KR20010081155A - Method for generating alerting signal with attenuation of signal amplitude in mobile communication system - Google Patents

Abstract

PURPOSE: A method for generating an alarm sound when attenuating a signal level of a mobile communication terminal is provided to treat a post measure by ringing the alarm sound in the mobile communication terminal in case that a subscriber leaves a conversation progressive cell or an intensity of a signal is considerably attenuated, or a conversation is impossible. CONSTITUTION: A terminal measures an electric wave receipt power transmitted from a BTS(Base Transceiver System) and includes receipt power information as a message type in a data frame to inform receipt power information to the BTS(S10). The BTS detects a reliability degree of the data frame with reference to error sensing relation information included in the data frame(S11). The BTS compares a calculated FER(Frame Error Rate) with intensity information to estimate an electric wave receipt power intensity of the terminal and senses that a subscriber leaves a cell through the estimated intensity(S12). If the estimated value obstructs the stability of a conversation, the BTS transmits an alarm generation control signal to an MSC(Mobile Switching Center)(S13). The MSC receives the alarm generation control signal, generates an alarm signal, and transmits the alarm signal through the BTS so that the terminal rings the alarm sound(S14). The user hears the alarm sound and treats a post measure(S15).

Description

Method for generating alerting signal with attenuation of signal amplitude in mobile communication system

The present invention relates to a method of generating an alarm sound in a mobile communication terminal when the signal level of the mobile communication terminal is attenuated. More particularly, the present invention relates to a power control function or a hand before a mobile subscriber exits a specific base station or attempts to disconnect from the terminal. The present invention relates to a method of informing a user by sounding an alarm signal to a terminal using a hand off control function.

1 illustrates a configuration of a cellular wireless mobile communication service network.

In cellular wireless mobile communication, a service area is divided into 'cells', which are small regional units. Cell 40 means an area covered by a base station, and the size of cell 40 varies according to the density of subscribers. In general, as the density of subscribers increases, the size of the cell 40 decreases. However, it is impossible to reduce the size of the cell 40 indefinitely in order to increase subscriber capacity due to interference between adjacent cells.

There is also a cell splitting method in which the cell 40 is split to increase the capacity of the cell 40. The reason why the shape of the cell is shown as a hexagon is to make the diagram without space overlapping with the plane, and in fact, it does not have a hexagon shape and changes continuously according to the surrounding environmental conditions. Ideally, the cell is circular in shape, and the hexagon is convenient for plotting close to a circle.

The subscriber can make a call only in an area receiving the signal of the base station 20, and the signal of the base station should have a strength enough to enable a call of a certain quality. Even if the subscriber moves from cell to cell, the call is handed off (or handed over), so the call is not dropped. During the call, the base station 20 continuously monitors the signal level from the terminal 10. If the subscriber moves to the boundary area of the cell 40 and the signal level reaches a threshold, the base station 20 reports this fact. 30)

The MSC 30 instructs the surrounding base station to measure the signal level of the terminal and the base station with the strongest signal controls it. When the handoff process is completed, the new location information of the subscriber is sent to the MSC 30 and stored in the home location register (HLR) 50. The handoff usually takes place within 0.4 seconds so the subscriber does not feel disconnected.

It is the MSC (Mobile Switching Center) that is responsible for the transmission and connection of all signals for the call. The MSC 30 is connected to a Public Switched Telephone Network (PSTN) 60, and typically, one MSC 30 located in a specific cell manages several neighboring cells (base stations). The MSC 30 not only connects the call but also controls the call. That is, the main functions of the MSC 30 are call processing, traffic management, and call transferring. The HLR 50 is connected to the MSC 30 to determine where the subscriber is currently located. Each base station 20 is connected to the MSC 30 and is controlled by the MSC 30. The radio signal of the base station 20 is transmitted through the antenna and the base station 20 is responsible for the interface with the terminal 10. The terminal 10 is a conventional cellular phone, which is composed of a transceiver and a controller, and the transceiver functions to convert an electrical impulse signal into a wireless signal.

When the subscriber leaves the cell, the call is handed off as described above, so the call is not disconnected, but the signal strength is weakened. When the strength is reduced and the call sensitivity is decreased, the subscriber displays the display on the display device of the terminal. Only visual confirmation is possible with the number of signal strength indicator bars.

However, since the display bar cannot be visually checked during the call, the subscriber cannot take proper measures for the disconnection caused by the signal attenuation, which causes inconvenience in using the mobile communication.

Therefore, the present invention has been made to solve the above-mentioned inconvenience, the object of the present invention is to use the power control function or handoff control function when the subscriber is leaving the cell in the call, when the signal strength is significantly reduced Or, if there is no other base station after cell departure or there is no available channel of the base station to fall into a state of incapacity, it provides a method of providing a convenience to make a follow-up action (re-send, use other call means, etc.) by ringing an alarm. have.

1 illustrates a configuration of a cellular wireless mobile communication service network.

2 is a flowchart of alarm sound generation using the power control function.

3 is a flowchart of alarm sound generation using the handoff control function.

