KR100252931B1 - Distributed control channel method for trs - Google Patents

Abstract

PURPOSE: A method of a distributed controlled channel in a TRS system is provided to prevent HSD(High Speed Data) from being heard via a speaker of a reception terminal, by making the speaker turned off before termination signals of a transmission terminal and a base station are received. CONSTITUTION: The transmission terminal by which a telephone call is carried out generates an HSD signal. The base station receives the HSD signal. The base station turns off its voice repeater, and then determines whether the HSD signal is a telephone call termination signal. The base station transmits an LSD(Low Speed Data) signal for terminating a telephone call only when the HSD signal corresponds to the termination signal. The reception terminal receives the LSD signal, and thereby turns off the speaker.

Description

Distributed control channel method of TRS system

The present invention relates to a distributed control channel type TRS system.

In wireless communication, the TRS system is divided into a dedicated control channel method and a distributed control channel method according to a control method. The dedicated control channel method is a method in which a relay station allocates a separate channel for controlling each terminal. In the distributed control channel method, a relay station controls a terminal by inserting a certain control signal into a voice channel without allocating a separate control channel. That's the way.

In particular, the terminal control method of the distributed control channel method is as follows. If a given radio channel is idle, the relay station transmits an HSD (High Speed Data) signal to the channel at regular intervals. Then, the terminal dependent on the channel always receives this HSD signal. Since the HSD signal has information about the channel or the terminal, the terminal receives the information about the channel by continuously receiving the HSD signal.

When the channel is in use, i.e., when a wireless call is made to a predetermined channel, the repeater transmits an LSD (Low Speed Data) signal along with the voice signal to the channel being used. That is, the terminal receives the LSD signal together with the voice signal. However, this LSD signal has a frequency band of about 300 Hz or less, so that the person using the terminal cannot detect it.

FIG. 1 illustrates a base station 10 and terminals 20 and 30 in a distributed control method TRS system, and FIGS. 2 and 3 show block diagrams of the internal structure of the base station and terminal of FIG. First, when a terminal A holder tries to make a call by pressing a PTT (Push To Talk) key of the terminal, the terminal generates an HSD including a request message from the terminal signal processing unit (Audio / data Processing Unit) 21. Let's do it. The HSD is applied to a high frequency mixer (Mixer) 23 through a band pass filter (BPF) 22 and combined with a radio frequency (RF) signal generated by the local oscillator 24 to be modulated at a high frequency. The modulated high frequency HSD is amplified by the transmission amplifier 25, and is transmitted to the repeater of the base station 10 through the antenna 40 through the duplexer filter 26.

The repeater receives the high frequency HSD through the reception antenna 11 and transmits the received high frequency HSD to the repeater receiver. Then, the transmitted high frequency HSD removes noise from the band pass filter 12 and amplifies the level through the low noise amplifier 13. This amplified high frequency HSD is applied to the low frequency mixer (Mixer) 14 and combined with the RF signal generated by the local oscillator 15 to demodulate the original HSD. The demodulated HSD is transmitted to the repeater signal processor 17 after the noise is removed through the band pass filter 16.

The repeater analyzes the transmitted HSD to generate a response HSD, and delivers the response HSD to the repeater transmitter. The response HSD is modulated back to the high frequency HSD via the high frequency mixer 23 and the bandpass filter 18 and transmitted through the transmission antenna 11 'as in the terminal.

If a call is connected between terminals, the repeater no longer transmits an HSD to the channel of the terminal to which the call is connected. At this time, the signal processing unit (Audio / Data Processing Unit) 17 of the repeater generates not only audio signals but also LSD (Low Speed Data) simultaneously. The voice signal passes through the voice band pass filter 19 'and the LSD is modulated at high frequency through the LSD band pass filter 50. This LSD is carried in the same process as the HSD and is carried on the same channel together with the voice signal through the transmission antenna of the repeater. In addition, the repeater receives the voice signal of the transmitting terminal through the receiving antenna and applies it to the signal processing unit through the voice band pass filter 19 to relay to the receiving terminal.

The receiving terminal receives the LSD and the voice signal at the same time through the antenna. The received LSD and the voice signal are both high frequency modulated signals. The LSD and the voice signal are amplified by the low noise amplifier 13 through a duplexer filter 26 and applied to the low frequency mixer 14 to be demodulated again into the original low frequency band LSD and the voice signal.

If the terminal is waiting, i.e., when the HSD signal is received by the terminal, the HSD signal is applied to the signal processing section 21 via the HSD bandpass filter 27. When the terminal is in a call, that is, when the terminal receives a voice signal and an LSD signal, the voice signal passes through the voice band pass filter 28 and the LSD signal passes through the LSD band pass filter 29. Is applied to. When transmitting the voice signal, the signal processor 21 transmits the voice signal through the transmission voice band pass filter 31.

The LSD received by the terminal includes channel information of the repeater, so that the terminal receives each channel information while receiving a voice signal. However, as described above, the LSD signal has a frequency of 300 Hz or less, and therefore is an inaudible signal to the human ear. Thus, the terminal user can only recognize the voice signal.

When the terminal user ends the call, the terminal sends the call termination request HSD to the repeater. The repeater receives and analyzes the call termination request HSD, and then sends the call termination HSD to the terminal that was in communication with the terminal that sent the call termination request HSD. The terminal receiving the call termination HSD signal analyzes the HSD and then turns off the speaker of the terminal.

However, the conventional distributed control channel method has the following problems.

