KR100285719B1 - Gathering method of base station transceiver subsystem data in cdma mobile communication system - Google Patents

Abstract

PURPOSE: A method for collecting BTS(Base station Transceiver Subsystem) performance data in a CDMA mobile telecommunication system is provided so that a BSC(Base Station Controller) can divide BTSs into a plurality of groups and transmit performance data request signals by groups ar regular intervals. CONSTITUTION: After dividing BTSs into a plurality of groups, a BSC transmits an initial signal to every BTS. Every BTS transmits a response signal in response to the initial signal. Then the BSC transmits a ready signal to every BTS. Each BTS stores the data of a collecting buffer, BTS performance data collected until the ready signal is received, in a transmitting buffer. Afterwards, the BSC transmits a BTS performance data request signal to each group sequentially in order to avoid a data collision in case that all the BTSs transmit their data at the same time.

Description

GETHERING METHOD OF BASE STATION TRANSCEIVER SUBSYSTEM DATA IN CDMA MOBILE COMMUNICATION SYSTEM}

The present invention relates to a method of transmitting data in a code division multiple access (CDMA) mobile communication system, and more particularly, to a method of transmitting data collected by a base station as a lower processor to a base station controller as a higher processor. .

Conventional techniques for collecting base station performance data in code division multiple access mobile communication systems are disclosed in US Pat. No. 5,483,676. Looking at the contents of the patent, when the base station controller (BSC), the upper processor, is initially loaded and transmits an initial signal to all (up to 48) base stations (BTS), the lower processor, the base stations, the lower processor, Send a response signal to the base station controller. Subsequently, when the base station controller, which is an upper processor, transmits a data request signal to base stations that are all lower processors, the base station, which is all lower processors, transmits the collected data to the base station controller, which is an upper processor, by using a report signal. The received base station controller, which is a higher processor, transmits an acknowledgment signal to base stations, which are lower processors.

That is, when the base station controller sends a request signal to the base station, the base station receiving the signal transmits the data collected by the base station at once using a report signal to the base station controller.

As described above, when the data collected by the base station, which is the lower processor, are simultaneously transmitted to the base station controller, which is the upper processor, data may collide in the base station controller, which is the upper processor.

Accordingly, an object of the present invention is to provide a method for collecting base station performance data by dividing a base station accommodated by a base station controller, which is an upper processor, into a plurality of groups, and transmitting a signal requesting the performance data in a group unit. have.

In order to achieve the above object, a method of collecting performance data of a plurality of base stations accommodated in a base station controller, which is an upper processor in a code division multiple access mobile communication system, includes a preparation signal for all base stations in which the base station controller is accommodated. Transmitting the data, storing the performance data collected by all the base stations that have received the ready signal in a transmission buffer, and grouping all the received base stations into a plurality of groups. Transmitting a request signal for requesting transmission of the performance data in a group unit, and the base stations of the predetermined group receiving the request signal report the performance data stored in the transmission buffer in response to the request signal through a report signal. And transmitting to the base station controller do.

1 is a diagram showing a configuration of a code division multiple access (CDMA) mobile communication system.

2 is a diagram illustrating a signal transmission and reception procedure between a base station controller, which is an upper processor, and a base station, which is a lower processor, according to an exemplary embodiment of the present invention.

3 is a diagram illustrating a signal procedure for transmitting a request signal by grouping base stations accommodated in a base station controller, which is an upper processor, according to an embodiment of the present invention.

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

1 shows a configuration of a code division multiple access mobile communication system according to the present invention. A code division multiple access mobile communication system is composed of a base station subsystem (BSS), a mobile switching manager (MSC) and a home location register (HLR).

Referring to FIG. 1, the base station subsystem is largely composed of one base station manager and a plurality of base stations. For example, as shown, one base station subsystem includes one base station manager and up to 12 base station controllers, and one base station controller accommodates up to 48 base stations.

The base station manager is responsible for performing the operation and maintenance functions of the base station controller and the base station, the base station controller is located between the switch and the base station to perform the control and handoff functions of the radio link and the wired link, Is responsible for providing an interface via a wired connection with a base station controller and a wireless connection between mobile subscribers.

