KR100612145B1 - Apparatus for controlling terminal hand-over using beacon signal generator - Google Patents

Abstract

The present invention relates to an apparatus for controlling handover of a terminal using a beacon signal in a mobile communication network in which at least two cells having different frequency channels are overlapped.

In the present invention, when the handover request signal is received from the terminal, the hard handover so that the terminal disconnects the current frequency and changes to a new frequency used by the new base station (the base station to which the terminal is to hand over) so that the service can be continued. Generate a beacon signal for To this end, the present invention uses a beacon signal generator located inside the new base station, the beacon signal generator generates a beacon signal, and then amplifies the generated beacon signal by a predetermined size. At this time, the beacon signal generator recycles a signal amplifier (Amplifier) already installed in the new base station so that the beacon signal is amplified by a predetermined size. That is, a signal amplifier is used in common.

Through this, it is possible to achieve cost reduction and size reduction of the beacon signal generator.

Beacon Signals, Signal Amplifiers, Recycling, Base Stations, Cost Savings, Size Reduction

Description

Handover control device of terminal using beacon signal generator {APPARATUS FOR CONTROLLING TERMINAL HAND-OVER USING BEACON SIGNAL GENERATOR}

1 is a diagram illustrating a beacon signal generator according to the prior art.

2 is a diagram illustrating a schematic configuration of an apparatus for handover control of a terminal using a beacon signal generator according to an exemplary embodiment of the present invention.

FIG. 3 is a diagram illustrating an internal configuration of a handover control device of a terminal shown in FIG. 2.

4 is a diagram illustrating a detailed configuration of the beacon signal generator shown in FIG.

5 is a diagram illustrating a detailed configuration of an apparatus for handover control of a terminal according to another embodiment of the present invention.

6 is a diagram illustrating a detailed configuration of an apparatus for handover control of a terminal according to another embodiment of the present invention.

The present invention relates to a beacon signal generator, and more particularly, to an apparatus for amplifying a beacon signal using a signal amplifier of a new base station (a base station to be handed over by a terminal).

In general, in a mobile communication network in which at least two cells having different frequency channels overlap each other, hard handover frequently occurs between FA (Frequency Assignment, hereinafter called 'FA').

Specifically, when a general base station that is responsible for processing traffic per cell and a single base station or a base station that operates fewer FAs than each base station are disposed adjacent to each other, a call is moved compared to moving in the same FA when the terminal moves due to different FAs. Call-drops often occur.

Therefore, the beacon signal is used as one of several methods for increasing the hard handover success rate between FAs in the boundary cell.

In addition, recently, beacon signals for hard handover between a second generation mobile communication system (2G system) based on International Standard (IS) -95 and a 2.5 generation mobile communication system (2.5G system) based on CDMA 2000 1X A display example of a device for generating such a beacon signal is attached to FIG. 1.

In general, the beacon signal generator 20 is designed as an independent rack (rack), as shown in Figure 1, the rack includes a signal amplification element (AMP, 10) for beacon signal amplification.

As a result, the beacon signal generator 20 not only causes a manufacturing cost increase but also causes an enlargement.

Therefore, there is an urgent need for a low cost and miniaturized beacon signal generator and a method of performing handover using the same when performing hard handover of a base station.

The technical problem to be solved by the present invention is to solve this problem, and by amplifying the beacon signal by a predetermined size by recycling the signal amplifier of the base station to be handed over by the terminal, it is possible to achieve cost reduction and reduction in equipment size It is to provide a handover control device of a terminal using a beacon signal generator.

An apparatus for handover control of a terminal using a beacon signal generator according to an aspect of the present invention for achieving the above object is to control the handover of the terminal in a mobile communication network in which at least two cells having different frequency channels are overlapped. An apparatus comprising: a transceiver for converting a service related signal including a traffic channel and an overhead channel received from the outside into a radio frequency (RF) signal; A signal amplifier for amplifying and outputting the converted RF signal by a predetermined magnitude; A COMU (Combiner Unit) for filtering and outputting the amplified signal; And an end portion of the signal output from the COMU to filter out a beacon signal, which is a signal for transmitting a handover request signal to a new base station to which the terminal is to be handed over, to be transmitted to the terminal. After generating a beacon signal by selecting a specific frequency signal from the output signal, and further comprising a beacon signal generator for outputting the generated beacon signal to the signal amplifier to amplify the beacon signal by a predetermined size.

