KR20030060200A - Method for diminishing call connect failure rate in a communication system - Google Patents

Abstract

PURPOSE: A method for reducing a call connection failure in a communication system is provided to load an ECAM(Extended Channel Assignment Message) into a paging channel when a repeated transmission frequency is determined, and to transmit the paging channel as the repeated transmission frequency until a wireless terminal receives the paging channel, thereby lowering a traffic failure rate while setting a call. CONSTITUTION: A base station(100) transmits a paging channel including an ECAM to a wireless terminal(200)(102). The terminal(200) checks whether the channel is received(104). If not, the terminal(200) loads an origination message or a page response message into an access channel included in a reverse common signaling channel, and transmits the channel to the base station(100)(108). The base station(100) checks whether a load pilot channel is within a specific reference load pilot channel(110). If so, the base station(100) detects active pilot strength of a wireless environment report field, and determines a repeated transmission frequency(112). The base station(100) includes the ECAM in a paging channel, and transmits the channel as the repeated transmission frequency until the wireless terminal(200) receives the channel(116).

Description

METHOOD FOR DIMINISHING CALL CONNECT FAILURE RATE IN A COMMUNICATION SYSTEM}

The present invention relates to a method of reducing call connection failure rate in a communication system.

In general, in a communication system developed based on the IS-2000 series of standards, a wireless terminal transmits an origination message (ORM) or a page response message (PRM) to a base station for call setup. This message is carried on an Access Channel (ACH) included in a reverse common signaling channel (r-csch). The base station receiving the reverse signaling channel allocates a traffic channel to be used exclusively for the corresponding wireless terminal and informs the wireless terminal of the content using an Extended Channel Assignment Message (ECAM). The extended channel assignment message is carried on a paging channel included in a forward common signaling channel (f-csch). Thereafter, when a traffic channel to be used exclusively for the call is allocated between the base station and the wireless terminal, communication is performed. The first procedure at the time of switching to a traffic channel using a common channel is a forward / reverse channel acquisition procedure at the physical layer level as follows.

First, the base station starts to output the forward traffic channel. The wireless terminal then transmits a reverse traffic channel initial value upon receiving sufficient signal quality for 2 * 20 ms on the forward traffic channel. After the base station acquires the reverse traffic channel initial value, the base station starts the layer 2 setup procedure.

The most common cause of call establishment failure is the failure of traffic channel acquisition. Nevertheless, in the current base station system, there are insufficient measures to reduce this. According to the above-mentioned traffic channel acquisition procedure, the more specific case of the acquisition failure and the causes of each are as follows.

The first case is that the terminal cannot receive the extended channel assignment message transmitted by the base station due to poor paging channel reception quality in the wireless terminal. Second, the wireless terminal could not receive a good signal due to poor reception quality of the forward traffic channel. Third, the base station could not acquire the initial value of the reverse traffic channel transmitted by the mobile station due to poor quality of the reverse signal or a rapid reverse channel environment after the access procedure.

The reason why the signal quality is not good is that the wireless terminal is located in a shaded area where the forward signal is weakly received, or the instantaneous propagation attenuation due to intense fast fading or an adjacent building during the switching to the traffic channel. When experienced, it may fail to acquire a traffic channel due to signal quality degradation in the forward and reverse directions or in both directions. In particular, the IS-2000-based system is a frequency division duplex (FDD) system using different frequencies in the forward and reverse directions, so the forward channel environment and the reverse channel environment may be different. As a result, the wireless terminal may transmit a reverse traffic channel preamble using an inappropriate gain, which may acquire a reverse traffic channel preamble at the base station. It could have a devastating effect.

Accordingly, an object of the present invention is to provide a method in which a wireless terminal can receive an extended channel allocation message transmitted from a base station even if the paging channel reception quality is not good.

Accordingly, another object of the present invention is to provide a method in which a wireless terminal can receive a forward traffic channel even if the reception quality of the forward traffic channel is not good.