2 illustrates signals transmitted and received between a base station controller, which is an upper processor, and a base station, which is a lower processor, according to an exemplary embodiment of the present invention. 2 illustrates signals related to base station performance data collection between a base station, which is a higher processor, and one base station. 3 illustrates a signal for transmitting a request signal in a predetermined order from a base station controller, which is an upper processor, to base stations that are lower processors, according to an embodiment of the present invention.

2 and 3, first, the base station controller, which is an upper processor, transmits an initial signal to all base stations that are lower processors, that is, up to 48 lower processor base stations, when loaded. All the base stations transmit a response signal in response to the initial signal. The base station controller receiving the response signal transmits a ready signal (not shown) to all base stations after a predetermined time elapses, and all the base stations collect base station performance data collected by the time when the ready signal is received; That is, the data stored in the acquisition buffer are stored in a buffer to be sent to the base station controller. By doing so, all the base stations store the data collected until the same time.

Thereafter, the base station controller transmits a request signal for requesting transmission of the collected base station performance data to a predetermined number of base stations. That is, the base station transmits a request signal for requesting transmission of performance data by the base station controller, and in order to prevent data collision caused by simultaneously transmitting data collected by all the received base stations, By grouping the received base stations into a predetermined number of groups and sequentially transmitting request signals for each group, the base station receives the collected data of the base stations at once, instead of receiving them at once. This reduces the probability of data collision by receiving data at the same time.

Meanwhile, the predetermined number of base stations receiving the request signal transmit the collected data stored in the buffer to the base station controller using a report signal, and the base station controller receiving the report signal transmits the collected data. If not received, it transmits an acknowledgment report signal to the corresponding base station and continuously transmits the collected data. If all are determined to be received, it ends by transmitting an acknowledgment end signal.

On the other hand, after a predetermined time elapses from the transmission of the request signal, a request signal for transmitting the collection data is transmitted to the base stations corresponding to the other group, and in response to the request signal, the corresponding base stations perform the above-described procedures and Similarly, the collected data is transmitted to the base station controller. By repeating these steps, base station performance data is received from all the received base stations.

For example, as shown in FIG. 3, assuming 48 base stations accommodated in a base station controller (BSC), the 48 base stations are appropriately grouped into 5 groups. The base station controller broadcasts a ready signal at the same time, and stores performance data collected to date to all base stations in response to the ready signal. Then, at a predetermined period, the base station controller transmits the request signal in group units. Accordingly, the base stations transmit the collected data to the base station controller in group units, thereby reducing data loss caused by all the base stations transmitting data simultaneously.

When the base station transmits a large amount of data from the base station to the base station controller using the method described above, the base station collects data collected by all the base stations to the same time without a lot of data being collected at a specific time in one base station controller. By transmitting to the controller, the base station controller can collect reliable data.

According to the present invention configured as described above, by transmitting the data collected by the base station to the base station controller at regular time intervals to prevent the data from being collected at the same time to the base station controller at a certain time in advance to prevent the possibility of data collision in the base station controller There is an effect that can be excluded.

Claims (2)

A method for collecting performance data of a plurality of base stations accommodated in a base station controller which is an upper processor in a code division multiple access mobile communication system, Transmitting, by the base station controller, a ready signal to all the received base stations; Storing, in a transmission buffer, performance data collected so far by all base stations receiving the ready signal; The base station controller grouping all the received base stations into a plurality of groups, and transmitting a request signal for requesting transmission of performance data in group units in a predetermined period; The base station of the predetermined group receiving the request signal comprises the step of transmitting the performance data stored in the transmission buffer to the base station controller through a report signal in response to the request signal. The method of claim 1, The base station controller receiving the report signal checks whether all desired performance data have been received, and if it does not receive all of the performance data, transmits a repeating confirmation signal to the base station that has transmitted the report signal to continuously transmit the performance data. Requesting and transmitting a confirmation end signal to the base station when all the performance data have been received.

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