KR19990002839A - Zone Optimization Method of CT-2 Base Station by Controlling Call Request Response Time - Google Patents

Abstract

In the conventional area optimization method of the CT-2 base station, when the channel for transmitting the call request signal from the terminal and the channel currently searched by the base station are different, the call request signal transmitted from the terminal may not be received. In addition, if the base station continues to search the current channel in anticipation of receiving a call request on the channel being received by the base station, the call service for other subscribers of the CT-2 wireless communication system accommodating a large number of wireless subscribers is flexible. There was also a problem that could not be accommodated.

However, the present invention calculates in advance the time to respond according to the electric field strength of the first call request received from the terminal, and then immediately performs a call connection operation when the call request signal is recognized again. Even if the call request signal is not received or the call request signal transmitted from the terminal may not be received, an unnecessary time is allowed to be answered immediately after a certain time since the first call request is received. We have improved the delay and the probability of not receiving call request signals from other subscribers.

Description

Zone Optimization Method of CT-2 Base Station by Controlling Call Request Response Time

The present invention relates to a method for optimizing the area of a CT-2 wireless subscriber. In particular, the present invention relates to a time required to respond according to a received signal strength intensity (hereinafter referred to as RSSI) when a call is first received from a terminal. The present invention relates to a method for optimizing coverage of a CT-2 wireless subscriber, comprising a step of precomputing and immediately performing a call connection when a call request is recognized again after that time.

In the CT-2 wireless communication system, RSSI and a bit error rate (hereinafter, referred to as BER) are used to define a call state between a base station and a terminal. In the case of BER, it is impossible to measure at the initial call establishment stage, and the call state between the base station and the terminal is predicted using only the field strength of the RSSI.

In the conventional CT-2 wireless subscriber area optimization method, the RSSI received from each terminal is subdivided into two or three or more multi-levels. Accordingly, the field strength is recorded by counting the number of call requests (LINK_REQUEST) received from each terminal. A method of optimizing the area of the base station by using a fast response and slow operation when the electric field strength is weak is used.

In a conventional base station, a communication channel is divided into time slots to search for each channel. Therefore, instead of continuously searching for one channel, each channel is searched by time (4ms), so if the channel transmitting a call request signal from the terminal and the channel currently being searched by the base station are different, the call request transmitted from the terminal Failure to receive a signal may occur. In addition, if the base station continues to search the current channel in anticipation of receiving a call request on the channel being received by the base station, the call service for other subscribers of the CT-2 wireless communication system accommodating a large number of wireless subscribers is flexible. There was a problem that could not be accommodated.

The present invention has been devised to solve the above problems, and calculates in advance the time to respond according to the electric field strength at the time of the first call request received from the terminal, and if the call request signal is recognized again, the call connection operation is immediately performed. Even if some intermediate call request signals are not received by using the procedure to be performed or a call request signal transmitted from the terminal may not be received, the call is immediately received after a certain time from the first call request. The purpose of the present invention is to improve the probability of not receiving unnecessary call delays and call requests from other subscribers by allowing them to respond.

1 is a relation between electric field strength and call response time function.

2 is a process diagram of a region optimization method of a base station according to the present invention.

The present invention for achieving the above object, the process of pre-calculating the time to respond according to the received signal strength intensity (Received Signal Strength Intensity (hereinafter referred to as RSSI) when the first received call request from the terminal), and If the call request is recognized again after time, the process is performed immediately.

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

In the present invention, by using the RSSI used in the CT-2 wireless communication system, the base station and the terminal having the best call state can be established first by adjusting the response time of each base station.

First, when the base station receives the call request from the terminal, it calculates the call request response time to determine when to respond to the call request signal. Figure 1 shows the relationship between call response latency and field strength. In FIG. 1, the horizontal axis represents the received electric field strength, and the vertical axis is inversely proportional to the RSSI with a value from 0 second to T _max seconds.

The base station manages a Calling Handset List to record the call request status of the terminal by simultaneously accepting call requests from multiple CT-2 subscriber stations. The list stores the terminal's unique number (PID), the call network's unique number (LID), the initial call request time (To), and the call answer waiting time (Tw). The list is automatically deleted after the T _max time elapses from the initial call request time.

In addition, the base station calculates an arithmetic mean of the received electric field strength each time a call request signal of the terminal is received to correct the error of the RSSI measuring device to obtain a reliable RSSI value, and recalculates and updates the call response waiting time. do.

When the base station confirms the re-receipt of the call request signal of the terminal, it checks whether the call response waiting time in the above list is exceeded, and if the call is exceeded, transmits a response to the call request to the terminal to establish a call connection.