Accordingly, another object of the present invention is to provide a method in which a base station can acquire a reverse traffic channel initial value even if a reverse signal quality is poor or a reverse channel environment rapidly deteriorates after an access procedure.

Accordingly, the present invention provides a method for reducing a call connection failure rate in a base station communicating with a wireless terminal, wherein an origination message and a call response message including a pilot strength are loaded from the wireless terminal. The first process of checking whether the load pilot channel indicating the capacity of the pilot channel is within a specific reference load pilot channel if there is an access channel received, and the test result indicates that the load pilot channel is a specific reference load pilot channel. The second step of determining the number of repetitive transmissions corresponding to the pilot strength within the second range; and if the repetitive number of transmissions is determined, an extension channel allocation message is placed on a paging channel until the wireless terminal receives a paging channel. And a third process of transmitting the paging channel by the number of transmissions. All.

1 is a control flow diagram for transmitting a paging channel in a base station according to an embodiment of the present invention

2 is a control flowchart for transmitting a forward traffic channel in a base station according to an embodiment of the present invention.

3 is a control flowchart for receiving a reverse traffic channel at a base station 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. The same elements shown in the drawings below are indicated by the same reference numerals as much as possible even though they are shown in other drawings, and it is determined that detailed descriptions of related well-known functions or configurations may unnecessarily obscure the subject matter of the present invention. In that case, the detailed description will be omitted.

1 is a control flowchart for transmitting a paging channel in a base station according to an embodiment of the present invention.

Referring to FIG. 1, in step 102, the base station 100 transmits a paging channel including an extension channel assignment message to the wireless terminal 200. In step 104, the wireless terminal 200 checks whether the paging channel has been received. If the paging channel is not received, the wireless terminal 200 performs step 108, and if the paging channel is received, proceeds to step 106 to perform a general function.

In step 108, the wireless terminal 200 transmits an origination message or a call response message to an access channel included in a reverse common signaling channel to the base station 100.

When the access channel is received in step 110, the base station 100 checks whether the load pilot channel is within a specific reference load pilot channel. As a result of the inspection, if the load pilot channel is within a specific reference load pilot channel, the base station 100 performs step 112, and if the load pilot channel is not within the specific reference load pilot channel, the base station 100 proceeds to step 114 to a fixed number of times. As much as the paging channel is transmitted to the wireless terminal (200). For example, the fixed number of times may be one or two times.

In step 112, the base station 100 detects the active pilot strength of the radio environment report field included in the origination message or the call response message included in the access channel and determines the number of repetitive transmissions corresponding to the pilot strength. do.

In step 116, the base station 100 includes the extended channel assignment message in the paging channel and transmits the repetition number of times until the wireless terminal 200 receives it.

2 is a control flowchart for transmitting a forward traffic channel in a base station according to an embodiment of the present invention.

Referring to FIG. 2, in step 202, the base station 100 transmits a paging channel to the wireless terminal 200. When the paging channel is received in step 204, the wireless terminal 200 transmits an access channel to the base station 100. When the access channel is received in step 206, the base station 100 transmits a forward traffic channel to the wireless terminal 200.

In step 208, the wireless terminal 200 checks whether the forward traffic channel has been received. If the forward traffic channel is not received, the wireless terminal 200 performs step 212. If the forward traffic channel is received, the wireless terminal 200 proceeds to step 210 to perform a general function.

In step 212, the wireless terminal 200 transmits an origination message or a call response message to the base station 100 on an access channel included in a reverse common signaling channel. In step 214, when the access channel is received, the base station 100 detects an active pilot strength (P_Strength: 0 to 63) of a radio environment report field included in an origination message or a call response message included in the access channel. To obtain the initial gain of the forward traffic channel with the pilot strength. The initial gain of the forward traffic channel is obtained using Equation 1 below.

