KR100290672B1 - Method for improving call setup rate using the optimization of parameter in cdma system - Google Patents

Abstract

The present invention relates to a method for improving call traffic through parameter optimization in a code division multiple access system.

The present invention relates to a method for improving call rate through optimization of parameters in a code division multiple access system, wherein a base station that detects an outgoing request of a mobile station transmits a response message to the outgoing request by the preset number of times. Transmitting the channel assignment message of the mobile station; and the base station transmitting the channel assignment message amplifies the transmission power to a set value set in a parameter for controlling null traffic data transmission power and converts the null traffic data into the allocated channel. And transmitting to the mobile station through the assigned channel, and checking the validity of the received null traffic data through the allocation channel and setting the parameters to control preamble transmission power if the received mobile traffic is valid. Amplify the transmit power to the set value to set the preamble to the known It consists of a process of transmission.

Description

METHODS FOR IMPROVING CALL SETUP USING THE OPTIMIZATION OF PARAMETER IN CDMA SYSTEM}

The present invention relates to a method for improving call traffic through optimization of parameters in a code division multiple access system, and more particularly, to a method for improving call traffic through changing parameters in terms of improving traffic rates.

When a link is established by allocating a traffic channel from a base station (BTS) to a call setup request of a subscriber, the call is said to be successful, and the statistics of the call setup success rate for each call setup request are statistically communicated. It is called the rate.

Many complicated steps are required to complete the call setup request of the subscriber.

If one of these processes fails to perform normally, a call fail occurs.

In addition, if the mobile station is moving or in a handoff area than when the mobile station MS is in a fixed position, this operation has more load because other messages travel between the base station and the mobile station for handoff processing in addition to call flow processing. Can be done.

As a result, when the mobile station is moving or in a handoff area, there may be a problem in performing more work, and the call traffic rate may be improved by optimizing parameter values required for call setup to improve the traffic rate. You can increase it.

Conventionally, when a base station receives a call setup request from a subscriber, it transmits null traffic to the mobile station while transmitting it upward.

In response, the mobile station transmits a preamble to the base station. This process takes place within a short time and can lead to failure in acquisition if there is no response to the response request.

If this process is processed successfully in a short time, it is more important that power control adjusts the transmit power to an appropriate level, so that in setting this transmit power value, it is more important not to give a factor to acquisition failure than to a capacity problem.

Accordingly, an object of the present invention is to provide a method for improving call traffic rate by changing a parameter for improving call rate.

It is still another object of the present invention to provide an optimization test procedure and analysis method with changing parameters.

Another object of the present invention is to look at the situation in which the call traffic is improved through the change of parameters as statistical data, and through this by changing the existing set parameters to improve the call traffic rate to improve the performance of the system In providing a method.

In order to achieve the above object, the present invention provides a method for improving call rate through optimization of parameters in a code division multiple access system, wherein a base station that detects an originating request of a mobile station sends a response message to the originating request. Transmitting a channel allocation message a predetermined number of times after the transmission, and the base station transmitting the channel allocation message amplifies the transmission power with a setting value set in a parameter for controlling null traffic data transmission power. Transmitting null traffic data to the mobile station through the assigned channel; and if the mobile station receives null traffic data through the assigned channel, the mobile station checks whether the received null traffic data is valid and controls the preamble transmission power if it is valid. Increase the transmit power to the setting value set in the parameter to It is characterized by consisting of a process of transmitting a preamble to the base station.

1 is a diagram illustrating a conventional outgoing call flow.

2 illustrates an improved outgoing call flow in accordance with the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. It should be noted that in the following description, only parts necessary for understanding the operation according to the present invention will be described, and descriptions of other parts will be omitted so as not to distract from the gist of the present invention.

2 is a diagram illustrating an improved outgoing call flow in accordance with the present invention.

Hereinafter, a preferred embodiment of the present invention will be described with reference to FIG. 2. FIG. 2 illustrates a signal flow for call setup between a mobile station (MS) and a base station (BS), and sets up a call correctly based on an origination request for the call setup request. It is composed of the assumptions up to the mobile station ACK command to indicate that. In order to establish a call between the mobile station and the base station, the call flow must be normally performed, and also an interface between the base station controller (BSC) and the mobile switching center (MSC) in the upper portion of the base station. It should be done normally. In the call setup process, if one message of the signal flow is not correctly transmitted or received due to the surrounding influence or another problem, a call failure occurs, and thus, a call factor, which is an important factor of system performance, may be degraded.