2 shows an area optimization method of a CT-2 base station according to the present invention. With reference to the drawings will be described in more detail with respect to the operation principle of the present invention.

The area optimization method of the CT-2 base station according to the present invention consists of 12 processes as follows.

In the first step, the base station preparing to perform the area optimization method of the CT-2 base station according to the present invention selects a radio frequency interface (hereinafter referred to as an RF interface) which is not used for an incoming or outgoing call. Prepare to receive a call request signal from the terminal.

In the second process, one channel is randomly selected from the 40 radio frequencies (hereinafter referred to as RF channels) used by one RF interface.

In the third process, the center frequency is adjusted to the channel selected in the second process, and RSSI is measured.

In the fourth process, the base station checks whether a call request signal transmitted from the terminal is received, and moves to the seventh process when the call request signal is received.

In the fifth process, if the time for searching in one channel has passed the predetermined time T _r at the base station, the base station returns to the second process and selects another RF channel, and repeats the subsequent process.

In the sixth process, the base station retrieves the caller handset list, deletes all the lists that have passed Tmax after the first call request, returns to the second process, and repeats the subsequent process.

In the seventh process, the terminal receives the call request signal from the calling party handset list, and if the terminal receiving the call request signal exists in the calling party handset list, moves to the tenth step; Go to the process.

In the eighth process, the base station calculates the call request response time using the RSSI measurement value at the time when the call request is received using the relationship as shown in FIG.

In the ninth process, the base station prepares a caller's handset list of a terminal newly receiving a call request signal. The unique number (PID) of the terminal, the network selection number (LID) of the terminal, the initial call request time (To), and the call Record the response wait time (Tw) in the caller handset list.

In the tenth step, since the RSSI may change from time to time, the base station calculates an arithmetic mean of the received electric field strength each time a call request signal of the terminal is received, and recalculates and updates the call response waiting time Tw.

In the eleventh process, if the time when the call request is received exceeds the call response waiting time after the first call request received from the corresponding terminal, the process moves to the last process. Otherwise, the process returns to the second process and repeats the subsequent process.

In the twelfth process, the call response to the call request of the terminal is transmitted, and normal call processing operation is executed.

By using the above-described configuration, the method of optimizing the area of the CT-2 base station by adjusting the call request response time according to the present invention can provide an environment in which the base station and the terminal having the best call state can communicate with each other. The probability of failure can be lowered to increase the success rate of the call, and the reliability can be improved in the RSSI measurement of the terminal transmission signal received at the base station. In addition, because the base station manages the sender handset list, only one search RF channel of the base station can operate quickly when multiple terminals simultaneously request a call.

Claims (6)

Selecting an RF interface not being used for an incoming or outgoing call (S1); Randomly selecting one RF channel being used in the RF interface (S2); Adjusting a center frequency to an RF channel selected in step S2 and measuring RSSI (S3); Checking whether a call request signal transmitted from the terminal has been received (S4); The base station auditing whether the search time in one channel has passed a predetermined time T _r at the base station (S5); Retrieving a caller handset list (S6); A step S7 of creating a caller handset list of a terminal in which a call request signal is newly received at a base station; Calculating a call request response time using the RSSI measurement value when the call request is received (S8); The base station calculates an arithmetic mean of the RSSI of the call request signal currently received and recalculates the call response waiting time Tw (S9); And transmitting a call response to the call request of the terminal and executing a normal call processing operation (S10). The method according to claim 1, A method for optimizing the area of a CT-2 base station by adjusting the call request response time, characterized in that the call request response time is calculated according to the strength of the RSSI of the call request signal received from the terminal. The method according to claim 1, Record the terminal's unique number (PID), the terminal's network selection number (LID), the initial call request time (To), and the call answer wait time (Tw) in the caller's handset list and update each time a call request signal is received. An area optimization method of a CT-2 base station by adjusting call request response time The method according to claim 1, Method for optimizing the area of the CT-2 base station by adjusting the call request response time, characterized in that to improve the reliability of the measured value by arithmetic average of the RSSI of the call request signal received from the terminal The method according to any one of claims 1 to 4, A method for optimizing the area of a CT-2 base station by adjusting the call request response time, characterized by calculating a call response request time using the measured RSSI value The method according to claim 5, CT-2 base station by adjusting call request response time, characterized in that the base station closest to the terminal can accept the call by not transmitting a response to the call request of the terminal before the reception response waiting time elapses. Zone optimization method