of the relay is unnecessarily expensive.

Accordingly, an object of the present invention is to provide a monitoring and control system for a plurality of relay devices that can be configured and operated at low cost and efficiently. .

Monitoring and control system for a plurality of repeaters according to the present invention for realizing the above object is provided with a plurality of repeaters in the same place, the repeater is a donor antenna for transmitting and receiving RF signals with the base station, the terminal and And amplifying means for amplifying an RF signal received through a donor antenna and a service antenna for transmitting and receiving an RF signal, and transmitting the same to a donor or a service antenna. And a monitoring and control system for a plurality of relays configured to transmit and receive a report message, wherein one of the plurality of relays is set as a master relay, and other relays other than the master relay are slave relays. Configured as a device, the master relay coupled to the donor antenna A communication modem coupled to communicate with an external management device to execute communication with an external management device, and a first device coupled to an external management device through the communication modem to transmit and receive a control message and a report message with an external management device. A control means and a first communication matching means coupled with a plurality of slave devices to execute communication with the slave device, wherein the slave relay device controls the overall operation of the relay device and controls the external management device. And second control means for transmitting and receiving messages and report messages, and second communication matching means for communicating with the master slave device, wherein the master relay receives control messages transmitted from an external management device to the slave relay device. Receive it to the slave relay device via the first communication matching means. And transmitting the report message received from the slave relay device to the external management device, wherein the slave relay device transmits the report message to be transmitted to the external management device to the master relay device through a second communication matching means. .

In addition, the master relay and the slave relay is characterized in that coupled via the UTP cable.

The master relay device and the slave relay device may perform IP communication.

According to the present invention having the above-described configuration, the plurality of slave relay devices communicate with the external management device through the master relay device. Therefore, in the case of the slave relay device, the necessity of having a communication modem for executing communication with the external management device is eliminated, thereby simplifying the configuration of the relay device.

Hereinafter, embodiments according to the present invention will be described with reference to the drawings. However, the embodiments described below exemplify one preferred embodiment of the present invention, and examples of such embodiments are not intended to limit the scope of the present invention. The present invention can be variously modified without departing from the technical idea thereof.

1 is a block diagram showing a monitoring and control system for a plurality of relay apparatus according to an embodiment of the present invention.

In the present invention, a plurality of relays are installed in the same place for the communication shadow area. These relays may each be for a separate communication system or for the same communication system. One of the plurality of relays is set as the master relay and the other is set as the slave relay. In the present invention, the terms master and slave are used on the basis of whether the corresponding relay device has a communication modem for communication with a higher network, and the master relay device is controlled in a superior position with respect to other slave relay devices. It does not mean to execute an action or to perform a relay action.

In FIG. 1, reference numeral 10 denotes a master relay, and 20 (20-1 to 20-n) denotes a slave relay. The slave relays 20-1 to 20-n are coupled in parallel to the master relay device 10. The master relay 10 and the slave relay device 20 are physically coupled via, for example, UTP (Unshielded Twisted Pair) cable 30, and logically coupled via Ethernet.

2 is a block diagram showing the configuration of the master relay device 10.

The master relay device 10 is provided with a donor antenna 11 for transmitting and receiving radio waves with a base station and a service antenna 12 for transmitting and receiving radio waves with a terminal carried by a user as in the usual manner. And an amplifier 13 for amplifying the downlink signal transmitted to the terminal and the uplink signal transmitted from the terminal to the base station.

The donor antenna 11, the service antenna 12, and the amplifying unit 13 are substantially the same as those of the conventional relay apparatus. That is, the relay device 10 amplifies the transmission signal from the base station received through the donor antenna 11, that is, the downlink signal in the amplifier 13 and transmits the signal to the terminal through the service antenna 12, The amplified signal from the terminal received through the service antenna 12, that is, the uplink signal is amplified by the amplifier 13 and then transmitted to the base station through the donor antenna 11.

On the other hand, the coupler 15 is coupled to the line through which the RF signal is transmitted and received between the donor antenna 11 and the amplifier 13. This coupler 15 is composed of, for example, a line coupler. The coupler 15 applies an RF signal applied from the donor antenna 11 to the amplifying unit 13 to the communication modem 15, and receives an RF signal output from the communication modem 15. To the side.

The communication modem 15 is provided with a CDMA modem, for example. The communication modem 15 applies control data received from an external management device (not shown) to the control unit 16, and transmits data reported from the control unit 16 to the external management device.

In addition, the control unit 14 executes the monitoring and control function for the relay device 10 in conjunction with an external management device (not shown), and also controls the slave relay device 20 and the external management which will be described later. Executes the communication function with the device.

In addition, the master relay 10 includes a hub 18. This hub 18 is for executing Ethernet communication with a plurality of slave relays 20. The controller 14 performs Ethernet communication with the plurality of slave relays 20 through the hub 18. Each slave relay device 20 is assigned a private IP address, and the control unit 14 or hub 18 associates these private IP addresses with the unique identification numbers of the corresponding slave relay device 20 so that they can be managed as a table. do. This management table is preset by the administrator.

3 is a configuration diagram showing the configuration of the slave relay device 20.

The slave relay device 20 includes a donor antenna 21, a service antenna 22, and an amplifier 23 in the same manner as a conventional relay device. These configurations are substantially the same as the configuration of the master relay 10 shown in FIG.