In order to prevent such a drop in the call traffic rate, the parameters used in the base station and the mobile station may be optimized to provide countermeasures for problems such as message loss that may occur due to the surrounding environment. First, the parameters used in the call setup will be described below.

First, TC_NOMINAL_GAIN is used, and this TC_NOMINAL_GAIN is a digital gain that determines the power of null traffic data coming down the forward channel when the terminal requests call setup. This value can be set from 1 to 127. The null traffic data is amplified and transmitted by the set power to the set value, and the null traffic data is transmitted to the mobile station through the corresponding channel corresponding to the channel assignment message at the same time as the channel assignment message is transmitted from the base station to the mobile station. If a low preamble is not received by the base station, a acquisition failure occurs after 200 ms. That is, the parameter TC_NOMINAL_GAIN is a transmission power value of null traffic data.

The second is NOMINAL_GAIN, which is the initial base station transmit power after the terminal enters the traffic state. Based on this value, forward power control is started. Initial transmission begins with power control after sending the base station ACK to the mobile station. This value is also a factor in determining the initial power of the mobile station.

Third, INITIAL_PWR and NOM_PWR. In order to receive the reverse preamble from the base station, the base station transmits the base station ACK 2 seconds after transmitting null traffic data. Must transmit the preamble within 2 seconds. In order to increase the efficiency for receiving a preamble transmitted by the mobile station at the base station, it is necessary to adjust the transmission power of the transmission preamble when the mobile station transmits the preamble. The larger this value is, the better the probability of being transmitted to the base station. However, the larger the value, the greater the interference. Therefore, it should be set to an appropriate level that does not affect the communication of other mobile stations in the base station.

When the terminal attempts to access, the initial power (INITIAL_PWR) is calculated as in Equation 1 below and the preamble is transmitted.

1. 8K rate: terminal average output power (dBm) = -73-average input power (dBm)

+ NOM_PWR (dB) + INITIAL_PWR (dB) + Sum of all access probe compensations (dB)

2. 13K rate: terminal average output power (dBm) = -76-average input power (dBm)

+ NOM_PWR (dB)-16 * NOM_PWR_EXT + INITIAL_PWR (dB) + Sum of all access probe corrections (dB)

Referring to the call setup process according to the mobile station origination shown in FIG. 2, first, when the mobile station originates, the mobile station transmits an origination message according to the origination to the base station. The mobile station receiving the origination message then sends a response message (base station acknowledgment) to the base station. The base station transmits a channel assignment message to the mobile station after transmitting the response message. In this case, the base station transmits a channel allocation message to the mobile station a set number of times, for example, two times, in order to eliminate a failure factor of a call establishment process such as a message loss due to a change in a wireless environment. In addition to transmitting the channel assignment message, the base station transmits null traffic data (zero traffic) through the channel allocated in the channel assignment message. This null traffic data is a factor that maintains the stability of the radio link. The mobile station fails to set up a call when null traffic received from the base station is not received for more than two frames valid for a set time, for example, one second. Here, the base station amplifies and transmits the null traffic data to a transmission power of a preset value. Then, as the transmission power becomes high power, the transmission efficiency is improved. The parameter controlling the transmit power when the base station transmits null traffic data to the mobile station is TC_NOMINAL_GAIN, as described above, and transmits with the power set to this parameter.

If the received null traffic data is valid, the mobile station transmits a preamble (inverse preamble) to the base station, and the base station receiving the preamble from the mobile station transmits a response message (base station acknowledgment) to the mobile station. . In this case, when the mobile station transmits the preamble to the base station, the mobile station amplifies and transmits the transmission power to a preset setting value. In this case, parameters for determining the transmission power are INITIAL_PWR and NOM_PWR. The preamble is transmitted at a level equal to the calculated value. Thus, the base station is to efficiently receive the preamble transmitted from the mobile station.

The mobile station receiving the response message from the base station transmits the response message (mobile station acknowledgment) to the base station to establish a call.

Next, the test for improving the traffic rate by changing the parameters will be described. First, the TC_NOMINAL_GAIN change test will be described. Test by changing TC_NOMINAL_GAIN as follows. First, TC_NOMINAL_GAIN is set to 70 and test is performed on site.

The test process is conducted in the same way, and the judgment after application analyzes the statistical data for the actual call.

This statistical data is a factor in determining the degree of improvement.

For the accuracy of the test requires more than daily data.

