KR101001495B1 - Repeating installation and method that signals process and retransmit by wireless communications - Google Patents

Abstract

PURPOSE: A relay device processing and transmitting a receiving signal in a wireless communication signal and a relay method for the same are provided to relay only a signal of a base station among signals of a plurality of base station, thereby enhancing the channel capacity. CONSTITUTION: A BS(Base Station) search unit(10) searches a base station per carrier frequency(FA). The base station search unit searches a PN(Pseudo Noise) which is used in the base station. An undesired signal remover(20) generates an unnecessary signal of a base station for removal. The unnecessary signal remover subtracts the unnecessary signal in an input signal. A control unit receives PN code information from the BS search unit. The control unit assigns the BS and the unnecessary signal remover for removal.

Description

Repeating installation and method that signals process and retransmit by wireless communications}

The present invention relates to a relay apparatus and a relay method for processing and retransmitting a received signal in wireless communication. In detail, the present invention implements a device capable of relaying only a signal of a desired base station among signals received from a plurality of base stations, thereby increasing channel capacity and thereby improving frequency utilization efficiency. The present invention relates to a relay apparatus and a relay method for processing and retransmitting a received signal in a wireless communication so as to collectively process a multipath signal of a base station to obtain faster signal processing and better call quality.

Domestic wireless communication developed rapidly with the development of digital mobile communication in the mid-1990s. In particular, as mobile communication continues to CDMA second generation digital mobile communication service, and third generation mobile communication service such as W-CDMA method that started in the mid-2000s, as consumers' demand for high quality multimedia service increases. It has evolved rapidly and the evolution is progressing more rapidly with WiRBO and LTE.

The wireless repeater among the devices for performing such wireless communication has a wide range of installation places such as subways, underground shopping malls or high-rise buildings in urban centers, and suburban mountain walls for the purpose of covering radio shadow areas. The variety also varies.

The main function of the wireless repeater is to repeat the signal by filtering / amplifying a fine signal received from the base station at a frequency allocated between operators, and various types of repeaters have been developed and operated.

As a recent technology of such a radio repeater, Patent Application No. 2005-54736 (a method for identifying and removing an unnecessary pseudo noise code and a signal processing device using the same, hereinafter referred to as an earlier invention) uses a digital signal obtained from a base station or a communication system. After the conversion, a technique for identifying a pseudonoise code of the RF signal by a digital signal processor and removing unnecessary pseudonoise signals to transmit a high quality signal according to an improvement in communication quality has been proposed.

According to the foregoing invention, a conventional wireless repeater converts an RF signal received from a base station into a digital signal, and then uses a digital signal processor to identify a pseudo noise code of the RF signal and to remove an unnecessary pseudo noise signal.

In order to identify the pseudo noise code of the RF signal and remove unnecessary pseudo noise signals, the conventional wireless repeater detects signals transmitted from the base station, extracts time delay information, phase information, amplitude information, etc. of these signals, and extracts them. It is well known that a channel estimation configuration for generating a pseudo noise signal based on the received information is provided.

The unnecessary pseudo-noise signal of the conventional wireless repeater, in particular, the wireless repeater presented in the preceding invention, includes a signal transmitted from a base station other than the base station desired to receive and a multipath signal transmitted from all base stations. All signals other than a single signal are targeted.

Here, the multipath signal is a signal in which a plurality of reflected waves having different time delays arrive at the terminal according to a path through which radio waves are transmitted, mostly reflected by a building or a feature, and transmitted by a base station. Since such multipath signals are input as a significant number of signals, a considerable number of channel estimation schemes are required to remove all of the multipath signals, which greatly increases the time delay and complexity of processing operations on the received signals. There is this.

That is, the base station to be removed from the radio repeater should be removed including all multipath signals, and the base station signal to be relayed should be relayed as it is. However, in order to remove a signal including all multipaths of a base station signal to be removed, a method of separately removing a signal of a corresponding path by individually tracking each specific multipath, which is a general method (described above). It is impossible to completely remove the base station to be removed.

As a result, when the multipath is individually tracked and removed as described above, the multipath signal received as the signal of the base station to be relayed is also considered to be eliminated as the signal that is not relayed by the conventional radio repeater. Accordingly, when the multipath signal of the base station to be relayed is removed, a problem that adversely affects communication such as CDMA and WCDMA, which uses the multipath signal, is exposed.

