KR101395331B1 - Method And System for Providing InBuilding Mobile Communication Service through ReMoving Passive InterModulation Signal - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a mobile communication service method and system for in-building using passive element intermodulation signal cancellation.

The present invention relates to an antenna unit installed in a specific building and interlocking with a mobile communication terminal located in a specific building. A base station signal transmitting and receiving unit installed in a specific building and interworking with a mobile communication base station and transmitting and receiving multiple signals including multiple frequencies; And a communication repeater for an inbuilding which receives a multiplex signal from the base station signal transceiver and generates a multiplexed filtering signal amplified and filtered and transmits the multiplexed filtering signal to an antenna unit, The method includes generating an estimated intermodulation signal using at least one use signal corresponding to a used frequency, receiving an adjacent signal corresponding to an adjacent frequency of the used frequency from the antenna section, extracting a correlation between the estimated intermodulation signal and the adjacent signal, And a passive component intermodulation signal canceling unit for removing the passive component intermodulation signal included in the adjacent signal to transmit the removed signal to the base station signal transmitting and receiving unit. System.

In Building, Mobile Communications, Intermodulation, InterModulation, Nonlinear, Elimination, Passive Devices

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a mobile communication service method and system for in-building using a passive element intermodulation signal cancellation,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a mobile communication service method and system for in-building using passive element intermodulation signal cancellation. More particularly, the present invention relates to a mobile communication service for in-building which improves the quality of mobile communication service by effectively eliminating a complicated non-linear intermodulation signal generated in communication equipment using various frequencies and distorting a signal to prevent signal distortion And more particularly, to a mobile communication service method and system for in-building using passive element intermodulation signal cancellation.

2. Description of the Related Art [0002] In recent years, as computer, electronic, and communication technologies have dramatically developed, various wireless communication services using a wireless network have been provided. Accordingly, a service provided in a mobile communication system using a wireless communication network is developing as a multimedia communication service for transmitting data such as circuit data, packet data, and the like as well as voice services.

Such mobile communication services are continuously diversifying, and the number of subscribers is also increasing. According to this trend, mobile communication service providers are providing services by securing multiband frequencies. That is, a plurality of frequency bands in the same mobile communication system are secured to provide a service, or various frequencies are used to configure a communication network so that a plurality of mobile communication systems are overlapped to provide a service according to each mobile communication system .

The provision of services using these various frequencies provides opportunities for mobile communication carriers to open up new markets, but the cost of network construction is burdensome. Therefore, it is necessary to maximize the cost of the network construction by making full use of the established communication network, and studies are underway.

However, due to nonlinear characteristics in passive devices such as antennas included in communication networks, there are serious problems in using various frequencies. In the process of processing signals of different frequency components, an "intermodulation (intermodulation) signal" having a nonlinear characteristic for distorting a desired signal is generated. If the frequency of the signal matches the frequency of the signal, it can not be removed even through a sophisticated band pass filter (BPF).

Therefore, there is a need for technology development for mobile communication service for in-building using intermodulation signal cancellation.

SUMMARY OF THE INVENTION In order to solve the above-described problems, the present invention provides a mobile communication system that effectively removes a complicated nonlinear intermodulation signal generated in a passive element of a communication system using various frequencies, And to provide a mobile communication service method and system for in-building using an intermodulation signal cancellation for providing a mobile communication service for building.

According to an aspect of the present invention, there is provided a mobile communication terminal comprising: an antenna unit installed in a specific building and interlocked with a mobile communication terminal located in the specific building; A base station signal transmitting and receiving unit installed in the specific building and interworking with a mobile communication base station and transmitting and receiving multiple signals including multiple frequencies; And an in-building communication repeater for receiving the multi-signal from the base station signal transmitter and receiver, generating a multi-filtering signal obtained by amplifying and filtering the multi-signal, and transmitting the multi-filtering signal to the antenna unit, The apparatus generates an estimated intermodulation signal using one or more use signals corresponding to a frequency of use among the multiple filtering signals and receives an adjacent signal corresponding to a frequency adjacent to the used frequency from the antenna unit, And a passive component intermodulation signal canceling unit for extracting a correlation between the signal and the adjacent signal and transmitting a cancel signal from the passive component intermodulation signal included in the adjacent signal to the base station signal transmitting and receiving unit. For in-building use with intermodulation rejection And provides the communication service system.