In addition, the beacon signal generator according to another aspect of the present invention, the beacon signal generator in the base station in charge of the traffic processing of the terminal, a new base station to select a specific frequency signal from the signal input from the outside of the base station to the handover A first filter for generating a beacon signal, which is a signal for transmitting a handover request signal to a base station; And a second filter configured to transmit the generated beacon signal to a signal amplifier built in the new base station so that the beacon signal is amplified by a predetermined magnitude through the signal amplifier, and then filter the amplified beacon signal.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art may easily implement the present invention. As those skilled in the art would realize, the described embodiments may be modified in various different ways, all without departing from the spirit or scope of the present invention. In the drawings, parts irrelevant to the description are omitted in order to clearly describe the present invention. Like parts are designated by like reference numerals throughout the specification.

2 is a diagram illustrating a schematic configuration of an apparatus for handover control of a terminal using a beacon signal generator according to an exemplary embodiment of the present invention.

As shown in FIG. 2, the mobile communication network A has a structure in which at least two cells having different frequency channels are overlapped with each other, and each cell provides a multimedia service to the terminal 300 by using each frequency channel. to provide.

In addition, the handover control apparatus 100 of a terminal according to an embodiment of the present invention is included in a new base station 400 which is a base station to which the terminal 300 will handover, and the new base station 400 is an international standard (IS)-. 95 may be a base station of a second generation mobile communication system (2G system), or in some cases may be a base station of a 2.5 generation mobile communication system (2.5G system) based on CDMA 2000 1X.

However, the present invention is not limited to this and may be included in a base station in a mobile communication system that provides a multimedia service of other characteristics in some cases.

In detail, when the handover request signal is received from the terminal 300, the handover control apparatus 100 of the terminal according to an embodiment of the present invention disconnects the current frequency and uses the new base station 400. A beacon signal is generated for hard hand-over to switch to a new frequency to keep the service available.

For reference, the beacon signal is a frequency channel required for the terminal 300 to request handover to the new base station 400, and includes PN (Pseudo Noise) information and the Frequency Assignment (FA) information of the new base station 400. do.

At this time, the handover control device 100 of the terminal according to an embodiment of the present invention generates a beacon signal using a beacon signal generator (not shown), the beacon signal generator is a new signal to amplify the generated beacon signal by a predetermined magnitude; The signal amplifier (Amplifier) in the base station 400 is recycled. That is, a signal amplifier built in the new base station 400 is used in common.

For this reason, the beacon signal generator according to the embodiment of the present invention does not have an amplifier separately, which may result in cost reduction and equipment size reduction. In addition, the handover control device 100 of the terminal including the beacon signal generator also does not have a double signal amplifier, thereby resulting in cost reduction and reduction in equipment size.

The above configuration will be described in detail with reference to the accompanying drawings.

First, FIG. 3 is a diagram illustrating a detailed configuration of an apparatus for handover control of a terminal according to an exemplary embodiment of the present invention.

As shown in FIG. 3, the handover control apparatus 100 of a terminal according to an exemplary embodiment of the present invention includes a transceiver 120, a signal amplifier 130, a COMU (Combiner Unit 140), and a termination unit (Front−). End Unit (150), and further comprises a beacon signal generator (110).

In addition, the handover control device 100 of the terminal forms a common aerial system structure through the COMU 140.

Specifically, the beacon signal generator 110 is connected to the termination unit 150 and the signal amplifier 130 to use a signal output from the termination unit 150 as an input signal, the beacon signal as an output signal is a new base station ( It is input to the signal amplifier 130 of 400 to be amplified by a predetermined size and then output.

The signal amplifier 130 includes a high power amplifier (HPA) or a linear power amplifier (LPA), in which the handover control device 100 of the terminal is located within the new base station (400 in FIG. 2) of the second generation mobile communication system. If located, include HPA and LPA, if located in the new base station 400 of the 2.5 generation mobile communication system includes the LPA.

For reference, in FIG. 3 and FIGS. 5 and 6 to be described below, a solid line (for example, a solid line output from the transceiver in FIG. 3 and input to the signal amplifier) is a low output RF signal, and a thick solid line (for example, FIG. In Fig. 3, a thick solid line outputted from the signal amplifier and input to the COMU indicates an RF signal amplified by a predetermined size.

Referring to each component, the transceiver 120 first converts a signal input from the outside into a radio frequency (RF) signal.

In detail, the transceiver 120 receives overhead channel signals (pilot, paging and synchronization signals, etc.) and traffic channels from a modem (Modem, not shown, or a channel card) and converts them into IF (Intermediate Frequency) signals. Then, it converts to RF signal and outputs.

The signal amplifier 130 amplifies the signal output from the transceiver 120 and the beacon signal received from the beacon signal generator 110 by a predetermined magnitude, and has an amplification value of about 45 dB to 60 dB relative to the input signal depending on the manufacturer.

Prior to this, the beacon signal generator 110 selects a specific frequency signal among the frequency signals (-forward channel-) received from the termination unit 150 and RF converts the signal into a beacon signal (boundary frequency), and the converted frequency signal Is input to the signal amplifier 130 of the new base station 400 to be output after amplification.

