KR20070079431A - Apparatus and method selecting channel in mobile communication system - Google Patents

Abstract

A channel selection apparatus in a wireless communication system and a method thereof are provided to reduce a loss of the money and the time required for establishing FA(Frequency Allocation) and PN(Pseudo Noise) information in case of additionally installing a base station by enabling a base station to automatically select and establish FA and PN information to execute communication. An apparatus for automatically establishing FA and PN information in a base station comprises a dedicated base station transceiver, a channel information receiving unit, a mode controller(240), and an RF(Radio Frequency) switch(230). The dedicated base station transceiver is provided to support base station services. The channel information receiving unit receives the channel and PN information of neighbor base stations. The mode controller(240) controls the connection between an antenna and the dedicated base station transceiver or between the antenna and the channel information receiving unit according to operation mode of the base station. The RF switch(230) connects the antenna to either the dedicated base station transceiver or the channel information receiving unit according to control of the mode controller(240).

Description

Channel selection apparatus and method in a wireless communication system {APPARATUS AND METHOD SELECTING CHANNEL IN MOBILE COMMUNICATION SYSTEM}

1 is a block diagram illustrating a general base station;

2 is a block diagram of a base station according to the present invention; and

3 is a diagram illustrating a procedure for automatically selecting a channel in a base station according to an embodiment of the present invention.

The present invention relates to an apparatus and method for selecting a channel in a wireless communication system, and in particular, the base station of the wireless communication system automatically acquires neighboring base station information and performs communication and automatically selects PN (Pseudo Noise) information. It relates to an apparatus and a method for setting.

The wireless communication system distributes a base station in each region to support a communication service to various users. However, the base station has a problem in that the cell area is limited and the amount of resources available to one base station is limited.

Therefore, as the number of mobile communication users has increased rapidly in recent years, additional installation of the base station is required to support communication services to more users.

In order to expand the base stations to support a communication service to more users and a wider area, a large cost and human resources are required. In order to solve this problem, a technique for expanding a communication service area while reducing installation costs by installing a small capacity base station (hereinafter, referred to as a home base station) in a general home has been studied.

When the home base station is installed, the base station cannot demodulate control information such as a pilot signal or a PN sequence (Pseudo Noise Sequence) received from neighboring cells. Must be set That is, the technician receives the control information signal from the neighboring cell by using a separate terminal. Thereafter, the base station allocates a frequency band and a PN code through the received neighbor cell information so that the base station can communicate with the neighbor cell without interference.

1 shows a block configuration of a general base station apparatus.

As illustrated in FIG. 1, the base station includes a transmitter, a receiver, a modem 101, an RF switch 111, and a band pass filter (BPF) antenna. do.

The modem 101 performs modulation and demodulation of the transmission and reception signals in the baseband.

The transmitter includes a frequency up converter (103), a digital / analog converter (105), a radio frequency (RF) processor 107, and a power amplifier 109. It is composed.

The frequency upconverter 103 receives the modulated baseband signal from the modem 101 and converts the frequency upconverter into an intermediate frequency band signal.

The digital to analog converter 105 converts an analog signal from a digital signal provided from the frequency up converter 103. The RF processor 107 converts the intermediate frequency band signal provided from the digital-to-analog converter 105 into an RF signal by raising the frequency.

The power amplifier 109 amplifies and outputs power so as to transmit the RF signal provided from the RF processor 107 to a destination.

The receiving device includes an RF processor 115, an analog-digital converter 117, and a frequency down converter 119.

The RF processor 115 converts the RF signal received through the antenna into an intermediate frequency band by frequency down.

The analog / digital converter 117 converts an analog signal provided from the RF processor 115 into a digital signal. The frequency down converter 119 converts an intermediate frequency band digital signal provided from the analog / digital converter 117 into a baseband signal by frequency down and outputs the signal to the modem 101.

The RF switch 111 connects the transceiver device and the band pass filter 113 according to a transmission / reception mode. For example, in the transmission mode, the power amplifier 109 and the band pass filter 113 are connected. In the reception mode, the band pass filter 113 and the RF processor 115 of the reception device are connected. Connect.

The band pass filter 115 filters the transmitted / received signals to generate and output a signal of a transmittable band or a receivable band.

As described above, for cell planning in the base station installation, it is necessary to grasp the frequency band and PN information allocated to the neighboring base stations and allocate the non-overlapping PN information and the common frequency band. However, since the base station cannot collect information of neighboring cells by itself, it is inconvenient to allocate frequency band and PN information to the base station where the base station operator or technician is installed.

Accordingly, an object of the present invention is to provide an apparatus and method for automatically selecting a channel at a base station of a wireless communication system.

Another object of the present invention is to provide an apparatus and method for automatically setting frequency band (Prequency Allocation) and PN (Pseudo Noise) information by checking information of neighbor base stations in a base station of a wireless communication system.