The present invention has been invented to solve the above problems.

Therefore, the present invention relays only signals of a base station for relaying among signals received from a plurality of base stations, and does not remove the multipath signal of the base station to be relayed, and at the same time, all multipath signals of the base station signal to be removed are It is an object of the present invention to provide a wireless communication relay device which can be processed and removed in a batch.

The present invention relays only signals of a base station for relaying among signals received by a plurality of base stations by the relay device, and prevents the multipath signal of the base station to be relayed from being removed. It is another object of the present invention to provide a wireless communication relay method capable of collectively processing and removing multipath signals.

In order to achieve the above object, the present invention has the following configuration.

The present invention converts RF signals received from a plurality of base stations to be processed in a signal processing unit, receives the converted signals from the signal processing unit, removes signals for unwanted base stations among the plurality of base stations from the received signal, and then again. A wireless communication relay apparatus converting and retransmitting a signal suitable for a receiver's terminal, the signal processing unit comprising: a base station searching unit searching for a base station for each carrier frequency (FA) and searching for a reference PN code used in the base station; An unnecessary signal removing unit for generating unnecessary signals of a base station to receive and removing PN code information of the base station searching unit and subtracting and removing the unnecessary signals from the converted input signal; And a controller for allocating the base station to be removed by receiving the PN code information from the base station searching unit and the unnecessary signal removing unit. The unnecessary signal removing unit may include: a signal unified by collecting multipath signals transmitted from each base station; And a plurality of equalizer units installed to correspond to each of the base stations searched by the base station search unit; A signal estimator for estimating time delay, amplitude, and phase information until a signal received through the equalizer is received in a reference signal state of a base station; A signal generator which generates a signal identical to a reference signal transmitted by the base station searched by the base station searcher; A filter for generating a signal to be removed by filtering the signal generated by the signal generator based on the estimated information output from the signal estimation unit; And a calculator for calculating and removing the signal generated by the filter from the original signal transmitted from the base station.

The signal estimator may include: a sample selector for outputting a time zone signal before and a sample signal for a time zone behind the real time signal received from the base station; A correlator having a correlator for processing the preceding time zone signal and the backward time zone signal outputted from the sample selector, and outputting an average signal by summing signals outputted through these correlators; And a lock signal detector for detecting and outputting a lock and an unlock of the signal of the base station for estimating the signal.

In order to achieve the above another object, the present invention performs the following process.

The present invention converts an RF signal having multiple paths received from a plurality of base stations to be processed by a signal processing unit, receives the converted signal from the signal processing unit, and receives a signal for an undesired base station among a plurality of base stations. In the wireless communication relay method of retransmitting the signal to a signal suitable for the terminal of the receiver after re-transmission, when the carrier frequency is selected, the base station search unit searches for the base station for the frequency and transmits a signal to be removed Selecting and detecting a PN code used at the selected base station; When the signal input through the multipath of the selected base station is input to the unnecessary signal removing unit, collecting and averaging the signals of the multipath in the equalizer of the unnecessary signal removing unit and outputting them as a unified channel information signal; Receiving the channel information signal outputted through the equalizer unit in the signal estimation unit to estimate the time delay, amplitude, phase information of the signal input through the PN code and the path, and the reference signal transmitted from the base station in the signal generator After generating a signal such as a signal, it is filtered by a filter and using the channel information received from the signal estimation, the estimated signal and the signal generation part of the signal estimation unit are inputted through the filter to receive the same signal as the unnecessary signal to be removed. Generating; Receiving the unnecessary signal received by the calculator, the operator performs a calculation on the signal generated by the filter and the original signal transmitted from the base station to output a signal from which unnecessary signals are removed.

Here, in the signal estimation, the lock signal detection unit inputs a lock or unlock signal to the controller according to whether the base station is recognized through the path of the PN code and the signal to drive and stop the device; Do more.

As described above, the present invention can increase the channel capacity and improve the frequency utilization efficiency by relaying only signals of a desired base station among signals received from a plurality of base stations, and in particular, a multipath received at a desired base station. Signals can be processed in a batch, resulting in faster signal processing and better call quality.