In general, an apparatus for generating a beacon signal RF conversion using a frequency signal serviced to the terminal as an input value, and then amplifies and outputs the RF-converted beacon signal by a predetermined size, the beacon signal generator according to an embodiment of the present invention 110 amplifies the beacon signal by a predetermined size, and recycles the signal amplifier 130 mounted on the handover control device 100 of the terminal.

As a result, the beacon signal generator 110 may achieve cost reduction and size reduction of the equipment.

Next, the COMU 140 performs filtering on the forward channel. The COMU 140 filters the beacon signal received from the signal amplifier 130 and outputs the signal to the termination unit 150.

The end 150 serves as a band pass filter (BPF) for the beacon signal received from the COMU 140, the frequency for which the terminal 300 requests handover to the new base station 400. Beacon signal, a channel, is output to the outside through an antenna.

Here, the internal configuration of the beacon signal generator 110 according to the embodiment of the present invention will be briefly described.

FIG. 4 is a diagram illustrating an internal configuration of the beacon signal generator shown in FIG. 3.

As shown in FIG. 4, the beacon signal generator 110 according to the embodiment of the present invention includes the BPFs 111 and 113 and the mixer 112.

In brief, the beacon signal generator 110 generates a beacon signal by filtering a signal received from the terminal (150 of FIG. 3), and then, without amplifying the generated beacon signal, is external (signal amplifier, FIG. 3). 130). Then, the signal amplifier 130 amplifies and outputs the input beacon signal by a predetermined size, so that it is transmitted to the terminal 300 through the antenna.

As such, the beacon signal generator 110 according to the embodiment of the present invention amplifies the generated beacon signal to a size that can be received by the receiver (terminal), the new base station 400, not the beacon signal generator 110 Recycle the signal amplifier 130 that is already mounted on. Through this, the beacon signal generator 110 can achieve cost reduction and downsizing of equipment.

Next, FIG. 5 is a diagram illustrating a detailed configuration of an apparatus for handover control of a terminal according to another embodiment of the present invention.

As shown in FIG. 5, the handover control apparatuses 100 and 100 ′ of the terminal according to another embodiment of the present invention form an individual aerial system structure by utilizing idle materials of the new base station (400 of FIG. 2).

Specifically, the handover control device 100, 100 ′ of a terminal according to another embodiment of the present invention may include a transceiver 120, first and second signal amplifiers 130 and 130 ′, first and second COMUs ( 140, 140 ′), first and second terminations 150, 150 ′, and further include a beacon signal generator 110.

First, the beacon signal generator 110 generates a beacon signal by using the signal output from the first end unit 150 as an input signal, and then outputs the generated beacon signal to the second signal amplifier 130 '. Then, the second signal amplifier 130 'amplifies and outputs the input beacon signal by a predetermined size, so that the second end portion 150' is later transmitted to the terminal through the individual antenna.

As such, the handover control device 100, 100 ′ of the terminal is a signal that is already installed in the handover control device 100 ′, rather than the signal amplifier provided with the beacon signal generator 110, as described above. The amplifier 130 'is recycled so that the beacon signal is amplified by a predetermined magnitude.

Through this, the beacon signal generator 110 can achieve cost reduction and size reduction of the equipment, and the handover control device of the terminal including the beacon signal generator 110 also does not have a double signal amplifier, Cost reduction and equipment size reduction can be achieved.

For reference, the handover control apparatus (100, 100 ') of the terminal according to another embodiment of the present invention is the first and second signal amplifiers (130, 130') and the first and second terminations (150, 150 ') ) May not include the first and second COMUs 140 and 140 ′, the first and second terminations 150 and 150 ′, and the like.

Next, FIG. 6 is a diagram illustrating a detailed configuration of an apparatus for controlling handover of a terminal according to another embodiment of the present invention.

As shown in FIG. 6, the beacon signal generator 110 of the handover control apparatus 100 of the terminal according to another embodiment of the present invention is a signal amplifier 130 of a 2.5 generation mobile communication system based on CDMA 2000 1X. LPA is recycled to amplify the beacon signal by a predetermined amount. Then, the LPA 130 forms a common aerial system structure.

Specifically, the handover control device 100 of a terminal according to another embodiment of the present invention includes a transceiver 120, a signal amplifier 130 and the termination unit 150, and comprises a beacon signal generator 110 It includes more. In addition, the signal amplifier 130 includes an LPA.

As described above, the beacon signal generator 110 generates a beacon signal using the signal output from the termination unit 150 as an input signal, and then converts the generated beacon signal to LPA, which is a signal amplifier 130. Output it. Then, the signal amplifier 130 amplifies the input beacon signal by a predetermined size, and then radiates to the outside through the antenna.