According to a first aspect of the present invention for achieving the above objects, an apparatus for automatically setting frequency information and pseudo noise (PN) information in a base station of a wireless communication system, the base station dedicated transceiver for supporting the base station service And a channel information receiver for receiving channel and PN information of neighboring base stations, a mode controller for controlling the connection between an antenna and the base station dedicated transceiver or the channel information receiver according to an operation mode of the base station; And a radio frequency (RF) switch connecting the antenna to the base station dedicated transceiver or the channel information receiver under the control of a mode controller.

According to a second aspect of the present invention, an operation method of a base station for automatically setting a frequency band and PN (Pseudo Noise) information in a wireless communication system, the frequency band and PN information allocated to neighboring base stations in a preset frequency band Obtaining frequency bands, selecting frequency bands and PN information having no influence on neighboring base stations by using frequency bands and PN information allocated to the neighboring base stations, and providing the selected frequency bands and PN information to base station services. Characterized in that it comprises the step of setting the frequency band and PN information for performing.

According to a third aspect of the present invention, a method for automatically setting frequency band and pseudo noise (PN) information in a base station of a wireless communication system includes a base station manager indicating an instruction signal for searching for frequency bands and PN information of neighboring base stations. Transmitting the information to the base station; and, when the search instruction signal is received, the base station acquires and transmits frequency bands and PN information allocated to neighboring base stations to the base station manager, and the base station manager receives the received information. Selecting frequency bands and PN information that are not affected by neighboring base stations using the allocated frequency bands and PN information of neighboring base stations and transmitting the frequency information and PN information from the base station manager; If necessary, a frequency for performing a base station service on the received frequency band and PN information The station is characterized in that it comprises the step of setting information as PN.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. In describing the present invention, when it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted.

Hereinafter, a technique for automatically setting frequency band (Prequency Allocation) and PN (Pseudo Noise) information for performing communication in a base station of a wireless communication system of the present invention will be described. In the following description, a separate module for receiving frequency information and PN information of neighboring base stations is called a path for a terminal operation.

2 is a block diagram of a base station according to the present invention.

As illustrated in FIG. 2, the base station includes a base station dedicated path 200, a terminal operation path 220, a radio frequency (RF) switch 230, a mode controller 240, and a band pass filter. 250, including an antenna.

The base station dedicated path 200 includes a transmitter, a receiver, and a modem 201.

The modem 201 includes a first modem 217 and a second modem 227 to modulate the demodulated data of the base station dedicated path 200 and the terminal operation path 220. In other words, the first modem 217 performs modulation and demodulation of a signal transmitted and received through the base station dedicated path 200. In addition, the second modem 227 performs a function of demodulating a signal received through the terminal operation path 220 to obtain information of neighboring base stations.

The transmitter includes a frequency up converter (203), a digital / analog converter (205), a radio frequency (RF) processor 207, and a power amplifier 209. It is composed.

The frequency up-converter 203 receives the modulated baseband signal from the modem 201 and converts the frequency up-converted into an intermediate frequency band signal.

The digital-analog converter 205 converts an analog signal from a digital signal provided from the frequency up-converter 203. The RF processor 207 increases the frequency of the intermediate frequency band signal provided from the digital-to-analog converter 205 and converts the signal into an RF signal.

The power amplifier 209 amplifies and outputs power so as to transmit the RF signal provided from the RF processor 207 to a destination.

The receiving device includes an RF processor 211, an analog / digital converter 213, and a frequency down converter 215.

The RF processor 211 converts the RF signal received through the antenna to a frequency down frequency band.

The analog / digital converter 213 converts the analog signal provided from the RF processor 211 into a digital signal. The frequency down converter 215 converts an intermediate frequency band digital signal provided from the analog / digital converter 213 into a baseband signal and outputs the frequency to the modem 201.

Next, the path 220 for the terminal operation includes an RF processor 221, an analog / digital converter 223, and a frequency down converter 225. The control information (eg, frequency band, PN code) is performed. Here, since the configuration module of the terminal operation path 220 only has a difference in the received frequency band, and performs the same operation as the receiving device of the base station dedicated path 200, a description thereof will be omitted.

The RF switch 230 is composed of a 3 × 1 switch, and connects the base station dedicated path 200 and the terminal operation path 220 with the antenna under the control of the mode controller 240. For example, to set the frequency band and PN information by first installing or moving the base station, the antenna and the terminal operation path 220 are connected. When the frequency band and the PN information are set, the antenna of the base station dedicated path 200 is connected to the antenna according to a transmission / reception mode.

The mode controller 240 generates a control signal whether the base station performs a general base station operation or a terminal operation for setting frequency allocation information and PN information according to a signal received from a base station manager. To control the switch 230.

The band pass filter 250 filters signals transmitted and received to generate and output a signal of a transmittable band or a receivable band.