1 is a schematic diagram of a wireless communication system implemented with a relay device according to the present invention.
Figure 2 is a block diagram of the overall configuration of a relay apparatus according to the present invention.
3 is a block diagram of a signal processing unit in the construction of the relay apparatus according to the present invention;
Figure 4 is a schematic diagram of the configuration of the equalizer part of the configuration of the relay apparatus according to the present invention.
Figure 5 is a block diagram of the signal estimation of the configuration of the relay apparatus according to the present invention.
6 is a flow chart of the relay method according to the present invention.

1 is a schematic diagram of a wireless communication system implemented with a relay device according to the present invention, Figure 2 is a block diagram of the overall configuration of the relay device according to the invention, Figure 3 is a block diagram of a signal processing unit of the configuration of the relay device according to the present invention 4 is a schematic diagram showing the configuration of an equalizer part in the configuration of the relay apparatus according to the present invention, and FIG. 5 is a block diagram of signal estimation in the configuration of the relay apparatus according to the present invention.

Referring to the drawings, the wireless communication relay apparatus according to the present invention receives a signal of the base station between the base station (base station A, base station B) and the user's terminal (d, f, k, m, n) to the user's terminal By retransmission, this is as noted.

Here, the relay apparatus according to the present invention is configured to select a signal transmitted from each base station to remove a signal other than the signal of the base station to be received by the user terminal. That is, even if the signals of the base station A and the base station B are duplicated and received, the relay device retransmits only the signal of the base station A, and the relay area terminal of the base station B retransmits only the signal of the base station B to the base station. It effectively utilizes communication channels.

In order to be driven as described above, the relay device according to the present invention has a basic configuration including a duplexer 1, a down converter 2, a signal processor 3, and an up converter 4. At this time, the configuration is a configuration required when the signal must proceed from the base station to the user terminal side, the signal processing unit (3) should not be installed when the signal from the user terminal to the base station. In addition, the duplexer 1 is installed on both sides, and the duplexer 1 includes an antenna 5 for receiving and transmitting radio waves transmitted from a base station and a user terminal.

When the relay device configured as described above receives a signal from the base station through the antenna 5, the received signal passes through the duplexer 1 and is digitally converted by the downconversion unit 2, and the signal converted into a digital signal is a signal processor. After unnecessary signals to be described later are removed in (3), the up-converter 4 is reconverted into analog signals and transmitted to the user terminal through the antenna 5.

As described above, the signal processor 3 for removing unnecessary signals includes a base station search unit 10, an unnecessary signal remover 20, and a controller 50. In this case, the signals processed by the signal processor 3 are pilot signals in the case of CDMA, sync channel signals and pilot channel signals in the case of WCDMA, and signals for pilot symbols in the case of Wibro and LTE. In this embodiment, it will be clear that the description will be made based on the synchronization channel signal and the pilot channel signal of the WCDMA.

The base station search unit 10 is configured to search for a base station for each carrier frequency (FA) to search for a PN code used in the base station. More specifically, the base station search unit 10 includes a first sync channel search unit 11, a second sync channel search unit 12, and a pilot signal search unit 13.

The configuration of each of the search units 11, 12, and 13 is caused by the synchronization channel used in the WCDMA base station transmitting the first synchronization channel, the second synchronization channel and the pilot signal. The pilot signal is already defined in the wireless communication law, and the PN code transmitted from the base station can be known using the pilot signal, and the above description is omitted as a general matter.

The unnecessary signal removing unit 20 receives the PN code information of the base station searching unit 10 to generate an unnecessary signal of the base station to be removed, and calculates (subtracts) and removes the unnecessary signal from the converted input signal. It is composed. The unnecessary signal removing unit 20 includes an equalizer 21, a signal estimation unit 22, a signal generator 23, a filter 24, and a calculator 25.

The equalizer 21 is a component for collecting the multipath signals transmitted from the base station to generate a single signal. The equalizer section 21 is collectively referred to as an "equalizer", and a plurality of equalizer sections 21 are provided so as to correspond to each base station searched by the base station search section 10. FIG.

Here, the equalizer 21 has a plurality of slots 31 formed on a single window 30 so that individual signals of multipath signals are arranged in each slot 31, and these individual signals are single signals. It consists of an equalization unit 32 for converting to. In this case, the equalization unit 32 may be applied to a storage medium in which an algorithm for unifying a signal is stored, and the algorithm may typically be LMS, MMSE, Kalmann, or the like.