According to another aspect of the present invention, there is provided a method for generating a multi-filtering signal, comprising: (a) receiving a multi-signal from a base station signal transmitting and receiving unit and generating a multi- (b) generating an estimated intermodulation signal using one or more use signals corresponding to a use frequency among the use signals; (c) receiving an adjacent signal corresponding to an adjacent frequency of a specific frequency from the antenna unit; (d) extracting a correlation between the estimated intermodulation signal and the adjacent signal and generating an elimination signal by removing an intermodulation signal included in the adjacent signal; And (e) transmitting the cancellation signal to the base station signal transmitting and receiving unit. The mobile communication service method for in-building using passive device intermodulation cancellation.

As described above, according to the present invention, complex non-linear intermodulation signals which are generated in communication equipment using various frequencies and which distort a signal are effectively removed to prevent signal distortion, There is provided an effect of providing a mobile communication service for in-building using a passive element intermodulation signal cancellation for providing a mobile communication service for a mobile communication service.

Further, according to the present invention, since only one in-building system is installed in a specific building and a plurality of mobile communication providers can share the same, mobile communication services can be provided. Therefore, And the damage caused by the installation of the in-building system in a specific building is minimized.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the drawings, the same reference numerals are used to designate the same or similar components throughout the drawings. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

1 is a block diagram schematically showing a system for providing a mobile communication service for in-building using intermodulation signal cancellation according to the first and second embodiments of the present invention.

The system for providing mobile communication services for building using intermodulation signal cancellation according to the first and second embodiments of the present invention includes an in-building relay system 100 and a mobile communication base station 140.

The in-building repeater system 100 according to the first and second embodiments of the present invention is a mobile communication repeater system installed in a specific building. The repeater system includes an antenna unit 110, an in-building communication repeater 120, And a signal transmitting and receiving unit 130.

The antenna unit 110 means a signal transmission / reception means installed in a specific building and interlocked with a mobile communication terminal located in a specific building.

The building communication relay apparatus 120 receives the multiplexed signal of multiple frequency components from the base station signal transmitting and receiving unit 130, generates a multiplexed filtering signal by amplifying and filtering the multiplexed signal, and outputs the multiplexed filtering signal to the antenna unit 110 .

In addition, the communication relay device 120 for building according to the first and second embodiments of the present invention includes a passive device intermodulated signal canceling device 122. [

The passive component intermodulation signal canceling unit 122 generates an estimated intermodulation signal by using one or more use signals corresponding to the used frequency among the multiple filtering signals generated by the in-building communication relay apparatus 120, 110) and extracts the correlation between the estimated intermodulated signal and the adjacent signal, and transmits the removed signal to the base station signal transmitting and receiving unit by removing the intermodulation signal included in the adjacent signal .

The base station signal transmitting and receiving unit 130 is installed in a specific building and performs a function of transmitting and receiving multiple signals including multiple frequencies in cooperation with the mobile communication base station 140.

The mobile communication base station 140 is connected to the in-building transit system 100 and includes a signal for performing various functions such as voice communication service, wireless data service, wireless Internet service, video call or message service, Quot;

That is, the mobile communication base station 140 may perform a location registration function of a mobile communication terminal located in a specific building, a function of allocating a wireless channel, a handoff function, etc., in cooperation with the base station signal transmission / reception unit 130 of the in- And performs all necessary functions for wireless call processing.

In addition, the mobile communication base station 140 may include a base station of a plurality of mobile communication carriers.

2 is a block diagram schematically showing an in-building relay apparatus according to the first and second embodiments of the present invention.

The communication relay apparatus 120 for building according to the first and second embodiments of the present invention includes an amplification unit 210, a filter unit 220, a duplexer 230, a passive element 240, And a passive element intermodulation signal canceling device 122.

The amplifying unit 210 includes a first amplifier 216, a second amplifier 214 and a third amplifier 212. The amplifying unit 210 receives and amplifies multiple signals from the base station signal transmitting and receiving unit 130 do.

The filter unit 220 includes a first filter 226, a second filter 224 and a third filter 226 and outputs an unnecessary signal in a signal received from the amplification unit 210 or the duplexer 230 And remove it.

The duplexer 230 is connected to the passive element 240 and performs a function of integrating each signal in the in-building communication repeater 120.