As described above, although the base station uses one modem for demodulating a signal received through the base station service and the terminal operation path, the modem may exist respectively in the base station service and the terminal operation path.

3 illustrates a procedure for automatically selecting a channel in a base station according to an embodiment of the present invention.

Referring to FIG. 3, first, when the base station 301 is newly installed or mobilely installed, the base station manager 303 performs a terminal mode to the base station 301 to set frequency band and PN information according to neighbor base station information. The control signal is transmitted to operate in step 311.

When the control signal is received from the base station manager 303, the base station 301 prepares to operate in the terminal mode (step 313). For example, if a general base station service is performed before the mobile installation, the base station service is stopped.

Thereafter, the base station manager 303 transmits a signal indicating that it is ready to operate in the terminal mode (step 315).

When the base station manager 303 receives a signal indicating that the base station 301 is ready for operation in the terminal mode, the base station manager 303 transmits a cell detection indication signal for the corresponding band to the base station 301 (step 317). .

When the cell detection indication signal is received, the base station 301 receives a signal from neighbor base stations and acquires frequency band and PN information allocated to the neighbor base stations (step 319). Thereafter, the base station 301 transmits the frequency band and PN information allocated to the acquired neighbor base stations to the base station manager 303 (step 321).

The base station manager 303 selects a frequency band common to the PN code that does not affect the neighbor base stations by using the frequency bands and PN information allocated to the neighbor base stations provided from the base station 301 (step 323). Thereafter, the base station manager 303 transmits the selected PN information, the frequency band information, and the terminal mode release signal to the base station 301 (step 325).

When the base station 301 receives the selected PN information, the frequency band information, and the terminal mode release signal from the base station manager 301, the base station 301 performs base station service on the PN information and the frequency band defined by the base station manager 303. Set to PN information and frequency band. Thereafter, the terminal model is released (step 327).

The above-described embodiment has been described with an example of controlling to automatically set the frequency band and PN information in the base station using a separate base station manager. In another embodiment, the base station may automatically set frequency band and PN information for performing a base station service by using frequency band and PN information allocated to neighboring base stations.

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 determined not only by the scope of the following claims, but also by the equivalents of the claims.

As described above, when a base station is additionally installed by automatically setting a frequency band and PN information for performing communication by having a separate terminal operation path in a base station of a wireless communication system, There is an advantage that can reduce the financial / time loss for setting the PN information manually.

Claims (9)

An apparatus for automatically setting a frequency band and PN (Pseudo Noise) information in a base station of a wireless communication system, A base station dedicated transceiver for supporting the base station service; A channel information receiver for receiving channel and PN information of neighboring base stations; A mode controller for controlling a connection between an antenna and the base station dedicated transceiver or the channel information receiver according to an operation mode of the base station; And a radio frequency (RF) switch connecting the antenna to the base station dedicated transceiver or the channel information receiver under the control of the mode controller. The method of claim 1, The base station dedicated transceiver and the channel information receiving device, characterized in that for sharing a modem for modulating / demodulating the transmission and reception signals according to the operation mode of the base station. The method of claim 1, The base station dedicated transceiver and the channel information receiving device, characterized in that it comprises a separate modem. The method of claim 1, The operation mode of the base station, characterized in that any one of the base station service mode, the frequency band and the PN information setting mode. The method of claim 4, wherein When the RF switch supports the base station service under the control of the mode controller, the RF switch connects the base station dedicated transceiver with the antenna, And setting the frequency band and the PN information, and connecting the channel information receiving apparatus and the antenna. A method of operating a base station for automatically setting frequency band and pseudo noise (PN) information in a wireless communication system, Searching for signals of neighbor base stations to obtain frequency bands and PN information allocated to the neighbor base stations; Setting the PN information and the frequency band having no influence on the neighboring base stations by using the obtained frequency bands and the PN information allocated to the neighboring base stations; And performing a base station service using the set frequency information and the PN information. The method of claim 1, When setting the frequency band and the PN information, checking whether the base station service is performed; If the base station service is performed, further comprising the step of stopping the base station service. In the method for automatically setting the frequency band and PN (Pseudo Noise) information in the base station of the wireless communication system, The base station manager transmits an indication signal for searching for frequency bands and PN information of neighboring base stations to the base station; Receiving, by the base station, the frequency band and PN information allocated to neighboring base stations and transmitting the PN information to the base station manager; The base station manager selects and transmits to the base station PN information and frequency bands having no influence on neighbor base stations by using the received frequency bands and PN information of the neighbor base stations; And when the frequency band and PN information are received from the base station manager, setting the received frequency band and PN information as frequency band and PN information for performing a base station service. The method of claim 8, When the base station receives a switching signal for the frequency band and the PN information setting mode from the base station manager, determining whether the base station service is being performed; If the base station service is being performed, further comprising stopping the base station service being performed.

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