The signal estimator 22 is configured to estimate time delay, amplitude, and phase information until the signal received through the equalizer 21 is received in the reference signal state of the base station. Specifically, the signal estimation unit 22 includes a sample selector 40, a correlator unit 41, and a lock signal detection unit 42.

The sample selector 40 is a component for outputting a time signal of the preceding time zone and a sample signal of the backward time zone based on the real time signal received from the base station.

The correlator section 41 is provided to distinguish the early correlator 43 and the late correlator 44 to process the preceding time zone and the backward time zone signals, and sum the signals outputted through the correlators 43 and 44 to average the signals. It is further provided with a calculator 45 for outputting a signal.

The lock signal detector 42 is configured to detect and output whether a lock of a base station signal for estimating a signal is unlocked or unlocked. For example, when the signal estimation unit 22 misses the tracking signal of the base station transmitting the signal (expressing the signal transmitted from the base station as the tracking signal from the position of the relay device) to estimate the signal, the lock signal detection unit 42 outputs a signal indicating whether the base station signal is locked. In this case, the signal is considered to be in an unlocked state, and the signal is transmitted to the controller 50 to stop driving of the device until another path or base station is allocated. The standby state is maintained.

The signal generator 23 is configured to generate and output the same signal as the reference signal transmitted by the base station searched by the base station searcher 10. In this case, as described above, the reference signal is a signal that is already standardized by the PN code of the base station to generate a signal that is previously input (in the form of a database) in the device.

 The filter 24 is configured to generate a signal to be filtered by removing the signal generated by the signal generator 23 based on the estimated information output from the signal estimator 22. Such a filter 24 is preferably applied to the RRC filter to generate the desired signal by receiving both signals defined in the WCDMA standard.

The calculator 25 is configured to calculate and remove the signal generated by the filter 24 from the original signal transmitted from the base station. Specifically, the calculator 25 subtracts the signal generated by the unnecessary signal removing unit 20 from the original signal.

The controller 50 is a controller configuration for allocating the base station to be removed by receiving the PN code information from the base station search unit 10 and the unnecessary signal removing unit 20. The controller 50 may apply a microprocessor, a microcomputer, or the like.

6 is a flowchart of a relay method according to the present invention.

Referring to the drawings, in the wireless communication relay method according to the present invention, if a carrier frequency FA is selected among a plurality of received signals input from a plurality of base stations (S1), the base station search unit 10 performs a base station for the frequency. In other words, a base station that searches for a cell and transmits an unnecessary signal is selected. (S2) Then, a PN code used by the selected base station is detected. (S3) At this time, the base station is used to detect the PN code. The search unit 10 performs a cell search function and first needs to find a slot synchronization and a frame boundary of a cell and find a group to which a base station belongs. All of them have to use a synchronization channel, and a PN code group used as a pilot signal This can be known by checking the repetition pattern for the code of the secondary synchronization channel. This is well known and omits the above description.

When the PN code is detected as described above, the main path and the multipath of the signal transmitted from the base station are searched using the same, and the main path and the multipath signal are combined and displayed as a multipath signal. According to the searched path, the control unit 50 of the signal processing unit 3 allocates each base station for tracking and processing signals to each unnecessary signal removing unit 20 (S5).

The unnecessary signal removing unit 20 to which the base station is allocated receives the multipath signal input from the base station, and the equalizer unit 21 of the unnecessary signal removing unit 20 collects and averages the signals of the multipath into a single signal. In operation S6, the signal output through the equalizer 21 is received by the signal estimation unit 22 and the time delay, amplitude, and phase information of the signal input through the PN code and the path are output. The signal generator 23 generates a signal equal to the reference signal transmitted from the base station. (S7) The generated signal is estimated through the filter 24 and the estimated data of the signal estimation unit 22 is generated. The signal generated by the signal generator 23 generates the same signal as the unnecessary signal to be removed.

The same signal as that of the unnecessary signal is received from the calculator 25, and the calculator 25 receiving the signal performs an operation (specifically, subtracts) on the signal and the original signal transmitted from the base station, thereby removing the unnecessary signal. The removed signal is output (S9).

