KR20150089964A - Method and apparatus for cancelling interference of received signal - Google Patents

Abstract

The present invention relates to a method and an apparatus for cancelling interference of a received signal in a wireless communications system. The method includes: a step of estimating a desired channel based on a received signal; a step of estimating an interference channel based on the desired channel; and a step of investigating a desired signal based on the interference channel.

Description

[0001] The present invention relates to a method and apparatus for canceling interference of a received signal,

The present invention relates to a method and apparatus for canceling interference in a received signal.

In order to improve the transmission capacity of a cellular system, a discussion on advanced receivers is under discussion on network assisted interference cancellation and suppression (NAICS) in the 3GPP RAN. Receivers to be applied to NAICS include linear receivers such as minimum mean-square error interference rejection combining (MMSE-IRC) and enhanced MMSE-IRC, and maximum likelihood, ML) receivers, and interference cancellation receivers. From the viewpoint of reception performance, the performance of a nonlinear receiver such as an ML receiver and an interference canceller is generally superior to that of a linear receiver. In particular, ML receivers are known as optimal receivers in that they can maximize likelihood. However, considering the computational complexity of the receiver, the interference cancellation receiver can be a receiver that can achieve good performance at the appropriate computational complexity.

The interference cancellation receiver includes a symbol level interference cancellation receiver using a method of recovering an interference signal based on symbol detection prior to decoding the received signal, There is a codeword-level interference cancellation receiver that reproduces the signal. The symbol level interference cancellation receiver does not perform complex decoding and has the advantage that the complexity of the receiver is lower. The codeword-level interference canceller has the advantage that it can accurately reproduce the interference signal through a high-performance decoder such as a turbo decoder. At this time, both the symbol level interference cancellation scheme and the codeword level interference cancellation scheme require accurate channel estimation on the interference channel for interference cancellation.

An object of the present invention is to provide an interference cancellation method and apparatus capable of effectively removing an interference signal from a received signal.

According to an embodiment of the present invention, a method for canceling interference in a wireless communication system is provided. The interference cancellation method includes estimating a desired channel based on a received signal, estimating an interference channel based on a desired channel, and searching for a desired signal based on the interference channel.

In the interference cancellation method, the received signal may be a reference signal (RS).

In the interference cancellation method, the reference signal may be a demodulation reference signal (DMRS).

In the interference cancellation method, the reference signal may be a cell-specific reference signal (CRS).

The step of estimating the interference channel in the interference cancellation method may include the steps of reproducing the first desired signal based on the desired channel and estimating the interference channel based on the received signal from which the first desired signal has been removed have.

The step of searching for a desired signal in the interference cancellation method includes the steps of reproducing an interference signal based on an interference channel, generating a second desired signal by removing an interference signal from the received signal, And searching for a desired signal based on the received signal.

And decoding the desired signal in the interference cancellation method.

The estimation of the desired channel and the reproduction of the first desired signal in the interference cancellation method may be performed using the control information received from the transmission apparatus.

According to another embodiment of the present invention, an interference cancellation apparatus of a wireless communication system is provided. The interference canceller includes a channel estimator estimating a desired channel based on a received signal, estimating an interference channel based on a desired channel, and a signal searching unit searching for a desired signal based on the interference channel.

In the interference canceller, the received signal may be a reference signal (RS).

In the interference canceller, the reference signal may be a demodulation reference signal (DMRS).

In the interference canceller, the reference signal may be a cell-specific reference signal (CRS).

The interference canceller further includes a desired signal reproducing unit for reproducing a first desired signal based on a desired channel,

In the interference canceller, the channel estimator may estimate an interference channel based on the reception signal from which the first desired signal is removed.

The interference elimination apparatus further includes an interference signal regenerating section for regenerating the interference signal based on the interference channel. The signal searching section removes the interference signal from the received signal to generate a second desired signal, The desired signal can be searched based on the channel.

The interference cancellation apparatus may further include a decoder for decoding a desired signal.

In the interference canceller, the channel estimator and the desired signal reproducer can estimate a desired channel using the control information received from the transmitter and reproduce the first desired signal.

According to another embodiment of the present invention, an interference cancellation apparatus of a wireless communication system is provided. The interference cancellation apparatus includes at least one processor, a memory, and a wireless communication unit for receiving a signal transmitted by the transmission apparatus, wherein at least one processor executes at least one program stored in the memory, Estimating a desired channel, estimating an interference channel based on a desired channel, and searching for a desired signal based on the interference channel.

