KR100312415B1 - Periodic beacon signal generation method for hard handover - Google Patents

Abstract

1. TECHNICAL FIELD OF THE INVENTION

The present invention relates to a method for generating a periodic beacon signal for hard handover.

2. The problem to be solved by the invention

In the present invention, in performing a hard handover in a CDMA system, a process of periodically outputting an element for determining a required boundary point at another frequency during a time when a beacon signal is unnecessary at a hard handover boundary point, It is an object of the present invention to provide a periodic beacon signal generation method capable of efficiently generating a beacon signal for a plurality of frequencies by allowing the beacon signal generator to periodically generate a time-division beacon signal.

3. Summary of Solution to Invention

The present invention provides a method for generating a periodic beacon signal for a hard handover, which is applied to a wireless communication system, comprising: a first step of determining generation of a periodic beacon signal for a hard handover; A second step of setting beacon signal generation information according to the generation order of the beacon signal; Generating a current beacon signal for a set time; And a fourth step of generating a beacon signal next to the current beacon signal generation sequence in accordance with the generation sequence of the currently generated beacon signal and the generation period of the predetermined beacon signal.

4. Important uses of the invention

The present invention is used in a CDMA system and the like.

Description

Periodic beacon signal generation method for hard handover {PERIODIC BEACON SIGNAL GENERATION METHOD FOR HARD HANDOVER}

The present invention relates to a method for generating a periodic beacon signal in a wireless communication system such as a code division multiple access (CDMA) system, and more particularly, to a single beacon signal when performing a hard handover. The present invention relates to a beacon signal generation method capable of generating a plurality of beacon signals, and a computer-readable recording medium recording a program for realizing the same.

1 is a flowchart illustrating a method for generating a beacon signal in a conventional code division multiple access system.

As shown in FIG. 1, a beacon signal generation for hard handover is determined in a related hardware for FA (Frequency Assignment), which is a CDMA frequency used by a base station (101). In this case, the beacon signal generally uses the same Offset Pseudo Noise (PN) signal as the FA for the call, and mainly uses a MAHO (Mobile Assistant Hand Over) method as a hard handover method.

As such, after determining the beacon signal generation, the output and the frequency required for the generation of the beacon signal are set (102), where the output is an element for determining the boundary area where hard handover is made, and the frequency is the beacon signal operating frequency. it means.

Thus, the setting method is provided from an electric and electronic device such as a storage device of a base station upper processor or a switch for storing information in the base station.

Then, it is determined whether to change the generation frequency and the output of the beacon signal (103), otherwise it is determined whether to stop the generation of the beacon signal for the hardware (104). At this time, if it is determined that the beacon signal generation stops, it terminates.

If the generation of the beacon signal is not stopped in the process of determining the generation of the beacon signal 104, the process proceeds to the process 103 of determining the generation frequency and output change of the beacon signal.

On the other hand, if it is determined to change in the step 103 of changing the generation frequency and output of the beacon signal, the process proceeds to step 102 of determining the generation frequency and output of the beacon signal.

In operation 103 of determining the operating frequency and output change of the beacon signal, the operator determines whether the frequency and the output frequency of the beacon signal are changed, and whether or not the change is determined for the use frequency change or the field optimization. The generation information of the beacon signal is changed through the setting process 102 of frequency and output.

However, in the conventional beacon signal generation method as described above, since one frequency and output are fixedly used in one hardware by a decision of an operator, a device is needed to operate a plurality of beacon frequencies. Is too large and requires a large number of terminating output loads, and the terminal continuously outputs the factors that determine the boundary area where hard handover occurs even when the beacon signal operation is not necessary. There was a problem that is significantly reduced.

Accordingly, the present invention has been proposed to solve the above problems, and in performing a hard handover in a wireless communication system, a boundary point required at another frequency is required for a time when the beacon signal is unnecessary at the hard handover boundary point. Periodically repeating the process of outputting the determining element, so that one beacon signal generator periodically generates a time-division beacon signal, the periodic beacon signal generation method that can efficiently generate a beacon signal for a plurality of frequencies And a computer readable recording medium having recorded thereon a program for realizing the same.

1 is a flowchart illustrating a method for generating a beacon signal in a conventional code division multiple access system.

2 is a flowchart illustrating a method for generating a periodic beacon signal for hard handover according to the present invention.