The passive element 240 may be one of a feed line, a distributor, an antenna section 110, and a cable.

The passive component intermodulation signal canceling unit 122 generates an estimated intermodulation signal by using one or more use signals corresponding to the used frequency among the multiple filtering signals generated by the amplifying unit 210 and the filter unit 220, And extracts the correlation between the estimated intermodulation signal and the adjacent signal to remove the intermodulation signal included in the adjacent signal, and transmits the removed signal to the base station signal transmission / reception unit .

In the present invention, for convenience of description, the frequency to be used among the multiple frequencies is defined by being divided into a first frequency f1 and a second frequency f2, a first frequency f1 component is defined as a first signal 10, And the second frequency (f2) component is defined as the second signal 20.

The third signal 40 transmitted to the base station signal transmitting and receiving unit 130 by removing the intermodulation signal and the fourth signal 30 including the passive component intermodulation signal will be described below.

The building communication relay apparatus 120 receives the first signal 10 of the first frequency f1 component from the base station signal transmitting and receiving unit 130 and transmits the first signal 10 to the first amplifier 216 And removes an unnecessary signal using the first filter 226, and then transmits the amplified signal to the passive device intermodulation signal canceling device 122.

When the second signal 20 of the second frequency (f2) component is input from the base station signal transmitting and receiving unit 130, the in-building communication relay apparatus 120 transmits the second signal 20 to the second amplifier 214 ), Removes unnecessary signals using the second filter 224, and transmits the amplified signal to the passive device intermodulation signal remover 122.

When the fourth signal 30 is input from the passive element 240, the in-building communication relay device 120 removes the unnecessary signal using the third filter 222 and outputs the fourth signal 30 Amplified using the third amplifier 212, and then transmitted to the passive device intermodulation signal remover 122. [

3 is a block diagram schematically showing a passive device intermodulation signal canceling apparatus according to a first embodiment of the present invention.

3 is a schematic diagram of a passive device intermodulation signal rejection apparatus according to the present invention. First, the above-mentioned "passive component intermodulation signal" refers to an intermodulation signal generated in passive devices provided in a communication device, and generates noise in an adjacent frequency band to lower the signal- Which is a signal to be removed in the present invention.

3, a passive device intermodulation signal canceling device 122 for removing an intermodulation signal generated in a passive device in a communication equipment according to the present invention includes a first signal 10 and a second signal 20 M virtual intermodulation signal generators 310 for receiving and outputting virtual intermodulation signals and outputting the virtual intermodulation signals and for generating K nonlinear signals for each virtual intermodulation signal, Modulated signal, and when the third signal 40 and the fourth signal 30 including the intermodulation signal are input, the generated estimated intermodulation signal is used to generate the estimated intermodulated signal from the fourth signal 30 And a passive component intermodulation signal elimination managing unit 320 for eliminating the intermodulation signal.

The virtual intermodulation signal generation unit 310 receives the first signal 10 of the first frequency f1 component and the second signal 20 of the second frequency f2 component, Modulated signal of the combined frequency components as the sum and the difference of the harmonic frequencies of the input signal. Such virtual intermodulation signals may include signals of frequency components such as 2f1-f2 and 2f2-f1. The virtual intermodulation signal generation unit 310 may include an active element and / or a passive element.

The passive component intermodulation signal elimination managing unit 320 may include a signal order modifying unit for generating a non-linear signal of a specific order from the virtual intermodulation signal outputted from the virtual intermodulation signal generating unit 310. [ If it is desired to generate K nonlinear signals for one virtual intermodulation signal input from one virtual intermodulation signal generator 310, the signal order modification unit may generate a nonlinear signal from the first order nonlinear signal to the K order nonlinear signal, . Where K is a positive integer. Therefore, the K nonlinear signals generated by the passive component intermodulation signal elimination managing unit 320 include first order nonlinear signals to K order nonlinear signals.

The passive component intermodulation signal elimination management unit 320 generates an estimated intermodulation signal similar to the intermodulation signal for combining and eliminating (M x K) nonlinear signals by controlling (adjusting) the filter coefficients, The device intermodulation signal elimination managing unit 320 includes a coupling unit performing this function. The filter coefficient setting for generating a similar estimated intermodulation signal at the combining unit in the passive element intermodulation signal elimination managing unit 320 can be performed through various methods of algorithms.