Wherein the at least one processor in the interference canceller is configured to perform a step of estimating an interference channel by reproducing a first desired signal based on a desired channel, May be performed.

Wherein the at least one processor in the interference canceller is configured to reconstruct an interfering signal based on the interference channel when performing the step of searching for a desired signal, generating an interference signal from the received signal to generate a second desired signal, And searching for a desired signal based on the second desired signal and the desired channel.

The at least one processor in the interference cancellation apparatus may further perform the step of decoding the desired signal.

According to an embodiment of the present invention, the interference cancellation performance of the interference cancellation receiving apparatus can be improved since the estimation performance for the interference channel can be improved by primarily reproducing the desired signal from the received signal.

1 is a block diagram illustrating an interference cancellation receiver for eliminating inter-cell interference.
2 is a conceptual diagram for explaining a reference signal allocation state and a collision process in which interference occurs according to an embodiment of the present invention.
3 is a conceptual diagram illustrating an interference state of an interference cell and an interference cell according to an embodiment of the present invention.
4 is a diagram illustrating an interference cancellation receiving apparatus according to an embodiment of the present invention.
5 is a block diagram illustrating a wireless communication system according to an embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art can easily carry out the present invention. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. In order to clearly illustrate the present invention, parts not related to the description are omitted, and similar parts are denoted by like reference characters throughout the specification.

Throughout the specification, a terminal is referred to as a mobile station (MS), a mobile terminal (MT), an advanced mobile station (AMS), a high reliability mobile station (HR- A subscriber station (SS), a portable subscriber station (PSS), an access terminal (AT), a user equipment (UE) , HR-MS, SS, PSS, AT, UE, and the like.

Also, a base station (BS) is an advanced base station (ABS), a high reliability base station (HR-BS), a node B, an evolved node B, eNodeB), an access point (AP), a radio access station (RAS), a base transceiver station (BTS), a mobile multihop relay (MMR) (RS), a relay node (RN) serving as a base station, an advanced relay station (ARS) serving as a base station, a high reliability relay station (HR) A femto BS, a home Node B, a HNB, a pico BS, a metro BS, a micro BS, ), Etc., and may be all or part of an ABS, a Node B, an eNodeB, an AP, a RAS, a BTS, an MMR-BS, an RS, an RN, an ARS, It may include a negative feature.

The interference cancellation receiver estimates an interference channel based on a cell-specific reference signal (CRS) or estimates an interference channel based on a demodulation reference signal (DMRS). An interference cancellation receiver based on DMRS is described as follows.

Through a multi-user, when applying the DMRS based transmission mode in a multi-cell environment, n-th resource block (physical resource block) in the m-th sub-carrier (i.e., a resource element (resource element, RE) channel H _D is the receiving terminal wants in The received signal r _{D , (m, n)} can be expressed as Equation (1 ₎ below.

At this time, H _{D, (m, n)} is a channel for the desired signal (desired signal) received by the receiving terminal H _{i, (m, n)} is the channel for the interference signal (interference signal), P _{k, (m , n)} denotes a precoder, and W _{D, (m, n)} denotes noise.

The second term in Equation 1 represents inter-user interference of a cell in a multi-user environment, and the third term represents inter-cell interference. The interference cancellation receiver can be applied to both intra-user inter-user interference and inter-cell interference.

In intra-cell inter-user interference, both desired and interfering signals are received by the receiver over the same channel. Thus, if a transmitter can accurately know the channel of a particular receiver, applying an orthogonal precoder to the channel of that particular receiver to a signal that is transmitted to another receiver, .

In inter-cell interference, the desired signal and the interfering signal are received by the receiver via different channels, respectively. Thus, the transmitter must know both the desired channel and the interfering channel to avoid interference at the receiver. In one embodiment of the present invention, an interference cancellation receiver capable of eliminating inter-cell interference will be described.

1 is a block diagram illustrating an interference cancellation receiver for eliminating inter-cell interference.

Referring to FIG. 1, an interference cancellation receiver 100 for eliminating inter-cell interference includes a channel estimator 110, an interference signal reproducer 120, and a signal searcher 130.

In the subcarrier on which the reference signal is transmitted (assuming that the mth subcarrier of the n-th resource block is m ≠ n), the received signal can be expressed by Equation (2) below.

In Equation (2), n _{D , ( m ' , n)} is a _{sum of the} inter-cell interference signal excluding the dominant inter-cell interference signal to be removed, the intra-cell interference and the noise signal, Can be expressed as Equation 3 below.

