KR20000014140A - Busy/idle bit transmission/reception method in mobile communication system - Google Patents

Abstract

PURPOSE: A busy/idle bit transmission/reception method in mobile communication system is provided to periodically transfer call accessing control information (busy/idle bit) to all the mobile stations in the same cell or sector through a broadcasting channel. CONSTITUTION: This method includes the steps of determining if there is a surplus channel element that a mobile station is not using to receive busy/idle bit a base station transmits through a broadcasting channel while the mobile station is transmitting and receiving data through a traffic channel; using the surplus channel element if there is the surplus element, and using an extra lake finger if there is not surplus element, thus determining the state of busy/idle bit. The present invention can operate channel resources efficiently and provide the good communication quality.

Description

Busy / idle bit transmission / reception method in mobile communication system

The present invention relates to a busy / idle bit transmission / reception method in a mobile communication system, and more particularly, to a flow control method of a data amount that can be applied when a mobile station having a single channel structure or a multi channel structure is connected to a call. will be.

In the second generation code division cellular mobile communication system of IS-95, which is a standard of CDMA system, a plurality of mobile stations (or mobile terminals) communicate with a base station to establish a call connection with a called party. This is done via random access to the channel. However, in the call connection method of each mobile station, since the mobile station first makes a call connection request to the base station, if the mobile station makes a call connection request at about the same time, the wireless channel environment is likely to deteriorate. In addition, even in such a bad communication environment, the mobile station may increase radio channel interference by attempting unnecessary call connection to the base station in order to attempt a new call connection. In this case, the total capacity of the mobile communication system is reduced or the call connection is likely to fail.

In order to alleviate this drawback, in the third generation cellular system, each base station broadcasts busy / idle bits to a broadcast channel to all mobile stations in the cell. In this case, the busy / idle bit periodically monitors the result of the base station monitoring the reverse link to all mobile stations in the same cell or the same sector so that each mobile station knows the call state of the reverse common channel. This is a signal for notifying.

A call connection method of a third generation cellular CDMA system for preventing unnecessary call connection between a mobile station and a base station of a cellular generation communication system of a second generation CDMA method will be described below.

First, when each base station transmits a busy channel including busy / idle bits, all mobile stations in the base station cell receive busy / idle bits, and if the busy / idle bits are idle, the mobile station connects to the base station normally. Try. On the other hand, if it is busy, it waits without attempting to connect and attempts to connect when receiving an idle bit.

Here, when the radio channel environment of the reverse link is good, the base station notifies all mobile stations in the same cell or the same sector through a broadcast channel to allow one mobile bit to attempt to connect to the mobile station. If the environment is bad due to increased interference, one busy bit is notified to prevent the mobile station from attempting to connect.

However, in the conventional 3G CDMA cellular mobile system, flow control is performed using busy / idle bits only for a call connection between a base station and a mobile station, and flow control using busy / idle bits during communication is performed. Therefore, there is a problem in that efficient flow control cannot be performed according to the change of the wireless channel environment during communication.

SUMMARY OF THE INVENTION An object of the present invention has been made in view of the above-described problems of the prior art, and a base station is broadcast even while a mobile station having a single channel structure or a multi channel structure transmits and receives data through a traffic channel. To provide a busy / idle transmission / reception method in a mobile communication system in which call access control information (busy / idle bit) is periodically transmitted to all mobile stations in the same cell or the same sector through a channel.

In order to achieve the object of the present invention, the busy / idle bit transmission / reception method of a mobile communication system according to the present invention provides a method for transmitting / receiving data through a traffic channel by a mobile station and a corresponding base station. The mobile station determines whether there is a free channel element that is not currently being used, and if there is the free channel element, the mobile station receives the call connection control information to determine whether to perform a call connection. And assigning a separate finger for busy / idle bit determination among the fingers used for demodulation of the traffic channel if there is no spare channel element.

1 is a block diagram showing the configuration of a transmitter provided in a mobile station.

2 is a flowchart illustrating a busy / idle bit reception method of a mobile station.

