KR20000001854A - Dynamic channel card controlling method of each base station of mobile communication system - Google Patents

Abstract

PURPOSE: A dynamic channel card controlling method of each base station of a mobile communication system is provided to minimize that the call in service is cut by a polling interval. CONSTITUTION: The dynamic channel card controlling method of each base station comprises the steps of: setting a polling time to a channel card after a BTS control processor(BCP) that belongs to each base station, checks its base station type by initializing the base station; minimizing the polling interval to each channel card, counting and managing the mounted number of the channel card if the base station is a mini-base station; and minimizing the polling time, counting and managing the mounted number of the channel card by reporting rupturing and mounting information if the base station is a omni-base station or a sector base station.

Description

Dynamic Channel Card Control Method of Each Base Station in Mobile Communication System

The present invention relates to a mobile communication system, and in particular, in order to optimize the polling cycle, the number of channel cards that can be actually operated is received from the ACC (Analog Common Card), reflects this, and the type of the corresponding base station is investigated. The present invention relates to a method for controlling a dynamic channel card of each base station of a mobile communication system capable of resetting polling cycles in a suitable form to provide a continuous service to a mobile terminal user.

In general, as the number of subscribers increases as the mobile communication system becomes more popular, the number of frequencies provided to subscribers increases and the number of channel cards proportional to the number of frequencies increases.

This channel card is in the digital shelf in the base station and consists of one channel card controller (CCC), two channel elements (CE) and one digital combiner.

A channel card is a device dedicated to call processing in a cell and is connected to an ACC for transmitting and receiving analog data.

In addition, the channel card controller (CCC) is connected to the base station controller (BSC) through HRNA to transmit and receive voice information and control information, and to transmit / receive control information related to call formation, call disconnection, and handoff. It is connected to BCP (BTS Control Processor).

This channel card is an important device for communication to the terminal, and there is a problem in managing it, and the time required to perform the countermeasure determines the provision of a continuous call to the terminal user. There is a situation.

As a method of managing the state of the channel card at the base station, it was able to poll each channel card, listen to the response, and grasp the state of the channel element (CE) managed by the channel card and the channel card.

The base station operated in one field is divided into mini base station, omni base station and sector base station. Mini base station operates in 1 frequency band (1FA), 1 sector and 3 sector base stations. It operates as a sector base station.

At this time, the number of channel cards in the base station can be divided from 1 to 192 by the type of channel card and the operator. The BCP managing all devices in the base station is the base station to which the base station to which it belongs is the base station to which it belongs. It checks how many frequency bands (FA) are set and operated, and reflects the polling period reflecting the type of base station to which it belongs and the number of operating channel cards. Here, even a base station of the same type is actually mounted and used. The number of channel cards in use varies by operation.

The BCP uses a polling method to manage channel cards. In the past, when a problem occurs in a channel card, the time required for the BCP to recognize the actual ECQIP information and the sector base station without considering the BCP type. Since it was considered that all channel cards are installed in the operating system, when polling cycle takes more than 8 seconds and there is a problem with the channel card, switching of the overhead channel tends to be delayed, so handoff does not occur.

That is, in the past, the polling interval to the channel card was set to 20 msec per channel card, and the maximum 8 frequency band (FA) was expected to be operated in units of about 10 seconds. If a defect occurs in the channel card, it takes more than 10 seconds, so that it is impossible to provide a continuous service to the mobile subscribers, which may cause a problem that the call is disconnected during the call.

The present invention is to solve such a conventional problem, an object of the present invention after setting the channel card polling time corresponding to the type of each base station for channel management of the base station, the BCP manages the removal / mounting of the channel card Dynamic channel of each base station of mobile communication system that can receive information about channel card actually installed from ACC to calculate and calculate polling period to minimize occurrence of disconnected call due to polling interval It is to provide a card control method.

1 is a block diagram illustrating a method for controlling a dynamic channel card of each base station in a mobile communication system of the present invention.

2 is a flowchart illustrating a method for controlling a dynamic channel card of each base station of the mobile communication system according to the present invention.