3 is an explanatory diagram for a method of generating a periodic beacon signal of the present invention.

In order to achieve the above object, the method of the present invention, in the method of generating a periodic beacon signal for a hard handover (Hard Handover) applied to a wireless communication system, the generation of the periodic beacon signal for a hard handover Determining the first step; A second step of setting beacon signal generation information according to the generation order of the beacon signal; Generating a current beacon signal for a set time; And a fourth step of generating a beacon signal next to the current beacon signal generation order in accordance with the generation order of the currently generated beacon signal and the generation period of the predetermined beacon signal. The method of the present invention may further comprise a fifth step of stopping the generation of the beacon signal by checking the generation stop information of the beacon signal. Meanwhile, the present invention provides a periodic beacon signal for hard handover. In order to generate, a wireless communication system having a large capacity processor, comprising: a first function of determining generation of a periodic beacon signal for hard handover; A second function of setting beacon signal generation information according to the generation order of the beacon signal; A third function of generating a current beacon signal for a set time; And a program for realizing a fourth function for generating a beacon signal next to the current beacon signal generation sequence in accordance with the current beacon signal generation sequence and the predetermined beacon signal generation cycle. In addition, the present invention provides a computer-readable recording medium having recorded thereon a program for further realizing a fifth function of checking generation stop information of a beacon signal and stopping generation of the beacon signal. do.

In addition, the present invention has a point in time when a beacon signal is required at the handover boundary point when performing the hard handover algorithm of the mobile phone terminal, and after the need point, there is a time when the beacon signal is unnecessary. By firing the necessary output at the frequency and repeating this process periodically, the base station apparatus can be miniaturized and the unnecessary output can be suppressed to significantly improve the call quality.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment of the present invention.

2 is a flowchart illustrating a method for generating a periodic beacon signal for hard handover according to the present invention.

Referring to FIG. 2, the generation of a first beacon signal of a periodic beacon signal for hard handover to related hardware is determined for a FA, which is a plurality of CDMA frequencies used in a base station (201). In this case, the beacon signal mainly uses the same pseudo-noise signal as the FA for communication, and the hard handover scheme is generally the MAHO scheme.

In addition, the beacon signal generation determination process 201 is a time point when the processor of the base station for operating the normal and equipped with hardware and software capable of generating the periodic beacon signal.

In this way, when the generation of the beacon signal is determined, the electrical signal and the memory element so that the corresponding hardware can operate the beacon signal generation information, such as the required frequency, output level, generation time and generation path according to the beacon signal generation sequence (n) Set to a value of 202. At this time, the setting information is information designed by the operator and stored in the base station operating system.

Then, the generation of the beacon signal is maintained for the time set in the generation information setting process 202 of the beacon signal (203).

However, in general, the next beacon signal is generated by driving a timer embedded in hardware to provide information that the time set in the generation control processor for the periodic beacon signal has elapsed.

Thus, it is determined whether the generation sequence number n of the periodic beacon signal currently generated and the generation period N of the preset beacon signal are the same (204). Otherwise, the currently generated beacon signal is generated in the generation information setting process (202). It generates for a set time and generates a beacon signal of 'n + 1' immediately following the beacon signal generation sequence n currently occurring (205).

Through the above-described process, according to a predetermined sequence (that is, generating a beacon signal while increasing the beacon signal generation sequence by one step) until the beacon signal generation sequence matches the preset beacon signal generation period N. Generate a beacon signal.

As described above, in order to sequentially generate the beacon signal, the generation control processor of the beacon signal generally requires a beacon signal having a predetermined generation period N from the first beacon signal according to the generation order of the beacon signal stored in a specific memory device. A beacon signal is generated while increasing sequentially one by one.

In the process of setting the generation information of the beacon signal 202, the generation information of the corresponding beacon signal is set by referring to the generation period of the beacon signal stored in the memory device.

On the other hand, if it is determined that the current beacon signal generation sequence n and the generation period N is the same in the determination process 204, the process proceeds to the beacon signal generation determination process (201).

Subsequently, after the operator acquires information such as the intention to stop generation of the periodic beacon signal, the intention to change the generation information, or the failure detection information for detecting a failure to generate the beacon signal by intercepting operation, the beacon signal among the obtained information If there is no occurrence stop information of (206), and if there is no generation stop information, the process proceeds to the process of setting the occurrence information (202).