In order to achieve the above object, the step of causing the terminal to generate an alarm sound using the power control function of the present invention

Transmitting, by a terminal, a message containing radio wave power reception information to a base station in a data frame transmitted and received through the mobile communication network;

Calculating, by the base station, a frame error rate (FER) of the data frame with reference to the message;

Predicting, by the base station, radio wave reception power strength of the terminal with reference to the calculated FER and the strength information;

Transmitting, by the base station, a control signal for causing the MSC to send an alarm signal to the terminal if the estimated value of the radio wave reception power strength is less than a predetermined reference value of the signal strength required for normal communication;

Generating an alarm signal by the MSC receiving the control signal and transmitting the alarm signal through the base station to cause an alarm sound to the terminal; And

The terminal user who has listened to the alarm sound includes a follow-up action and causing the terminal to generate an alarm sound using a handoff control function.

Transmitting, by a terminal, a message containing signal strength information of a pilot channel to a base station of a mobile communication network;

Receiving the message by the base station to predict the signal strength of the pilot channel;

Transmitting, by the base station, a control signal for causing the MSC to send an alarm signal to the terminal if the base station is below a predetermined reference value of the signal strength required for normal communication with reference to the signal strength estimate of the pilot channel;

Sending an alarm signal to the terminal by the base station receiving the control signal so that the terminal sounds an alarm; And

And taking a follow-up action by the terminal user who has heard the alarm sound.

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

2 is a flowchart of alarm sound generation using the power control function.

In step S10, the terminal transmits a message containing radio wave reception power strength information to the base station, and the terminal measures radio wave reception power from the base station and includes the received power information in the form of a message in a data frame to inform the base station. In this case, the data frame means that voice data, text data, control data, and the like, which are transmitted / received to the wireless terminal, are formed in a frame form.

The step of calculating the frame error rate (FER) of the data frame by the base station with reference to the message (S11) is a step of detecting the degree of reliability of the data frame by referring to the error detection-related information included in the data frame The error is inversely proportional to the strength of the radio wave received power.

Next, when the base station compares the calculated FER and the strength information to predict the radio wave reception power strength of the terminal (S12), the base station detects that the subscriber is leaving the cell through the predicted strength and the radio wave reception power If the base station transmits a control signal for causing the MSC to send an alarm signal to the terminal when the prediction value of the intensity is less than a predetermined reference value (S13), if the prediction value is low enough to impair the stability of the call, the base station Sends an alarm sound control signal to the MSC.

The MSC receiving the control signal generates an alarm signal and transmits the alarm signal through the base station so that the alarm sounds in the terminal (S14). The terminal user who listens to the alarm sound stops the call and retransmits it. It is possible to take a follow-up action such as using another communication means (S15).

3 is a flowchart of alarm sound generation using the handoff control function.

In step S20, the terminal transmits a message containing the strength information of the pilot channel signal to the base station, when the subscriber attempts to make a call, when the terminal is powered on or when a handoff occurs, the terminal detects whether there is an accessible communication channel. (This is referred to as 'catching pilot') Search for a pilot channel that can be received by the terminal. When the pilot channel is found, the terminal transmits a message containing strength information of the found pilot channel signal to the base station.

Next, after the base station receives the message and predicts the strength of the pilot channel signal (S21), if the base station refers to the strength prediction value of the pilot channel signal or less, the base station causes the MSC to execute the MS. In step S22, the base station receiving the control signal transmits an alarm signal to the terminal so that an alarm sounds in the terminal (S23).

The terminal user who listens to the alarm sound may take a follow-up action such as stopping a call and performing retransmission or using another communication means (S24).

According to the method of the present invention, when the mobile communication subscriber leaves the service area, the signal strength becomes very weak, causing the subscriber to stop the call and retransmit by causing an alarm to sound when the call quality is impaired. It is possible to take follow-up actions such as using other communication means or to increase the reliability of the mobile communication service.

Claims (2)

When the subscriber leaves the cell in progress in the mobile communication network, the signal strength is significantly attenuated, or when there is no other base station after the cell leave, or when there is no available channel of the base station, the subscriber station becomes incapable of using the power control function. In order to cause the alarm to sound: Transmitting, by the terminal, a message containing radio wave reception power strength information to a base station of the mobile communication network in a data frame transmitted and received through the mobile communication network; Calculating, by the base station, a frame error rate (FER) of the data frame with reference to the message; Predicting, by the base station, radio wave reception power strength of the terminal with reference to the calculated FER and the strength information; If the estimated value of the radio wave reception power intensity is lower than a predetermined reference value of the signal strength required for normal communication, the base station causes the mobile switching center (MSC) of the mobile communication network to send an alarm signal to the terminal. Transmitting a control signal; Generating an alarm signal by the MSC receiving the control signal and transmitting the alarm signal through the base station to cause an alarm sound to the terminal; And And taking a follow-up action by the terminal user who has listened to the alarm sound to generate an alarm sound in a mobile communication subscriber terminal using a power control function. When the subscriber leaves the cell in progress in the mobile communication network, the signal strength is significantly reduced, or when there is no other base station after the cell leave or there is no available channel of the base station, the subscriber becomes incapable of using the handoff control function. In the method of making the terminal generate an alarm sound: Transmitting, by the terminal, a message containing signal strength information of a pilot channel to a base station of the mobile communication network; Receiving the message by the base station to predict the signal strength of the pilot channel; If the base station is less than a predetermined reference value of the signal strength required to perform normal communication with reference to the signal strength prediction value of the pilot channel, the base station causes the mobile switching center (MSC) of the mobile communication network to alert the terminal. Transmitting a control signal to cause an outgoing of; Sending an alarm signal to the terminal by the base station receiving the control signal so that the terminal sounds an alarm; And And taking a follow-up action by the terminal user who has listened to the alarm sound and using the handoff control function.