는 i번째 셀의 기지국에서 p번째 안테나 포트에 적용하는 참조 신호(예를 들어, DMRS) 시퀀스를 의미한다. 수학식 4를 이용하여 수학식 2를 간단히 하면 수학식 5를 얻을 수 있다.In equations (2) and (3)

Denotes a reference signal (e.g., a DMRS) sequence applied to a p < th > antenna port at a base station of an ith cell. By simplifying Equation (2) using Equation (4), Equation (5) can be obtained.

라고 할 때, 간섭은 수학식 6과 같이 제거될 수 있다.The channel estimator 110 of the interference cancellation receiver 100 calculates a desired channel h _{D ( m ' , n} ) and a channel h _{i ( m' , n '} ) of the interference signal using the reception signal obtained through Equation (5 _{) , n)} . The interference signal reproducing unit 120 searches for and reproduces the interference signal through the information of the estimated interference channel and the interference signal search. Finally, the signal search unit 130 obtains a desired signal by removing the interference signal reproduced from the received signal. At this time, the estimated interference signal channel

, The interference can be eliminated as shown in Equation (6).

는 간섭 신호의 제거 후 누설(leakage) 항목으로서, 아래 수학식 7과 같이 표현될 수 있다.In Equation (6)

Is a leakage item after elimination of the interference signal, and can be expressed as Equation (7) below.

Thereafter, the interference cancellation receiver 100 proceeds to search and decode the obtained result (desired signal) in Equation (6).

The performance of the interference cancellation receiver 100 may be determined according to the size of the leakage item expressed in Equation (6). That is, assuming that the interference signal is known, the accurate estimation of the interference channel may reduce the size of the leakage item and improve the reception performance. If the interference channel estimation is inaccurate, the size of the leakage item may increase and the reception performance may deteriorate . In the following, a method for improving the estimation performance of the interference channel by reducing the influence of leakage items to improve the performance of the interference cancellation receiver 100 will be described.

2 is a conceptual diagram for explaining a reference signal allocation state and a collision process in which interference occurs according to an embodiment of the present invention.

Referring to FIG. 2, a reference signal transmitted to a receiving terminal included in an affected cell and a reference signal transmitted to a receiving terminal of an interference cell are transmitted through the same time and frequency resources, The reference signal of the cell can act as an interference to the reference signal of the interfered cell.

3 is a conceptual diagram illustrating an interference state of an interference cell and an interference cell according to an embodiment of the present invention.

Referring to FIG. 3, when a channel of a desired signal is estimated, a path loss of a desired channel in a receiving terminal included in an affected cell is usually smaller than a path loss of an interference channel. In addition, since the reference signal sequence is initialized according to the cell identifier, a randomization effect can be given to the reference signal sequence of each cell. Thus, if the pathloss of the desired channel is less than the pathloss of the interfering channel, the influence of the interference reference signal on channel estimation of the desired channel may be negligible. However, the reference signal of the desired channel may be greatly interfered with the channel estimation of the interference channel, so that the estimation performance of the interference channel may be degraded.

Conventionally, in order to avoid the interference of the inter-cell reference signals, the LTE / LTE-A standard specifies that the resources for the reference signals of each cell are orthogonal to each other. For example, in the LTE / LTE-A standard, up to 8 orthogonal reference signal resources (Walsh codes) are allocated to eight resource elements distributed on two adjacent subcarriers and four OFDM symbols using a Walsh code having a length of 4, (Where the antenna port may be 7 to 14). That is, up to four orthogonal Walsh code resources (antenna port 7/8/11/13 or antenna port 9/10/12/14) can be allocated for one frequency resource and two frequency resources are allocated, A maximum of eight orthogonal reference signal resources may be supported. The orthogonality using the Walsh code is possible when the same reference signal sequence is used. The cell identification (cell ID) used for initializing the reference signal sequence in the interference and interference cells is set to the same value (that is, And using a virtual cell ID of the same value), the problem of using the same reference signal sequence can be solved. However, this LTE / LTE-A standard has a disadvantage that it is difficult to apply when the number of reference signal resources used in each cell is four or more.

On the other hand, in the 3GPP LTE / LTE-A system, the transmitter signals the control information required to remove interference in the interference cancellation receiver. The control information signaled at this time includes information for channel estimation, multicast broadcast single-frequency network configuration (MBSFN configuration) information, virtual cell ID information, transmission mode information, (EPRE) (PB), a scrambling ID (e.g., n scrambling identification (nSCID): DMRS scrambling ID), a DMRS antenna port, etc. In the case of a symbol level interference cancellation receiver, modulation order information for interference signal detection is required, and in the case of a codeword level interference cancellation receiver, a modulation and coding method for decoding an interference signal a modulation and coding scheme (MCS) information, a radio network temporary identifier for descrambling, information of the CSI-RS, RTI information, redundancy version information, and zero-power / non-zero-power CSI-RS resource information.

