KR20030054341A - Wireless base station comprising diagnostic monitor - Google Patents

Abstract

PURPOSE: A wireless communication base station system including a DM(Diagnostic Monitor) is provided to analyze data by monitoring all control messages in a currently operated system without defining another message, thereby remarkably reducing load between a base station and a control station. CONSTITUTION: ATM communication units(11,21) transmit data by using a multicast method. Many boards(12-14,22,23) independently set whether data is received, while transmitting the multicasting-type data. A G board(14) is located in a controller(10) of the boards(12-14,22,23), and transceives the data with other modules by each port. A base station DM(30) is connected to a predetermined port of the G board(14), and receives and analyzes the multicasted data. The G board(14) is set to simultaneously retransmit the multicasted data received selectively to other boards through many ports.

Description

Wireless base station system including diagnostic device {Wireless base station comprising diagnostic monitor}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a wireless communication base station system including a diagnostic apparatus and a method for configuring the same, and more particularly, to asynchronous mobile communication system based on a next generation mobile communication network (WCMS) such as International Mobile Telecommunication (IMT-2000), Universal Mobile Telecommunications System (UMTS), etc. The present invention relates to a base station system including a diagnostic apparatus which is located in a base station of a wideband CDMA mobile system, and which can monitor a control message and analyze data in the base station.

Conventionally, in order to configure a base station system including a base station diagnostic device (DM), a base signal diagnostic device (eg HDLC) is connected to all boards, and the base station diagnostic device is connected to the common signal line, or the base station diagnostic device is specified. After connecting with the board to set the data transmission and reception in the form of a message, other boards were able to configure the base station system including the diagnostic device by connecting to the base station diagnostic device through a specific board. For example, the prior art related to the present invention includes a method for monitoring base station status of a mobile communication system (application number 10-1999-11568, filed April 2, 1999), which monitors the status of a base station remotely. To this end, the channel transmits the necessary data to the DM according to the promised signal contained in the time synchronization signal at the control station DM, thereby monitoring the state of the base station, thereby controlling the state of the base station channel card at present, Information such as a call flow in progress can be easily grasped.

However, in the structure according to the prior art and the prior art as described above, in order to connect with the base station diagnostic apparatus, a separate common signal line should be used, or data is transmitted and received through a specific board, or a base station diagnostic apparatus and a message are defined separately. There is a problem in that additional hardware configuration and software configuration are necessary in a system such as that which requires transmission.

The present invention has been proposed to solve the above problems, and constitutes a system without a separate common signal line, does not transmit data using a message form with a specific board, and also for a base station diagnostic apparatus It is an object of the present invention to provide a wireless communication base station system including a diagnostic apparatus capable of analyzing data by monitoring all control messages in a currently operating system without defining a message.

1 is a configuration diagram of an embodiment of a wireless communication base station system including a diagnostic apparatus according to the present invention.

* Explanation of symbols for the main parts of the drawings

10: control unit 11, 21: ATM communication unit

12: R board 13: B board

14: G board 20: channel portion

22: L board 23: C board

30: base station diagnostic apparatus 40: control station (RNC)

In order to achieve the above object, the present invention provides a base station system of a wireless communication network, comprising: asynchronous transfer mode (ATM) communication means for transmitting data using multicasting for communication between boards; A plurality of boards capable of independently setting whether or not to receive data during multicasting data transmission; Distributing means located in the control unit of the plurality of boards, responsible for transmitting and receiving data to different modules for each port; And a base station diagnostic apparatus connected to a predetermined port of the distribution means to receive and analyze the multicasted data, wherein the distribution means selectively receives the multicasted data to other boards simultaneously through a plurality of ports. Characterized in that the retransmission can be set.

The present invention is to configure a base station system including a diagnostic device that can be located in the base station of the asynchronous mobile communication system (WCMS) to monitor the control message and analyze the data in the base station, in particular the base station system performing ATM communication By performing the function manually, the system can perform the function in the base station without any requirement or additional device.

That is, the present invention configures a base station system including a diagnosis apparatus without a separate common signal line in an asynchronous base station, does not transmit data using a message type with a specific board, and does not define a separate message for the base station diagnostic apparatus. It allows you to analyze data by monitoring all control messages in the currently running system.

To this end, the present invention performs communication between boards using multicasting, which is a one-to-many communication means, rather than one-to-one communication for board-to-board communication, and a specific board has a function of retransmitting received data to a plurality of ports. It is possible to facilitate the construction of an asynchronous base station system, including a diagnostic device that does not require additional equipment, by configuring a system that includes these functions.

As described above, the present invention monitors the status of the base station in the asynchronous base station, and if necessary, transmits the result to a remote location, and can collect all the messages transmitted by the multicasting, thereby asynchronous without a separate additional device. The base station can be diagnosed, and the status can be transmitted at the request of the control station DM. Therefore, the present invention can collect all control messages and / or all traffic data, and can also significantly reduce the load between the base station and the control station by providing only the data collected or the processed results at the request of the control station DM. .