The signal is calculated by the calculator 25 from the assignment of the base station, and the lock signal detection unit 42 determines the lock state of the signal of the base station tracked by the unnecessary signal removing unit 20. In this case, if the signal is in the locked state, it is determined that the path of the base station can be continuously tracked, and the tracking state is maintained. If the signal is in the unlocked state, the process of removing the unnecessary signal is stopped because the path being tracked is missed. The base station path search is re-executed to perform the process by the new path.

Thereafter, the signal output from the calculator 25 is amplified by the up-converter and then retransmitted to the user terminal through the antenna 5 (S12).

10: base station search unit 20: unnecessary signal removal unit
21: Equalization Donor 22: Signal Estimation
23: signal generator 24: filter
25: Operator 30: Windows
31: slot 50: control unit

Claims (4)

After converting RF signals received from a plurality of base stations to be processed by the signal processing unit 3, receiving the converted signals from the signal processing unit 3, and removing signals for unwanted base stations among the plurality of base stations from the received signal. In the wireless communication repeater for converting the signal back to a signal suitable for the terminal of the receiver and retransmitted,
The signal processor (3) comprises: a base station search unit (10) for searching a base station for each carrier frequency (FA) and searching for a reference PN code used in the base station; An unnecessary signal removing unit (20) for generating unnecessary signals of the base station to be removed by receiving the PN code information of the base station searching unit (10) and subtracting and removing the unnecessary signals from the converted input signal; And a controller 50 which receives the PN code information from the base station search unit 10 and allocates the base station to be removed and the unnecessary signal removing unit 20.
The unnecessary signal removing unit 20: collects the multi-path signal transmitted from each base station to generate a single signal, a plurality of equalizers 21 are provided so as to correspond to each base station searched by the base station search unit 10; Wow; A signal estimation unit (22) for estimating time delay, amplitude, and phase information until the signal received through the equalizer unit (21) is received in the reference signal state of the base station; A signal generator (23) for generating a signal identical to a reference signal transmitted from the base station searched by the base station search unit (10); A filter 24 for generating a signal to be removed by filtering the signal generated by the signal generator 23 based on the estimated information output from the signal estimation unit 22; And a calculator (25) for calculating and removing the signal generated by the filter (24) from the original signal transmitted from the base station.
The signal estimation unit 22 includes: a sample selector 40 for outputting a time zone signal preceding and a sample signal of a backward time zone based on the real time signal received from the base station; Correlators 43 and 44 are provided to process the preceding time zone signal and the backward time zone signal output from the sample selector 40, and the correlation outputs these signals through the correlators 43 and 44, and outputs an average signal. A base 41; A lock signal detector 42 for detecting and outputting a lock and an unlock of the signal of the base station for estimating the signal; Repeater.
delete Converts the RF signal having multiple paths received from a plurality of base stations to be processed by the signal processing unit 3, and receives the converted signal from the signal processing unit 3 to receive a signal for an undesired base station among the plurality of base stations. In the wireless communication relay method of removing from the received signal, and converts it into a signal suitable for the terminal of the receiver again and retransmitted,
When the carrier frequency FA is selected, searching for a base station for the frequency by the base station search unit 10, selecting a base station that transmits a signal to be removed, and detecting a PN code used by the selected base station; When the signal input through the multipath of the selected base station is input to the unnecessary signal removing unit 20, the equalizer unit 21 of the unnecessary signal removing unit 20 collects and averages the signals of the multipath to form a unified channel. Outputting the information signal; The signal estimation unit 22 receives the channel information signal output through the equalizer unit 21, estimates time delay, amplitude, and phase information of the signal input through the PN code and the path, and generates a signal generator ( In step 23), a signal such as a reference signal transmitted from the base station is generated, filtered by the filter 24, and using the channel information received by the signal estimation unit 22, the signal estimation unit through the filter 24 ( Receiving a signal of the estimated data and the signal generator 23 of 22) and generating a signal identical to an unnecessary signal to be removed; The unnecessary signal is received and received by the calculator 25, and the calculator 25 performs an operation on the signal generated by the filter 24 and the original signal transmitted from the base station to output a signal from which unnecessary signals have been removed. Comprising;
The lock signal detector 42 inputs a lock or unlock signal to the controller 50 to drive and stop the device according to whether the base station is recognized through the path of the PN code and the signal in the signal estimation unit 22. And transmitting and processing the received signal and retransmitting the received signal in a wireless communication.
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