As such, if there is no generation stop information of the beacon signal, the generation of the periodic beacon signal is made through the process as shown in FIG.

If the generation stop information is confirmed in the generation stop information checking process 206, generation of the beacon signal is stopped (207). That is, by releasing information such as a frequency and an output level necessary for generating the beacon signal, the hardware generating the beacon signal does not send any more output.

If necessary for the beacon signal generation stop and maintenance, a forced method such as providing generation stop information or stopping power supply is used.

Meanwhile, the process of determining whether the current beacon signal generation sequence n and the generation period N are the same (204), the beacon signal generation process (205), and the generation stop information confirmation process (206) of the beacon signal, respectively, are described in the order of Rather than proceed to, the execution order for the beacon signal generation may be arbitrarily changed.

3 is an explanatory diagram of a method of generating a periodic beacon signal according to the present invention, and shows a beacon signal generation process according to a time from a first beacon signal to a predetermined beacon signal generation period N. As described above. The method of the present invention may be implemented as a program and stored in a recording medium (CD-ROM, RAM, ROM, floppy disk, hard disk, magneto-optical disk, etc.) in a computer-readable form.

Although the technical idea of the present invention has been described in detail according to the above preferred embodiment, it should be noted that the above-described embodiment is for the purpose of description and not of limitation. In addition, those skilled in the art will understand that various embodiments are possible within the scope of the technical idea of the present invention.

As described above, the present invention efficiently generates a plurality of beacon signals from one beacon signal generator when performing CDMA hard handover, and has the following effects.

First, the load of the terminating output can be significantly reduced by generating one beacon signal and transmitting one signal at a specific moment.

Second, a plurality of beacon signals can be generated with a few frequency converters by allowing time-divisional operation of several frequencies and outputs.

Third, by firing the necessary output at a different frequency for a time when the beacon signal is unnecessary and periodically repeating this process, it is possible to miniaturize the facilities of the CDMA base station apparatus and suppress unnecessary output to significantly improve the call quality.

Claims (7)

In the method of generating a periodic beacon signal for a hard handover (Hard Handover) applied to a wireless communication system, Determining a generation of a periodic beacon signal for hard handover; A second step of setting beacon signal generation information according to the generation order of the beacon signal; Generating a current beacon signal for a set time; And A fourth step of generating a beacon signal next to the current beacon signal generation sequence according to the generation sequence of the currently generated beacon signal and the generation period of the predetermined beacon signal; Periodic beacon signal generation method for a hard handover comprising a. The method of claim 1, The fifth step of stopping the beacon signal generation by checking the generation stop information of the beacon signal Periodic beacon signal generation method for a hard handover further comprising a. The method of claim 2, The fifth step, A sixth step of receiving information on generation of the periodic beacon signal and checking generation stop information of the beacon signal among the inputted information; A seventh step of stopping generation of the beacon signal when the beacon signal generation stop information is confirmed in the sixth step; And An eighth step of proceeding to the second step if the generation stop information of the beacon signal is not confirmed in the sixth step; Periodic beacon signal generation method for a hard handover comprising a. The method according to any one of claims 1 to 3, Beacon signal generation information set in the second step, Method for generating a periodic beacon signal for a hard handover, characterized in that the information including the frequency, the output level, the generation time and the path of the beacon signal according to the generation order of the beacon signal. The method according to any one of claims 1 to 3, The fourth step, A ninth step of determining whether a generation sequence of a beacon signal currently generated and a generation period of the predetermined beacon signal are the same; A tenth step of proceeding to the first step if it is determined that the same in the ninth step; And If it is determined that the step is not the same in the ninth step, the eleventh step of generating the beacon signal of the next order after the beacon signal generation sequence currently occurring Periodic beacon signal generation method for a hard handover comprising a. In order to generate a periodic beacon signal for hard handover, in a wireless communication system having a large capacity processor, A first function of determining generation of a periodic beacon signal for hard handover; A second function of setting beacon signal generation information according to the generation order of the beacon signal; A third function of generating a current beacon signal for a set time; And A fourth function of generating a beacon signal next to the current beacon signal generation sequence according to the generation sequence of the currently generated beacon signal and the generation period of the predetermined beacon signal; A computer-readable recording medium having recorded thereon a program for realizing this. The method of claim 6, Fifth function for stopping generation of beacon signal by checking generation stop information of beacon signal A computer-readable recording medium that records a program for further realization.