The passive component intermodulation signal elimination managing unit 320 includes an elimination unit 323 for receiving the estimated intermodulation signal and the fourth signal 30 and eliminating the intermodulation signal included in the fourth signal 30.

The demultiplexer 323 that performs the intermodulation signal cancellation function includes a fourth signal including an intermodulation signal distorting the third signal 40 and the third signal 40 to be actually received, 30), the intermodulation signal is removed by subtracting the estimated intermodulation signal estimated to be similar to the intermodulation signal.

The number M of the virtual intermodulation signal generators 310 and the order K of the nonlinear signals mentioned above are adjusted and set in accordance with the detection performance result of the third signal 40. By setting the M and K differently , It is possible to implement a passive intermodulation signal canceller having a different structure.

The virtual intermodulation signal generation unit 310 may include various devices such as a passive device and / or an active device capable of generating a virtual intermodulation signal.

The passive device intermodulation signal elimination device 122 according to the present invention includes a plurality of virtual intermodulation signal generators 310 and a passive device intermodulation signal elimination management unit 320 that performs a function of combining the signal order changes and signals (M) virtual intermodulation signals are generated and converted into nonlinear signals of various orders, thereby generating an estimated intermodulation signal similar to the intermodulation signal to be combined and removed. Therefore, the passive device intermodulation rejection device 122 can eliminate intermodulation signals of nonlinear characteristics that can occur in a complex and various manner. Therefore, by improving the signal detection performance in the communication equipment such as the repeater including the passive device intermodulation rejection apparatus and the communication relay apparatus 120 for the in-building, it is possible to provide a highly satisfactory communication service to the user.

3, the passive intermodulation signal canceling apparatus 122 for eliminating the intermodulation signal according to the present invention receives the first signal 10 and the second signal 20, And a passive component intermodulation signal elimination managing unit 320 for generating M virtual intermodulation signal generating units and an estimated intermodulation signal for generating and outputting an intermodulation signal using the generated estimated intermodulation signal, .

2, the passive intermodulation signal elimination managing unit 320 receives the virtual intermodulation signals x ₁ , x ₂ , ..., x _M , And a non-linear signal from the signal order changing unit 321. The signal order changing unit 321 receives the non-linear signal from the M number of virtual intermodulation signal generators and changes the input virtual intermodulation signal into a specific order non- (Y ') using the generated estimated intermodulated signal y' and a combining unit 322 that generates an estimated intermodulated signal y 'similar to the intermodulated signal to be combined and removed, And a demultiplexer 323 for removing the modulated signal.

The signal order changing unit 321 can generate a nonlinear signal of a specific order for each input virtual signal modulated signal. The signal order modifying unit 321 can change the nonlinear signal from the first order to the K order for one virtual signal modulated signal. For example, the first virtual intermodulation signal input from the generator virtual intermodulation signals (x _{1) 1-order} nonlinear signal (x _{¹ 1)} from the secondary non-linear signal (x ₁ ^2), ..., and K primary may generate a non-linear signal (x ₁ ^K), the second virtual intermodulation signals a virtual cross inputted from the generator modulated signal (x ₂₎ 1-order nonlinear signal (x ₂ ^1), _2-order nonlinear signal from (x _{² 2} ), ..., and a K-th order nonlinear signal (x ₂ ^K ). In this way, it is possible to generate (M x K) nonlinear signals by changing all the inputted virtual mutual inference signals (x ₁ , x ₂ , ..., x _M ). Here, M and K are positive integers.

The combining unit 322 receives the (M x K) nonlinear signals from the signal order changing unit 321 by controlling (adjusting) the filter coefficients, thereby generating an estimated intermodulation signal similar to the intermodulation signal The filter coefficient setting for generating a similar estimated intermodulation signal may be performed through various methods of algorithms.

The demultiplexer 323 receives the estimated intermodulation signal from the combining unit 322 and removes the intermodulation signal included in the input fourth signal 30. [ The demultiplexer 323 removes the estimated intermodulation signal transmitted from the combining unit 322 from the third signal 40 to be actually received and the fourth signal 30 including the intermodulation signal to be removed, So that the modulated signal can be removed.

The number M of the virtual intermodulation signal generators 310 and the order K of the nonlinear signals are adjusted and set according to the detection performance result of the third signal. According to the different setting of M and K, Passive intermodulation signal cancellation apparatus of the present invention.