Among these pieces of information, MBSFN configuration information, virtual cell ID information, data to RS EPRE (PB) information, and zero-power / non-zero power CSI- Antenna port, modulation order, MCS, RNTI, redundant version information, and the like are information that is changed in units of resource blocks. For cell-based information, the signaling overhead is not large and is semi-static. On the other hand, the signaling overhead is large and can be changed dynamically in the case of information that is changed in units of resource blocks. In the latter case, the physical resource block alignment is performed in consideration of the signaling overhead. That is, resource allocation, resource allocation, and resource allocation of the physical resource block are performed through coordination between the interference cells and the interference cells. Mode, or a method of reducing the amount of control information to be signaled by matching MCS or the like can be considered. Also, for some parameters for which a candidate set of modulation order, transmission mode, etc. is determined, an acquisition method by blind detection may be considered instead of explicit signaling.

4 is a diagram illustrating an interference cancellation receiving apparatus according to an embodiment of the present invention.

4, an interference cancellation receiving apparatus 400 according to an embodiment of the present invention includes a channel estimator 410, a desired signal reproducer 420, an interference signal reproducer 430, (440).

The channel estimation unit 410 estimates a desired channel and an interference channel. The channel estimation unit 410 first estimates a desired channel in the received signal and transmits information on the estimated desired channel to the desired signal playback unit 420. Thereafter, when the desired signal reproducing unit 420 reproduces the first desired signal based on the information about the desired channel, the channel estimating unit 410 removes the first desired signal from the received signal, The interference channel can be estimated based on the received signal.

The desired signal reproducing unit 420 reproduces the first desired signal based on the information about the desired channel estimated by the channel estimating unit 410. [ Thereafter, the reproduced first desired signal may be transmitted to the channel estimator 410 and used to estimate the interference channel.

를 나타낸다.Equation (8) shows that the received signal < RTI ID = 0.0 >

.

는 추정된 원하는 채널이며,

는 추정된 원하는 채널에, 이미 알려진 참조 신호 시퀀스가 곱해진 제1 원하는 신호이다. 수학식 8에서 e_{( m' ,n)}은 수신 신호에서 제1 원하는 신호가 제거된 후 남은 나머지 에러(residual error)를 의미하고, 아래 수학식 9와 같이 표현될 수 있다.In Equation (8)

Is an estimated desired channel,

Is the first desired signal multiplied by the already known reference signal sequence to the estimated desired channel. In Equation (8), e _{( m ' , n)} denotes a residual error remaining after the first desired signal is removed from the received signal, and can be expressed by Equation (9) below.

According to an embodiment of the present invention, the size of the remaining error may vary according to the estimation performance of a desired channel. However, since the DMRS is a reference signal for demodulation, the estimation performance is generally good. In addition, since the interference cancellation receiving apparatus according to an embodiment of the present invention already knows the reference signal sequence for a desired signal, there is a high possibility that the influence of residual error remaining after removing the first desired signal from the received signal is insignificant.

The interference signal reproducer 430 reproduces the interference signal based on the information about the interference channel estimated by the channel estimator 410. [

The signal searching unit 440 removes the interference signal reproduced by the interference signal reproducing unit 430 from the received signal and acquires the second desired signal based on the received signal from which the interference signal has been removed. At this time, the second desired signal may be a desired reference signal to be obtained in the interference cancellation receiving apparatus according to an embodiment of the present invention.

In the interference cancellation reception apparatus according to an embodiment of the present invention, the information required to reproduce the first desired signal and the information required to remove the first desired signal from the received signal are used to estimate a desired channel in the channel estimation unit 410 The transmitting apparatus does not need to further perform control information signaling.

를 이용하여 간섭 채널을 추정하고, 간섭 신호 재생부(430)는 추정된 간섭 채널의 정보를 이용하여 간섭 신호를 재생할 수 있다. That is, the channel estimation unit 410 of the interference cancellation reception apparatus according to an embodiment of the present invention calculates a channel estimation value

And the interference signal reproducing unit 430 can reproduce the interference signal using the information of the estimated interference channel.

