KR100317678B1 - Wireless channel setting-up method - Google Patents

Abstract

A method of establishing a wireless channel is disclosed. The radio channel setting method is a radio channel setting method for performing data transmission and reception between a mobile station and a base station, the method comprising the steps of: (a) sending a start message indicating that the mobile station initiates a connection at a predetermined second transmission rate; ; (b) sending null traffic channel data from the base station to the mobile station at a predetermined first rate lower than the second rate; (c) sending a channel assignment message from a base station to a mobile station using a service option indicating that the channel is to be allocated in a negotiation mode for selectively setting a first rate and a second rate; (d) receiving a predefined number of consecutive frames from the base station at the mobile station, and then sending the traffic channel preamble and null traffic channel data at the first rate from the mobile station to the base station; And (e) establishing a traffic channel at a second transmission rate by negotiation between the base station and the mobile station in setting up a traffic channel according to a negotiation mode between the mobile station and the base station. This wireless channel setup method uses the negotiated mode of service option to set up the channel at low rate when transmitting null traffic data in the initial traffic channel setup stage and to return to high rate when transmitting voice traffic data, while maintaining good call quality. Improve call traffic.

Description

Wireless channel setting-up method

The present invention relates to a radio channel establishment method, and more particularly, to a radio channel establishment method for effectively establishing a traffic channel using a service option of a negotiation mode between a mobile station and a base station.

Figure 1 shows the main steps of setting the traffic channel in the conventional wireless channel setting method. Referring to Fig. 1, according to the conventional radio channel setting method, first, a start message is sent to the base station indicating that the connection is initiated at a transmission rate of 13 kilohertz (kHz). Next, traffic channel setting is made. That is, the null traffic channel data is sent from the base station to the mobile station at a transmission rate of 13 kHz. The base station then sends a channel assignment message using a service option indicating that it wants to allocate the channel in an unnegotiated mode where transmission is made at a fixed rate to the mobile station. The mobile station sends the preamble and null traffic data at a transmission rate of 13 kHz, and the base station sends a service connection message proposing a service at a transmission rate of 13 kHz, thereby establishing a service connection at the transmission rate of 13 kHz.

However, such a conventional channel setting method can achieve a high quality call by performing traffic channel setting and service access at a high transmission rate of 13 kHz, but the call output rate is relatively low due to a decrease in radio wave power per unit frame. It has the disadvantage of being low.

In order to explain the principle of the channel setting method according to the present invention for solving such a problem, Fig. 2 is a comparison of the amplitude difference of the radio signal according to the transmission rate. As the radio wave output from the mobile station or the base station is known by those skilled in the art, the transmission power per unit frame is constant in the same mobile station or base station.

Therefore, the total power of the radio wave signal carried in the unit frame of 20 milliseconds (ms) as shown in the figure is constant. That is, the 13 kHz radio signal 20 has a lower amplitude than the 8 kHz radio signal 22. The high-frequency 13 kHz radio signal 20 having a small amplitude is relatively low-frequency and has a shorter transmission and travel distance than the 8 kHz radio signal 22 having a large amplitude. For this reason, the 13 kHz radio signal 20 is preferable for a high-quality call, but there is a problem that the call rate is relatively low compared to a system using the radio signal of 8 kHz.

The technical problem to be achieved by the present invention is to improve the call traffic rate while maintaining a good call quality by using a low data rate channel when transmitting null traffic data in the initial traffic channel setting step and returning to a high data rate when transmitting voice traffic data. It is to provide a wireless channel setting method that can be made.

1 is a view for explaining a conventional wireless channel setting method.

2 is a waveform diagram illustrating comparison of amplitude differences of radio signals according to transmission rates.

3 is a view for explaining a radio channel setting method according to an embodiment of the present invention.

<Explanation of symbols for the main parts of the drawings>

302 ... send channel assignment message,

302 ... sending a first service request message requesting service at a first rate set (Rate Set 1: 8 kHz),

306 ... sending a second service request message requesting service at a second rate set (Rate Set 2: 13 kHz),

308 ... sending a third service request message requesting service at a second rate set (Rate Set 2: 13 kHz),

310 ... sending a service access message proposing a service at a second set rate (Rate Set 2: 13 kHz),

312 ... Send a service connection complete message.

In order to achieve the above object, in the radio channel setting method according to the present invention, a radio channel setting method for performing data transmission and reception between a mobile station and a base station is provided. Sending an initiation message to indicate; (b) sending null traffic channel data from the base station to the mobile station at a predetermined first rate lower than the second rate; (c) sending a channel assignment message from the base station to the mobile station using a service option indicating that the channel is to be allocated in a negotiation mode for selectively setting a first rate and a second rate; (d) receiving a predefined number of consecutive frames from the base station at the mobile station, and then sending the traffic channel preamble and null traffic channel data from the mobile station to the base station at a first rate; And (e) establishing a traffic channel at a second transmission rate by negotiation with the base station and the mobile station in setting up a traffic channel according to a negotiation mode between the mobile station and the base station.