The above objects, features and advantages will become more apparent from the following detailed description taken in conjunction with the accompanying drawings. Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a configuration of an embodiment of a wireless communication base station system including a diagnostic apparatus according to the present invention.

As shown in FIG. 1, a wireless communication base station system including a diagnosis apparatus according to the present invention includes an asynchronous communication mode (ATM) communication unit 11 and 21 for transmitting data using multicasting for board-to-board communication. Located in the control unit 10 of the plurality of boards (12 to 14, 22, 23) and the plurality of boards (12 to 14, 22, 23) that can independently set whether or not to receive data when casting data is transmitted. In addition, each port includes a G board 14 that is responsible for transmitting and receiving data to different modules, and a base station diagnostic apparatus 30 connected to a predetermined port of the G board 14 to receive and analyze multicasted data. The G board 14 may be configured to selectively transmit multicasted data to be retransmitted to another board simultaneously through a plurality of ports.

In FIG. 1, the R board 12 is connected to a control station (RNC: Radio Network Controller) 40 to transmit and receive data with the control station (RNC) 40. In the forward link, the R board 12 transmits the data received from the control station (RNC) 40 to the B board 13 or the C board 23 or the like through the ATM communication unit 11. In the reverse link, data received from the C board 23 or the B board 13 through the ATM communication unit 11 is transmitted to the control station (RNC) 40.

All the boards 12 to 14, 22, and 23 inform the ATM communication units 11 and 21 as enable signals when data to be transmitted is prepared.

The ATM communication units 11 and 21 read data from the boards and transmit the data to the destination board when the enable signals are generated because the data of all the boards 12 to 14, 22, and 23 are prepared. In case of one-to-one communication, it transmits to the board of the corresponding address because it includes the destination address, and in case of one-to-many communication (hereinafter referred to as multicasting), it is transmitted to all boards, and all boards (12 to 14, 22, 23) The receiving end determines whether to receive according to the promised setting.

The G board 14 and the L board 22 are responsible for data transmission and reception between the control unit 10 and the channel unit 20 when the system is composed of a plurality of modules.

A specific port in the G board 14 is connected to the L board 22 of the channel section 20.

When data transfer is required from the R board 12 to the C board 23 of the channel unit 20, the channel unit 20 transmits the data to the destination address including the port number at the transmitting side through the specific port. To the network. In addition, when transmitted in the form of multicasting, the G board 14 may set the transmission to a specific port (one port or multiple ports) by itself or not when receiving data.

All boards 12 to 14, 22, and 23 can transmit and receive in the form of multicasting. When data is transmitted, it must be transmitted to a predetermined address, and the reception board must be set to receive itself. In addition, in the case of the G board 14, it is possible to set whether to receive data received through multicasting and to transmit to a plurality of ports when receiving the data.

In the present invention, the ATM communication unit 11 is used to perform a multicasting data transmission function, and when the G board 14 requires data to be transmitted by multicasting, it is possible to simultaneously transmit to multiple ports. By setting the data, the data transmitted to the channel unit 20 is simply transmitted to the diagnosis apparatus 30 without an additional device in the system. In this way, the base station system including the diagnostic apparatus 30 can be constructed.

The present invention described above is not limited to the above-described embodiments and the accompanying drawings, and various substitutions, modifications, and changes are possible in the art without departing from the technical spirit of the present invention. It will be clear to those of ordinary knowledge.

The present invention as described above, it is possible to build a base station system including a diagnostic apparatus without the need for a separate additional device, to collect all control messages or all traffic data, and also collect on request from the control station DM There is an effect that the load between the base station and the control station can be significantly reduced by providing only the data or processed results.

Claims (3)

In a base station system of a wireless communication network, Asynchronous transfer mode (ATM) communication means for transmitting data using multicasting for communication between boards; A plurality of boards capable of independently setting whether or not to receive data during multicasting data transmission; Distributing means located in the control unit of the plurality of boards, responsible for transmitting and receiving data to different modules for each port; And Is connected to a predetermined port of the distribution means, including a base station diagnostic apparatus for receiving and analyzing multicast data, The distribution means is a wireless communication base station system including a diagnostic device, characterized in that the selectively received multicast data can be set to be retransmitted to another board at the same time through a plurality of ports. The method of claim 1, The plurality of boards, Transmitting and receiving data in the form of multicasting using the ATM communication means, and when transmitting the data, the wireless communication base station including a diagnostic device, characterized in that the transmission to a predetermined address and the reception board itself set whether to receive itself system. The method according to claim 1 or 2, The ATM communication means, When data of the plurality of boards is prepared and an enable signal is generated, data is read from the board and transmitted to the destination board, but in the case of one-to-one communication, the destination address is included, so transmission is performed to the board of the corresponding address and multicasting communication. In one case, the wireless communication base station system including a diagnostic device for transmitting to all the boards and the receiving end of all boards to determine whether to receive according to the promised setting.