Of the base station in both cases power is ^{10 × log (90 2/70} 2) is about 2 dB to about 2.18 dB = is further sent out.

In fact, the test results are shown in Table 1 below.

Call traffic improvement test result by changing TC_NOMINAL_GAIN Test base station Gain = 70 Gain = 90 Improvement Base station A 7% 4.0% 3% improvement Base station B 10% 3.0% 7% improvement

As shown in Table 1, it can be seen that by increasing the gain value by 20, the communication rate is improved by 3 to 7%.

By further allocating the output of the base station through the change of TC_NOMINAL_GAIN, it is possible to improve the traffic rate for the call requiring the setting. That is, TC_NOMINAL_GAIN value should be set to 90 or more.

After the channel assignment message is transmitted to the mobile station, null traffic data is transmitted for 200 ms. If the base station does not receive the preamble transmitted by the mobile station, the channel assignment message is transmitted once again, and the null traffic data is transmitted again. This can improve the communication rate.

Next, the INITIAL_PWR and NOM_PWR change tests will be described as follows. Looking at the method of setting the INITIAL_PWR and NOM_PWR values among the access channel parameters of the mobile station, first, the value of INITIAL_PWR is set to 3 and the NOM_PWR value is set to 0.

In this case, the TC_NOMINAL_GAIN value is compared for the two cases, 70 and 90, as in the previous test.

After changing the INITIAL_PWR and NOM_PWR values to 3 to 6 and 0 to 3, the test is carried out in two cases where the TC_NOMINAL_GAIN value is 70 days and 90 days. Comparing call traffic rates for each case is shown in Table 2 below.

Change test result of INITIAL_PWR and NOM_PWR values Test base station Before change after change Base station A TC_Nom_Gain = 70 TC_Nom_Gain = 90 TC_Nom_Gain = 70 TC_Nom_Gain = 90 7% 4% 5% One%

As can be seen in Table 2, the test results show that the call rate is improved by 2 ~ 3%.

According to the average transmission output of the mobile station of Equation 1 above, when the transmission power at the initial transmission of the mobile station is changed from INITIAL_PWR and NOM_PWR values from 3 to 6 and from 0 to 3, the transmission power of the mobile station is set at the call setup time. The power required to transmit 6 dB higher.

Although there is a problem of transmitting high transmission power at the mobile station side, there is an advantage in that the call setup request can be stabilized. Therefore, there is a trade off in coordinating these two factors.

While the invention is susceptible to various modifications and alternative forms, the disclosure thereof has been described with reference to specific embodiments only. It is to be understood, however, that the present invention is not limited to the specific forms referred to in the specification, but rather that the invention is intended to cover all modifications, equivalents, and substitutions within the spirit and scope of the invention as defined by the appended claims. It should be understood to include.

As described above, the present invention controls and transmits the transmission power and the preamble transmission power of null traffic data in the call setup process between the mobile station and the base station, thereby eliminating failure factors such as the environmental influence of the call setup process. It has the advantage that the call traffic is improved by performing normally.

In addition, there is an effect that the use efficiency of the channel is increased, the capacity is increased, and the call quality is improved due to the improvement of the call traffic rate.

Claims (5)

In the method of improving the call rate through the optimization of parameters in the code division multiple access system, Transmitting a channel assignment message for a preset number of times after the base station detects a mobile station's origination request and transmits a response message to the mobile station; The base station transmitting the channel assignment message amplifies the transmission power to a set value set in a parameter for controlling null traffic data transmission power and transmits null traffic data to the mobile station through the assigned channel; The mobile station receiving null traffic data through the assigned channel checks whether the received null traffic data is valid and if it is valid, amplifies the transmit power to a preset value set in a parameter for controlling preamble transmission power. In the code division multiple access system, characterized in that the process of transmitting an emblem to the base station through the optimization of the parameters to improve the call rate. The method of claim 1, The transmission power of the preamble is set within a limit value that does not interfere with other mobile stations in the base station, the call rate improvement method through the optimization of parameters in a code division multiple access system. The method of claim 1, And the base station transmits a channel assignment message to the mobile station twice. The method of claim 1, The base station further comprises the step of determining that the channel allocation fails if the preamble is not received from the mobile station within the set time, the call rate improvement method through the optimization of parameters in the code division multiple access system. The method of claim 1, The parameter used to control the null traffic data transmission power is TC_NOMINAL_GAIN, and the parameters used to control the preamble transmission power are INITIAL_PWR and NOM_PWR. How to improve traffic.