The step (e) may include sending a first acknowledgment message by the base station; Sending, at the mobile station, a second acknowledgment message in response to the first acknowledgment message; When the mobile station sends a first service request message requesting service at a first rate, the base station sending a service response message suggesting service at a second rate; Sending, at the mobile station, a second service request message requesting service at a second rate in response to the service response message; Sending, by the base station, a service access message indicating that a service connection has been made at the second transmission rate; And sending a service connection complete message indicating that the service connection is completed in the mobile station.

Further, it is preferable that the first transmission rate is 8 kilohertz (kHz) and the second transmission rate is 13 kilohertz.

Hereinafter, a preferred embodiment of a method for setting a wireless channel according to the present invention will be described in detail with reference to the accompanying drawings.

3 is a diagram illustrating a method of setting a wireless channel according to an embodiment of the present invention. Referring to FIG. 3, the main radio channel setting step for performing data transmission and reception between the mobile station and the base station will be described in order. First, a start message is sent from the mobile station to the base station indicating that the connection is initiated at a transmission rate of 13 kHz. Next, the base station sends null traffic channel data to the mobile station at a first rate set (Rate Set 1), that is, at a rate of 8 kHz. The base station then sends a channel assignment message to the mobile station (step 302). At this time, the predefined bit area (granted_mode) is set to '00' in order to select 'on (00)' / 'off (10)' of the negotiation mode among the channel assignment messages. Accordingly, the traffic channel setting is performed in a negotiation mode for selectively applying a first rate setting (Rate Set 1: 8 kHz) and a second rate setting (Rate Set 2: 13 kHz).

In the negotiation mode, when the mobile station receives the number of consecutive frames corresponding to the stored value N5m in the predefined buffer from the base station, the mobile station sets the traffic channel preamble and the traffic channel data to a first set rate, that is, , 8 kHz. Next, the base station sends the first acknowledgment message to the mobile station, which sends the second acknowledgment message to the base station in response to the first acknowledgment message.

The mobile station then sends a first service request message to the base station requesting service at a first rate set (Rate Set 1: 8 kHz) (step 304). Upon receiving the first service request message, the base station sends a service response message requesting service at a second rate setting (Rate Set 2: 13 kHz) (step 306). The mobile station sends a second service request message requesting service at a second rate set (Rate Set 2: 13 kHz) in response to the service response message (step 308). Upon receiving the second service request message, the base station sends a service access message indicating that the service connection is made at the second transmission rate (13 kHz) (step 310). The mobile station completes the traffic channel setup by sending a service connection complete message (step 312) indicating that the service connection is complete.

As such, between the mobile station and the base station, the base station sends null traffic channel data to the mobile station at the first rate (Rate Set 1: 8 kHz). The mobile station also sends the traffic channel preamble and null traffic channel data to the base station at a first rate (Rate Set 1: 8 kHz). However, when the dispatch of the null traffic channel is completed, the traffic channel is reset by the negotiation mode specified in the channel assignment message sent from the base station. That is, the rate of the traffic channel is returned to the second rate (Rate Set 2: 13 kHz) by negotiation with the base station and the mobile station. According to the wireless data channel setting method according to the present invention, the preamble and null traffic channel data that are not related to the actual transmission of voice, as described with reference to FIG. kHz), and when establishing a traffic channel for actual voice transmission, the call rate can be improved while maintaining a good voice quality by returning to a high transmission rate (13 kHz).

As described above, the wireless channel setting method according to the present invention uses a low data rate data channel when transmitting null traffic data in an initial traffic channel setting step using a service option of a negotiation mode, and a high data rate when transmitting voice traffic data. By setting the channel to revert, you can improve call traffic while maintaining good call quality.

Claims (3)

In the wireless channel setting method for performing data transmission and reception between a mobile station and a base station, (a) sending an initiation message from the mobile station to the base station indicating the initiation of the connection at a second predetermined rate; (b) sending null traffic channel data from the base station to the mobile station at a predetermined first rate lower than the second rate; (c) sending a channel assignment message from the base station to the mobile station using a service option indicating that the channel is to be allocated in a negotiation mode for selectively setting a first rate and a second rate; (d) receiving a predefined number of consecutive frames from the base station at the mobile station, and then sending the traffic channel preamble and null traffic channel data from the mobile station to the base station at a first rate; And (e) resetting the traffic channel at the second transmission rate to transmit voice traffic data by negotiation with the base station and the mobile station in establishing a traffic channel according to a negotiation mode between the mobile station and the base station. Wireless channel setting method. The method of claim 1, wherein step (e) Sending a first grant message at the base station; Sending, at the mobile station, a second acknowledgment message in response to the first acknowledgment message; When the mobile station sends a first service request message requesting service at a first rate, the base station sending a service response message suggesting service at a second rate; Sending, at the mobile station, a second service request message requesting service at a second rate in response to the service response message; Sending, by the base station, a service access message indicating that a service connection has been made at the second transmission rate; And And at the mobile station, sending a service connection complete message indicating that the service connection is completed. 3. A method according to any one of the preceding claims, wherein said first rate is 8 kilohertz (kHz) and said second rate is 13 kilohertz.