4 is a block diagram schematically showing an intermodulation signal canceling apparatus according to a second embodiment of the present invention.

As shown in FIG. 4, a passive intermodulation canceler (PIMC) for eliminating an intermodulation signal generated in a passive device includes a first frequency component 1 signal 10 and the second signal 20 of the second frequency component to generate an estimated intermodulation signal 50 of the third frequency component and controls the nonlinear characteristic of the generated estimated intermodulation signal to produce an output Modulated signal generated by the passive element and a signal A 60 including the intermodulated signal generated by the passive element and an estimated intermodulated signal 50 output from the estimated intermodulated signal generator 410 And a correlation filtering unit 420 for extracting the correlation between the signal A 60 and the estimated intermodulation signal 50 and eliminating the intermodulation signal included in the signal A 60. The passive device intermodulation signal cancellation device includes an A / D conversion unit for converting an analog signal into a digital signal, a D / A conversion unit for converting the digital signal into an analog signal, and a coupling unit for detecting the signal characteristics As shown in FIG.

The "Passive Intermodulation (PIM) signal generated in the passive element" referred to in the present invention is generated from a passive element such as an antenna, a feeder line, and a divider in a communication apparatus, And generates noise at the frequency of the adjacent band, thereby lowering the signal-to-noise ratio of the reception frequency band, thereby degrading the service quality. In order to eliminate such a passive component intermodulation signal, a signal generated by being controlled to have a high correlation with the passive component intermodulation signal is defined as an "estimated intermodulation signal ", and a signal generated in the active component and / . The "estimated intermodulation signal" of the third frequency component is a signal of the sum of the harmonic frequencies of the first signal of the first frequency component and the second signal of the second frequency component, . For example, when the first frequency is f1 and the second frequency is f2, the estimated intermodulation signal is a signal of a third frequency component including (2f1-f2) and (2f2-f1).

The removal performance of the intermodulation signal in the passive device intermodulation signal canceling device 122 greatly varies depending on how the estimated intermodulation signal generating section 410 generates the estimated intermodulation signal. Therefore, the present invention controls the nonlinear characteristic, the input characteristic, and the output characteristic for the estimated intermodulated signal generation unit 410 included in the passive device intermodulated signal elimination apparatus, so that the estimated mutual modulation signal having a higher correlation with the intermodulated signal So that a modulated signal can be generated. This will be described in more detail with reference to FIG.

5 is a block diagram schematically illustrating an estimated intermodulation signal generator according to a second embodiment of the present invention.

5, an estimated intermodulation signal generator 410 for generating an estimated intermodulation signal by performing control on input characteristics, nonlinear characteristics, and output characteristics includes an input signal controller 510 for controlling input characteristics, A nonlinear control unit 520 for controlling nonlinear characteristics, an output signal controller 540 for controlling an output signal, and a filtering unit 530.

The input signal controller 510 controls the input characteristics by adjusting the signal intensity or the signal waveform of the first signal 10 of the first frequency component and the second signal 20 of the second frequency component, And outputs a first signal 11 whose characteristics are controlled and a second signal 21 whose input characteristic is controlled. The input signal controller 510 controls the signal strength or the signal waveform of the first signal 10 and the second signal 20 based on the input control signal transmitted from the input signal controller 511.

The nonlinear control unit 520 for controlling the nonlinear characteristic may be composed of a nonlinear semiconductor device, so that the nonlinearity of the nonlinear control unit 520 itself may vary depending on the supplied power source, (Non-linearity) of the estimated intermodulation signal to be output (generated) can be changed. This means that the estimated intermodulation signal can be adjusted so that it is similar to the intermodulation signal generated in the passive element.

The nonlinear controller 520 controls the nonlinear characteristic of the generated estimated intermodulated signal according to the power supplied from the power generator 522 and outputs the estimated intermodulated signal whose nonlinear characteristic is controlled. At the time of output, not only the estimated intermodulation signal of the third frequency component whose nonlinear characteristic is controlled but also the signals 11 and 21 of the first frequency component and the second frequency component may be included. The power generation unit 522 generates and supplies the power to the nonlinear control unit 520 according to the power control signal transmitted from the power control unit 521.