Initial Gain for Forward Traffic Channel = 0.5 * Pilot Strength + Fixed Gain (G_Base)

In step 215, the base station 100 amplifies the power of the forward traffic channel by the initial gain of the forward traffic channel. In step 216, the base station 100 transmits a traffic channel to the wireless terminal 200.

3 is a control flowchart for receiving a reverse traffic channel in a base station according to an embodiment of the present invention.

Referring to FIG. 3, in step 302, the base station 100 transmits a paging channel to the wireless terminal 200. When the paging channel is received in step 304, the wireless terminal 200 transmits an access channel to the base station 100. When the access channel is received in step 306, the base station 100 transmits a forward traffic channel to the wireless terminal 200. In step 308, when the forward traffic channel is received, the wireless terminal 200 transmits a reverse traffic channel to the base station 100.

In step 310, the base station 100 checks whether the reverse traffic channel has been received. If the reverse traffic channel is not received as a result of the check, the base station 100 performs step 312 and, when the reverse traffic channel is received, performs a general function.

In step 312, the base station 100 checks whether the load pilot channel is within a specific reference load pilot channel. If the load pilot channel is within a specific reference load pilot channel, the base station 100 performs step 318. If the load pilot channel is not within a specific reference load pilot channel, the base station 100 proceeds to step 316 to determine general parameters. It transmits on the forward traffic channel to the wireless terminal 200. The parameter RLGAIN_ADJ herein refers to a ratio between the final transmission power used by the wireless terminal 200 in the access channel and the initial transmission power of the traffic channel. The general parameter RLGAIN_Normal is a value that does not affect the quality of the reverse channel of another call.

In step 318, the base station 100 changes the parameter. In step 319, the base station 100 amplifies the traffic transmission power according to the changed parameter. In step 320, the base station 100 transmits a forward traffic channel to the wireless terminal 200. The changed parameter may be, for example, a high parameter (RLGAIN_High). The changed parameter refers to a value in which the ratio of the parameter is increased.

Meanwhile, in the detailed description of the present invention, specific embodiments have been described, but various modifications are possible without departing from the scope of the present invention. Therefore, the scope of the present invention should not be limited to the described embodiments, but should be defined not only by the scope of the following claims, but also by those equivalent to the scope of the claims.

As described above, the present invention has an advantage of lowering a traffic acquisition failure rate that may occur during a call setup process in a communication system.

Claims (5)

What is claimed is: 1. A method of reducing call connection failure rate in a base station communicating with a wireless terminal. A first step of checking whether an intensity of a load pilot channel is within a specific reference load pilot channel when there is an access channel reception including a pilot strength from the wireless terminal; A second process of determining the number of repetitive transmissions corresponding to the pilot strength if the strength of the load pilot channel is within the specific reference load pilot channel; And if the repetitive number of transmissions is determined, a third step of transmitting the paging channel by the repetitive number of transmissions until the wireless terminal receives a paging channel by placing an extension channel allocation message on a paging channel. . What is claimed is: 1. A method of reducing call connection failure rate in a base station communicating with a wireless terminal. Obtaining an initial gain of a forward traffic channel when receiving an access channel including pilot strength from the wireless terminal; And a second process of amplifying the power of the forward traffic channel according to the initial gain of the forward traffic channel and transmitting it to the wireless terminal. The method of claim 2, Wherein the initial gain of the forward traffic channel is a pilot strength times 0.5 plus the fixed gain of the forward traffic channel. What is claimed is: 1. A method of reducing call connection failure rate in a base station communicating with a wireless terminal. A first step of checking whether the strength of the load pilot channel is within the strength of a specific reference load pilot channel if the reverse traffic channel transmitted from the wireless terminal is not received; A second process of changing and setting a parameter if the strength of the load pilot channel is within the strength of a specific reference load pilot channel; And if the changed parameter value is set, transmitting an extended channel allocation message including the changed parameter value in a forward traffic channel to the wireless terminal. The method of claim 4, wherein Wherein the value of the parameter is a ratio of the final transmit power and the traffic initial transmit power used in the access channel of the wireless terminal.