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

1 is a diagram illustrating an internal configuration of a mobile station, and FIG. 2 is a flowchart illustrating a busy / idle bit reception method of the mobile station.

As shown in FIG. 1, in the method for controlling a call connection between a base station and a mobile station in a mobile communication system, the data transmitted from the base station is filtered by a band pass filter unit (BPF) 10 so that only a desired band is filtered, thereby providing the A / D as a baseband signal. It is input to the converter 20. The A / D converter 20 converts the baseband signal, which is an analog signal, into a digital signal and provides the converted signal to the low pass filter unit (LPF) 30. The low pass filter unit 30 is applied again to the Rake Finger 40 which provides a multi-path of the Rake Finger L from the Rake Finger 1 by filtering the input digital signal again. At this time, the search unit 50 controlled by the microprocessor unit 60 searches for a multipath wireless environment, finds time offsets of strong paths, and reports them to the microprocessor unit 60, and the microprocessor unit 60 respectively. Combination of the signals of each rake finger of the rake finger portion 40 of the provided to the next stage. Busy / idle bits transmitted through the broadcast channel are inserted into a predetermined field without being encoded and transmitted.

Thus, in order to demodulate busy / idle bits transmitted through a broadcast channel, as shown in FIG. 1, when the mobile station has a single channel structure, the path strength is the highest among the rake fingers projected to demodulate the signal of the traffic channel. A finger L assigned a weak path time offset is assigned to demodulate busy / idle bits. The assigned finger L is assigned the time offset of the finger 1 to which the time offset of the strongest path is assigned, and the time offset of the finger 1 is maintained as it is. At this time, the finger allocated for busy / idle bit demodulation is connected to the busy / idle bit determining unit 90 by the switching unit 60 controlled by the microprocessor 60 instead of the coupling part, and determines the busy / idling bit. The unit 90 determines the received busy / idle bits in hardware.

In addition, when the mobile station is multi-channel, if there is a channel element that is not used by the mobile station, when the transmitting end of the base station includes the busy / idle bit in the broadcast channel and selects the channel element that is not used by the mobile station In this case, the selected channel element directly determines busy / idle bits transmitted through the broadcast channel. On the other hand, when there is no channel element (Chnnel Element) not used by the mobile station, the call access control method when the mobile station has a single channel structure and same.

According to the present invention as described above, a separate rake finger is allocated or spared to receive and determine busy / idle bits transmitted through the broadcast channel even during communication between the mobile station and the base station, i.e., while using the traffic channel. If there is a channel element, this spare channel element is used to determine busy / idle bits. As such, flow control can be performed by receiving busy / idle bits during communication, and thus, channel resources can be efficiently operated according to the load of the CDM system, and a good communication quality can be provided.

Claims (5)

Determining whether there is a spare channel element currently unused by the mobile station in order to receive busy / idle bits transmitted by the base station through the broadcast channel while a mobile station is transmitting or receiving data through a traffic channel; Busy / idle in the mobile communication system, characterized in that the spare channel element is used, and if there is no spare channel element, a separate rake finger is used to determine the busy / idle status. Bit transmission / reception method. Transmitting, by the base station, through the broadcast channel without encoding the call connection control information based on busy / idle bits; Receiving, by a mobile station having a single channel structure, call connection control information included in the broadcast channel and selecting an arbitrary finger; Assigning a time offset to the selected finger; And determining a state of a busy / idle bit by the finger. 2. The method of claim 2, wherein the finger assigned to the time offset of the path having the weakest path strength when selecting the finger is selected as a finger for demodulating the call connection control information. A busy / idle bit transmission / reception method of a mobile communication system. 3. The busy / idle of a mobile communication system according to claim 2, wherein the time offset of the finger assigned with the strongest path is assigned to the selected finger, and the time offset of the finger of the strongest path is not changed. Bit transmission / reception method. 2. The busy / idle bit transmission / reception method of a mobile communication system according to claim 1, wherein the insertion operation is a method of allocating call connection control information by designating a position where call connection control information is inserted in a broadcast channel.