The signal 51 output from the nonlinear control unit 520 may include not only the estimated intermodulation signal of the third frequency component whose nonlinear characteristic is controlled but also the signals 11 and 21 of the first frequency component and the second frequency component . Therefore, the estimated intermodulation signal generation section 410 generates the estimated intermodulation signal in which the nonlinear characteristic of the third frequency component is controlled, and the signal including the signals 11 and 21 of the first frequency component and the second frequency component 51 may include a filtering unit 530 that filters only the estimated intermodulation signal whose nonlinear characteristic of the third frequency component is controlled and outputs the filtered signal 52. [

The output signal controller 540 controls the signal intensity or the signal waveform of the estimated intermodulation signal 52 filtered only by the signal of the third frequency component from the signal 51 whose nonlinear characteristic is controlled by the nonlinear control unit 520, do. This control is performed based on the output control signal transmitted from the output signal regulator 541. And the signal 50 whose output characteristics are controlled and output by the output signal controller 540 is an estimated intermodulation signal used for eliminating the intermodulation signal.

According to the above-described passive device intermodulation signal canceling apparatus according to the present invention, an arbitrarily generated (estimated) intermodulation signal can be adjusted through control of input / output characteristics and nonlinear characteristics in order to eliminate intermodulation signals generated in passive devices Modulated signal having a high correlation with the intermodulation signal to be removed, thereby improving the removal performance of the intermodulation signal. As a result, the intermodulation signal generated from the passive device By effectively eliminating the effects of these changes, we can provide improved service quality.

FIG. 6 is a flowchart illustrating a method for providing a mobile communication service for in-building using intermodulation signal cancellation according to the first and second embodiments of the present invention.

The building communication relay apparatus 120 receives the multiplexed signal from the base station signal transmitting and receiving unit and generates a multiplexed filtering signal by amplifying and filtering the multiplexed signal (S610).

The building communication relay device 120 generates an estimated intermodulation signal using one or more use signals corresponding to the used frequency among the multiple frequencies (S620).

That is, in the case of applying the first embodiment of the present invention, the building communication relay apparatus 120 uses the M virtual intermodulation signal generators 310 to generate the first signal 10 corresponding to the use signal, 2 signal 20, generates a virtual intermodulation signal, generates K nonlinear signals for each virtual intermodulation signal using the passive intermodulation signal elimination managing unit 320, combines nonlinear signals, Signal can be generated.

Meanwhile, in the case of applying the second embodiment of the present invention, the passive intermodulation signal canceling apparatus according to the present invention is a communication repeater for a building, which uses the estimated intermodulated signal generating section 410 to generate a first The first signal 10 of the frequency component and the second signal 20 of the second frequency component may be input to generate the estimated intermodulation signal 50 of the third frequency component.

The building communication relay apparatus 120 receives the adjacent signal corresponding to the adjacent frequency of the specific frequency from the antenna unit 110 (S630).

The building communication relay apparatus 120 extracts the correlation between the estimated intermodulation signal and the adjacent signal and removes the passive device intermodulation signal included in the adjacent signal to generate a cancellation signal in operation S640.

That is, when the first embodiment of the present invention is applied, the in-building communication repeater 120 receives the third signal 40 and the fourth signal 30 corresponding to the adjacent signal including the passive component intermodulation signal, Modulated signal generated from the passive device intermodulation signal.

Meanwhile, in the case of applying the second embodiment of the present invention, the in-building communication repeater 120 controls and outputs the nonlinear characteristic of the estimated intermodulation signal 50, and uses the correlation filtering unit 420 to manually The signal A 60 corresponding to the adjacent signal including the intermodulation signal and the output estimated intermodulation signal 50 are input to extract the correlation between the signal A 60 and the estimated intermodulation signal 50 , Thereby eliminating the passive component intermodulation signal included in the signal A (60).

The building communication relay device 120 transmits a cancellation signal to the base station signal transceiver (S650).

The foregoing description is merely illustrative of the technical idea of the present invention, and various changes and modifications may be made by those skilled in the art without departing from the essential characteristics of the present invention. Therefore, the embodiments disclosed in the present invention are intended to illustrate rather than limit the scope of the present invention, and the scope of the technical idea of the present invention is not limited by these embodiments. The scope of protection of the present invention should be construed according to the following claims, and all technical ideas falling within the scope of the same shall be construed as falling within the scope of the present invention.