<Explanation of symbols for main parts of drawing>

1: RFU 2: DU

3: TFU 4: BIN

In order to achieve the above object, the present invention detects the number of channel cards that are actually operated by receiving and removing information from the ACC directly in the CDMA system and performs the corresponding operation. And set the channel card polling time after reading.

Hereinafter, an embodiment of a method for controlling a dynamic channel card of each base station of the mobile communication system will be described in detail with reference to the accompanying drawings.

1 is a configuration diagram of the present invention, wherein each base station of a CDMA mobile communication system is connected to a Tx antenna and an Rx antenna to perform an RF signal processing for a Radio Frequency Unit (RFU) 1 and an RFU 1 input from the RFU 1. DU (Digital Unit) 2 performing CDMA channel related signal processing according to the signal, and TFU (Time & Frequency Unit) providing reference frequency and timing to RFU 1 under control of the DU 2. (3) and a BIN (BTS Interconnection Network) 4, which is connected to the DU 2 and performs a packet router function between BTS and BSC.

The DU 2 is composed of an ACC and a channel card, and the ACC interfaces with an RFU 3, a sector interface card (SIC), and a channel card to convert a transmit / receive signal into a rack level signal. It receives the Even Second signal from the TFC (Traffic Channel) and distributes it to the channel card in the digital shelf. Also, the channel card's removal / mounting information is reported to the BCP of the BCU.

The BCU monitors, manages, and reports on SCPA (Scan Control Processor Assembly), which is responsible for the interface between the BCP and the lower devices, which manage all the hardware and software in the base station, and the environment and hardware in the BTS. It consists of SCPA.

Here, the channel card is dedicated to call processing in the cell and is connected to the ACC to send baseband analog data for the reception and transmission of the digital Self.

It is also connected to the BCP for transmission and reception of control information related to call establishment, call disconnection, handoff, and the like.

The operation of the present invention configured as described above will be described with reference to FIG. 2.

In the present invention, as the base station is initialized, the BCP belonging to each base station checks the type of its base station and sets the polling time to the channel card (S1).

If the base station is a mini S2, the polling interval to each channel card is minimized, and the number of mounted channel cards is calculated and operated (S3, S4).

If it is determined that the base station is an omina sector base station, the base station determines in which frequency band (FA) it operates (S5-S8), then minimizes the polling time and reports the unmounted / mounted information reported from the ACC. It operates by counting the number of channel cards.

For example, if the base station is a base station with a two frequency band (FA) sector and three channel cards are bad or mounted, the BCP initializes and sets the polling time to the channel card corresponding to the two frequency band (FA) of the sector base station. Since three channel cards do not exist, the final time is calculated by subtracting the corresponding time.

At this time, the ACC checks the channel card's unloading / mounting status from time to time and reports the channel card's unloading / mounting information to the BCP, and the BCP requests channel element (CE) information from the channel card to request the channel card and channel element ( CE) Get information.

As described above, according to the present invention, the base station of the CDMA system automatically controls and manages the channel card whose number changes the most, and sets an appropriate polling period, thereby causing a problem in the channel card during CDMA operation. In this case, it is possible to optimize the polling time occurring between polling cycles of the channel card, thereby minimizing call drop.

Claims (1)

An RFU in charge of RF signal processing, a DU performing a CDMA channel related signal processing function according to a signal input from the RFU, a TFU providing a reference frequency and timing to the RFU under control of the DU, In the base station of the mobile communication system consisting of a BIN connected to perform a packet router function between the BTS-BSC, Setting a polling time to a channel card after the base station is initialized and the BCP belonging to each base station checks the type of the base station; Minimizing a polling interval to each channel card when the base station is a mini base station, and calculating and operating the number of mounted channel cards; If the base station is an omni base station or a sector base station, the base station determines how many bands the base station operates, minimizes polling time, reports the unloaded / mounted information reported from the ACC, and calculates and operates the number of channel cards mounted. Dynamic channel card control method of each base station of the mobile communication system, characterized in that consisting of a step.