First, in the conventional distributed control channel method, as shown in FIG. 4, after the transmitting terminal transmits the call termination request HSD, a time difference occurs until the receiving terminal HSD is received. The receiving terminal receives the call ending HSD, analyzes the HSD, and then turns off the speaker. Therefore, after the transmitting terminal turns off the PTT switch of the terminal, the speaker of the receiving terminal remains on for a while until the receiving terminal receives and analyzes the call termination HSD.

At this time, the speaker of the transmitting terminal is first turned off before the speaker of the receiving terminal is turned off, and then the call termination HSD is received at the base station at the receiving terminal. Thus, the sound of turning off the speaker of the transmitting terminal and the sound of turning off the relay speaker of the base station are briefly heard from the speaker of the receiving terminal. This is not a noise but the HSD is heard through the speaker of the receiving terminal, but it can be perceived as noise to the user, which may interfere with a normal call.

An object of the present invention is to prevent the HSD from being heard by a speaker of a receiving terminal, and an object thereof is to turn off the speaker of the receiving terminal before an end signal of the transmitting terminal and the base station is received at the receiving terminal.

1 is a diagram illustrating transmission and reception of a base station and a terminal.

2 is a block diagram illustrating an internal structure of a terminal.

3 is a block diagram illustrating an internal structure of a base station.

4 is a view showing the state of the base station and the terminal that is changed when the call is terminated in the conventional distributed control channel method.

5 is a view showing the state of the base station and the terminal that is changed at the end of the call in the distributed control channel method of the present invention.

Explanation of symbols for main parts of the drawings

10: base station 11: receiving antenna

11 ': transmit antenna 12, 18: band pass filter

13: low noise amplifier 14: low frequency mixer

15, 24: Local oscillator 16, 16 ', 27, 22: HSD bandpass filter

17: signal processing unit of the base station 19, 19 ', 28, 31: voice band pass filter

20, 30: terminal 21: signal processing unit of the terminal

23: high frequency mixer 25: transmission amplifier

26: Duplexer 29, 50: LSD bandpass filter

40: transmitting and receiving antenna for the terminal

The present invention is characterized in that the base station receives the call termination request HSD generated by the transmitting terminal and sends the call termination LSD to the receiving terminal before transmitting the call termination HSD signal. The distributed control channel method of the present invention comprises the steps of generating a high speed data (HSD) signal by a transmitting terminal in a call, receiving an HSD signal of a transmitting terminal by a base station, and turning off the voice repeater by the base station, Determining whether the call termination request HSD is applied; transmitting the call termination LSD signal only when the base station receives the call termination request HSD; and the receiving terminal receives the call termination LSD (Low Speed Data). And turning off the speaker. At this time, the base station transmits the call termination LSD signal, followed by the call termination HSD signal. Then, the receiving terminal turns off the speaker, and receives the call termination HSD. By receiving the call termination HSD, the channel of the receiving terminal becomes unused. In addition, since the LSD signal has a frequency domain which cannot be heard by the human ear, the receiving terminal user cannot recognize the LSD signal.

The operation principle of the present invention will be described with reference to the accompanying drawings, FIG.

First, when the calling terminal user finishes talking with the other party and tries to end the call by pressing the PTT (Push To Talk) key of the terminal, the sending terminal generates a call termination request HSD and transmits it through the channel that was currently being called. do. This call termination request HSD is received at the base station's repeater. Upon receiving the HSD, the base station immediately turns off the repeater's relay speaker and sends the HSD to the signal processor for analysis. When the repeater analyzes the HSD and determines that it is the call termination request HSD, the repeater immediately generates a call termination LSD, which is sent through the channel where the calling terminal was busy, and then sends the call termination HSD. Then, the receiving terminal sharing the channel with the sending terminal receives the call termination LSD through the channel. At this time, the LSD is a low frequency of less than 300Hz, the user of the receiving terminal is not recognized. The receiving terminal receiving this LSD immediately turns off its own speaker. When the receiving terminal turns off the speaker, the terminating HSD that the base station sends after the terminating LSD is received at the receiving terminal. When the receiving terminal receives the call termination HSD, the channels on which the transmitting terminal and the receiving terminal were busy become unused again and the terminals are in a standby state.

When the base station determines the call termination request HSD, the base station determines whether the received HSD is synchronized with the call termination request HSD. If it is confirmed that the HSD synchronizes with the call termination request HSD, the base station repeater sends the call termination LSD even before the call termination HSD is completely received.

The HSD signal may sound like a noise to the terminal user through the speaker of the terminal, but the LSD signal has a frequency in a band that is inaudible to the human ear and thus cannot be heard by the terminal user through the terminal speaker. The present invention allows the terminal receiving the LSD signal to turn off its own speaker before receiving the call termination HSD signal, thereby allowing the terminal user to silently terminate the call. Therefore, the distributed control channel method of the present invention improves the call environment than before.

Claims (4)

Generating a high speed data (HSD) signal by a transmitting terminal in a call; Receiving, by a base station, the HSD signal; Turning off the voice repeater by the base station and determining whether the HSD terminates the call; Transmitting, by the base station, a call termination LSD signal only when the HSD is a call termination signal; And, And a receiving terminal receiving the call termination LSD (Low Speed Data) and turning off a speaker. 2. The distributed control channel method of claim 1, wherein the base station transmits a call termination LSD signal, followed by a call termination HSD signal. 3. The distributed control channel method of claim 2, wherein the receiving terminal turns off a speaker and subsequently receives a call termination HSD signal. The TRS system of claim 1, wherein the determining of whether the HSD terminates the call termination signal by the base station comprises determining whether the received HSD is synchronized with the call termination HSD. Distributed control channel method.

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