As described above, according to the present invention, a complex non-linear intermodulation signal generated in communication equipment using various frequencies is effectively removed to prevent signal distortion, thereby improving mobile communication service quality The present invention is applied to a mobile communication service method and system field for in-building using a passive element intermodulation signal cancellation for providing a communication service, in which only one in-building system is installed in a specific building, It is effective for each mobile communication provider to reduce the investment cost of the facility and it is a very useful invention for the owner of the building to minimize the damage due to the installation of the building system in the specific building.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a block diagram schematically showing a system for providing a mobile communication service for in-building using passive device intermodulation signal cancellation according to the first and second embodiments of the present invention;

2 is a block diagram schematically showing an in-building relay apparatus according to the first and second embodiments of the present invention,

3 is a block diagram schematically showing an intermodulation signal canceling apparatus according to the first embodiment of the present invention.

4 is a block diagram schematically showing an apparatus for removing an intermodulation signal according to a second embodiment of the present invention.

5 is a block diagram schematically illustrating an estimated intermodulation signal generator according to a second embodiment of the present invention.

FIG. 6 is a flowchart illustrating a method for providing a mobile communication service for in-building using intermodulation signal cancellation according to the first and second embodiments of the present invention.

Description of the Related Art

100: Building relay system 110: Antenna part

120: building communication relay device 130: base station signal transmission / reception unit

140: mobile communication base station 122: intermodulation signal eliminator

310: virtual intermodulation signal generation unit

320: passive element intermodulation signal removal management unit

410: Estimation Intermodulation Signal Generation Unit 420: Correlation Filtering Unit

Claims (4)

An antenna unit installed in a specific building and interlocked with a mobile communication terminal located in the specific building; A base station signal transmitting and receiving unit installed in the specific building and interworking with a mobile communication base station and transmitting and receiving multiple signals including multiple frequencies; And And a communication relaying unit for receiving the multiplexed signal from the base station signal transmitting and receiving unit, generating a multiplexed filtering signal by amplifying and filtering the multiplexed signal, and transmitting the multiplexed filtering signal to the antenna unit, The in-building communication repeater generates an estimated intermodulation signal by using at least one use signal corresponding to a frequency of use among the multiple filtering signals and receives an adjacent signal corresponding to an adjacent frequency of the used frequency from the antenna unit And a passive device intermodulation signal canceling device for extracting a correlation between the estimated intermodulated signal and the adjacent signal and transmitting a cancel signal from the passive device intermodulated signal included in the adjacent signal to the base station signal transmitting / Wherein the mobile communication service system comprises a passive element intermodulation signal canceller. The method according to claim 1, The passive device intermodulation signal cancellation device includes: M virtual intermodulation signal generators for receiving a first signal and a second signal corresponding to the use signal to generate and output a virtual intermodulation signal; And Modulated signal, generating K nonlinear signals for each of the virtual intermodulation signals, combining the generated nonlinear signals to generate the estimated intermodulated signal, and outputting a third intermodulation signal and a passive intermodulation signal And a passive component intermodulation signal eliminating unit for removing the passive component intermodulation signal from the fourth signal by using the generated estimated intermodulation signal when a fourth signal corresponding to the adjacent signal is input, The mobile communication service system according to claim 1, The method according to claim 1, The passive device intermodulation signal cancellation device includes: Receiving a first signal of a first frequency component and a second signal of a second frequency component corresponding to the use signal to generate the estimated intermodulated signal of a third frequency component, An estimated intermodulation signal generation unit for controlling and outputting characteristics; And A signal A corresponding to the adjacent signal including the passive element intermodulation signal and the output estimated intermodulation signal to extract a correlation between the signal A and the estimated intermodulation signal, A correlation filtering unit for removing the passive component intermodulation signal, Wherein the mobile communication service system comprises a passive element intermodulation signal cancellation method. Receiving a multiplexed signal from a base station signal transmitting and receiving unit and amplifying and filtering the multiplexed signal; Generating an estimated intermodulation signal using at least one use signal corresponding to a frequency of use among the multiple filtering signals; Receiving an adjacent signal corresponding to an adjacent frequency of a specific frequency from the antenna unit; Extracting a correlation between the estimated intermodulation signal and the adjacent signal and generating an elimination signal by removing an intermodulation signal included in the adjacent signal; And And transmitting the cancellation signal to the base station signal transmitting / Wherein the mobile communication service method comprises the steps of:

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