In addition, the slave relay device 20 is configured to include a control unit 24 for monitoring and controlling the relay device in conjunction with the external management device. In particular, the control unit 24 communicates with the control unit 16 provided in the master relay device 10 through the communication matching unit 25 to be described later. The control unit 24 executes communication with the external management device through the master relay device 10 to execute the monitoring and control function for the relay device 20.

Meanwhile, the slave relay device 20 includes a communication matching unit 25 for communicating with the master relay device 10. The communication matching section 25 is provided with, for example, a PHY chip for Ethernet communication. The communication matching unit 25 converts the data into Ethernet packet data when the data is transmitted from the control unit 24 to the external management device and transmits the data to the master relay device 10, and receives the external management device from the master relay device 10. The data received from the controller is applied to the control unit 24.

Next, the operation of the system described above will be described.

When the control message is transmitted from the external management device to the specific relay device 10 or 20 through the communication modem 15, the management device adds the identification number of the relay device to which the control message is to be received in the header portion of the control message. The communication is sent to the communication modem 15. The control message is then sent via a text message, for example.

The control message transmitted from the management apparatus is transmitted as an RF signal through a base station (not shown) and transmitted to the communication modem 15 through the donor antenna 11 and the coupler 14. The communication modem 15 applies the received control message to the controller 16.

When the control message is received through the communication modem 15, the controller 16 determines who the message is based on the header information. If the control message is its own, processing for this is performed.

On the other hand, if the received control message should be sent to any one of the slave relay device 20, the control unit 16 transmits the message to the corresponding slave relay device 20 as an IP packet through the hub 17. Will be. In addition, the IP address assigned to the slave relay device 20 is added to the header of the control message including the data received from the management device, that is, the identification number of the slave relay device 20 and the control data.

In the slave relay device 20, the communication matching unit 25 checks the corresponding IP information when the packet data is received from the master relay device 10 and receives the packet data transmitted to the slave relay device 20. The communication matching unit 25 extracts a control message from the IP packet data and provides it to the control unit 24. Accordingly, the control unit 24 can receive the control message transmitted from the external management device.

On the other hand, when transmitting the report data such as status information from the slave relay device 20 to the external management device, the control unit 24 creates a corresponding report message and provides it to the communication matching unit 25. At this time, the report message is added with the report information and the identification number of the corresponding relay device as header information. Subsequently, when the report message is received from the control unit 24, the communication matching unit 25 generates IP packet information based on the report message, and transmits the generated IP packet information to the master relay device 10.

The report message transmitted from the slave relay device 10 is provided to the controller 16 through the hub 17 of the master relay device 10. The control unit 16 provides the report message transmitted from the slave relay device 10 to the communication modem 15, and also controls the communication modem 15 to transmit it to the management device side.

In addition, in the case of a report message to be transmitted from the master relay device 10 to the external management device, the control unit 16 transmits the report message directly to the external management device through the communication modem 15.

In the above embodiment, the plurality of slave relays 20-1 through 20-n communicate with the external management apparatus through the master relay 10. Therefore, in the case of the slave relay device 20, the necessity of having a communication modem for executing communication with the external management device is eliminated, thereby simplifying the configuration of the relay device.

The embodiment according to the present invention has been described above. However, the present invention is not limited to the above-described embodiments and can be carried out in various modifications without departing from the technical spirit of the present invention.

For example, in the above-described embodiment, the case where the master relay device 10 and the slave relay device 20 are configured to perform IP communication has been described as an example, but the master relay device 10 and the slave relay device 20 are described. The communication method between the two is not limited to a specific one, and other communication methods may be applied.

1 is an overall system configuration of a monitoring and control system for a plurality of relays according to the present invention.

Figure 2 is a block diagram showing a specific configuration of the master relay 10 in FIG.

3 is a block diagram showing a specific configuration of the slave relay device 20 in FIG.

Claims (3)

A plurality of relay devices are installed in the same place, and the relay device transmits an RF signal received through a donor antenna for transmitting and receiving an RF signal with a base station, a service antenna for transmitting and receiving an RF signal with a terminal, and a donor antenna and a service antenna. Comprising amplification means for amplifying and sending it to a donor or service antenna, each relay device is a monitoring and control system for a plurality of relay devices that are to send and receive control messages and report messages with an external management device, One relay device of the plurality of relay devices is set as a master relay device, and other relay devices except the master relay device are set as slave relay devices. The master relay device is coupled to the donor antenna via a coupler to communicate with an external management device and controls the overall operation of the relay device, and is coupled with an external management device through the communication modem to the external management device. And first control means for transmitting and receiving a control message and a report message, and a first communication matching means for transmitting and receiving a control message and a report message to and from a slave device. The slave relay device controls the overall operation of the relay device, and second control means for transmitting and receiving a control message and a report message with an external management device, and matching a second communication for transmitting and receiving a control message and a report message with a master relay device. Means, including means The master relay device receives the control message transmitted from the external management device to the slave relay device and transmits it to the slave relay device through the first communication matching means, and transmits the report message received from the slave relay device to the external management device. , The slave relay device is a monitoring and control system for a plurality of relay devices, characterized in that for transmitting a report message to be transmitted to the external management device to the master relay device via a second communication matching means. The method of claim 1, The master relay and the slave relay is a monitoring and control system for a plurality of relays, characterized in that coupled via a UTP cable. The method of claim 1, The master relay device and the slave relay device for monitoring and control system for a plurality of relays, characterized in that for performing IP communication.

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