As such, the handover control apparatus for a terminal using a beacon signal generator according to an embodiment of the present invention proposes a beacon signal generator without a signal amplifier, and at the same time, selects a signal amplifier (HPA or LPA) of a new base station to which the terminal is to be handed over. By recycling, cost reduction and equipment size reduction can be achieved.

In addition, the present invention proposes an aerial system for introducing a beacon signal generator without a signal amplifier to the signal amplifier of the new base station.

The drawings and detailed description of the invention are exemplary only, and are used for the purpose of illustrating the invention only, and are not intended to be limiting or to limit the scope of the invention described in the claims. Therefore, those skilled in the art will understand that various modifications and equivalent other embodiments are possible. Therefore, the true technical protection scope of the present invention will be defined by the technical spirit of the appended claims.

The apparatus for handover control of a terminal using a beacon signal generator according to the present invention recycles a signal amplifier of a new base station to be handed over by amplifying a beacon signal by a predetermined size, thereby reducing the cost and equipment of the beacon signal generator. Size reduction can be achieved.

In addition, the handover control device of the terminal including the beacon signal generator can also achieve cost reduction and equipment size reduction.

Claims (8)

An apparatus for controlling handover of a terminal in a mobile communication network in which at least two cells having different frequency channels overlap each other, A transceiver for converting a service related signal including a traffic channel and an overhead channel received from the outside into a radio frequency (RF) signal; A signal amplifier for amplifying and outputting the converted RF signal by a predetermined magnitude; A COMU (Combiner Unit) for filtering and outputting the amplified signal; And An end portion of the signals output from the COMU to be transmitted to the terminal by filtering the beacon (Beacon) signal, which is a signal for transmitting the handover request signal to the new base station that is the base station to be handed over Including; A beacon signal generator for generating a beacon signal by selecting a specific frequency signal from the signal output from the terminal, and outputs the generated beacon signal to the signal amplifier to amplify the beacon signal by a predetermined magnitude Handover control device of the terminal further comprising. According to claim 1, The transceiver, signal amplifier, termination and beacon signal generator are located within the new base station, The new base station is a handover control device of a terminal forming a common aerial system structure through the COMU. The method of claim 2, If the new base station is a base station of a second generation mobile communication system based on International Standard (IS) -95, the signal amplifier is a handover control device of a terminal including a high power amplifier (HPA) or a linear power amplifier (LPA) . The method of claim 2, If the new base station is a base station of a 2.5 generation mobile communication system based on code division multiple access (CDMA) 2000 1X, the signal amplifier includes a LPA (Linear Power Amplifier). In the beacon signal generator at the base station in charge of the traffic processing of the terminal, A first filter which selects a specific frequency signal from an external signal and generates a beacon signal, which is a signal for transmitting a handover request signal to a new base station, which is a base station to be handed over; And A second filter for transmitting the generated beacon signal to a signal amplifier embedded in the new base station to amplify the beacon signal by a predetermined magnitude through the signal amplifier, and then filtering the amplified beacon signal Beacon signal generator comprising a. The method of claim 5, The signal amplifier includes a beacon signal generator including a high power amplifier (HPA) or a linear power amplifier (LPA). An apparatus for controlling handover of a terminal in a mobile communication network in which at least two cells having different frequency channels overlap each other, First and second signal amplifiers for amplifying a signal input from the outside by a predetermined amount First and second COMUs (Filter Units) for filtering and outputting the amplified signal, respectively; The first and second filters the beacon signal, which is a signal for transmitting the handover request signal to the new base station, which is the base station to be handed over, from the signals output from the first and second COMUs, to be transmitted to the terminal. Termination; And A beacon signal generator for generating a beacon signal by using the signal output from the first terminal as an input signal, and then outputting the generated beacon signal to the second signal amplifier to amplify the beacon signal by a predetermined magnitude. Including; The first and second end portions, handover control device of the terminal forming a separate aerial system structure. An apparatus for controlling handover of a terminal in a mobile communication network in which at least two cells having different frequency channels overlap each other, A transceiver for converting a service related signal including a traffic channel and an overhead channel received from the outside into a radio frequency (RF) signal; A signal amplifier for amplifying and outputting the converted RF signal by a predetermined magnitude; An end portion of the signal output from the signal amplifier, the terminal filtering the beacon signal, which is a signal for transmitting a handover request signal to a new base station to which the terminal is to be handed over, to be transmitted to the terminal; And A beacon signal generator for generating a beacon signal by selecting a specific frequency signal from the signal output from the terminal, and outputs the generated beacon signal to the signal amplifier to amplify the beacon signal by a predetermined magnitude Including; The signal amplifier includes a linear power amplifier (LPA), the handover control device of the terminal to form a common aerial system structure through the LPA.

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