The signal search unit 440 receives the interference signal from the interference signal reproduced by the interference signal reproducer 430 and the interference signal of the desired signal Signal) can be searched. For example, it is possible to eliminate interference on a physical downlink shared channel (PDSCH) using the same antenna port in a specific resource block. Thereafter, the sought desired signal can be decoded.

5 is a block diagram illustrating a wireless communication system according to an embodiment of the present invention.

Referring to FIG. 5, a wireless communication system 500 according to an embodiment of the present invention includes a transmitting apparatus 510 and a receiving apparatus 520.

The transmitting apparatus 510 includes a processor 511, a memory 512, and a radio frequency unit (RF unit) 513. The memory 512 may be coupled to the processor 511 to store various information for driving the processor 511. [ The wireless communication unit 513 may be connected to the processor 511 to transmit and receive wireless signals. The processor 511 may implement the functions, processes, or methods proposed in the embodiments of the present invention. In this case, the wireless interface protocol layer in the wireless communication system according to an embodiment of the present invention may be implemented by the processor 511. The operation of the transmitting apparatus 510 according to the embodiment of the present invention can be implemented by the processor 511. [

The receiving apparatus 520 includes a processor 521, a memory 522, and a wireless communication unit 523. The memory 522 may be coupled to the processor 521 to store various information for driving the process 521. The wireless communication unit 523 may be connected to the processor 521 to transmit and receive wireless signals. The processor 521 may implement the functions, steps, or methods suggested by embodiments of the present invention. In this case, the wireless interface protocol layer in the wireless communication system according to an embodiment of the present invention may be implemented by the processor 521. [ The operation of the receiving apparatus 520 according to an embodiment of the present invention may be implemented by the processor 521. [

In an embodiment of the present invention, the memory may be located inside or outside the processor, and the memory may be connected to the processor via various means already known. The memory may be any type of volatile or nonvolatile storage medium, e.g., the memory may include read-only memory (ROM) or random access memory (RAM).

As described above, the interference cancellation receiving apparatus according to an embodiment of the present invention can enhance the interference cancellation channel estimation performance by primarily reproducing a desired signal from the received signal, thereby improving the interference cancellation performance of the interference cancellation receiving apparatus .

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, It belongs to the scope of right.

Claims (20)

A method of interference cancellation in a wireless communication system,
Estimating a desired channel based on the received signal,
Estimating an interference channel based on the desired channel, and
Searching for a desired signal based on the interference channel
/ RTI > The method of claim 1,
Wherein the received signal is a reference signal (RS). 3. The method of claim 2,
Wherein the reference signal is a demodulation reference signal (DMRS). 3. The method of claim 2,
Wherein the reference signal is a cell-specific reference signal (CRS). The method of claim 1,
Wherein estimating the interference channel comprises:
Reproducing a first desired signal based on the desired channel, and
Estimating an interference channel based on the received signal from which the first desired signal has been removed
/ RTI > The method of claim 5,
Wherein the searching for the desired signal comprises:
Reproducing the interference signal based on the interference channel,
Removing the interference signal from the received signal to generate a second desired signal, and
Searching for the desired signal based on the second desired signal and the desired channel
/ RTI > The method of claim 6,
Decoding the desired signal
≪ / RTI > The method of claim 1,
Wherein the estimation of the desired channel and the reproduction of the first desired signal are performed using the control information received from the transmitter. 1. An interference cancellation device in a wireless communication system,
A channel estimator estimating a desired channel based on the received signal and estimating an interference channel based on the desired channel,
A signal search unit for searching for a desired signal based on the interference channel,
. The method of claim 9,
Wherein the received signal is a reference signal (RS). 11. The method of claim 10,
Wherein the reference signal is a demodulation reference signal (DMRS). 11. The method of claim 10,
Wherein the reference signal is a cell-specific reference signal (CRS). The method of claim 9,
A desired signal reproducing unit for reproducing a first desired signal based on the desired channel,
Further comprising:
Wherein the channel estimator comprises:
And estimates an interference channel based on the received signal from which the first desired signal is removed. The method of claim 13,
And an interference signal reproducing unit for reproducing the interference signal based on the interference channel,
Further comprising:
Wherein the signal search unit comprises:
Wherein the interference canceller removes the interference signal from the received signal to generate a second desired signal and searches for the desired signal based on the second desired signal and the desired channel. The method of claim 14,
The decoder for decoding the desired signal
Further comprising an interference canceller. The method of claim 9,
Wherein the channel estimator and the desired signal reproducing unit estimate the desired channel using the control information received from the transmitting apparatus and reproduce the first desired signal. 1. An interference cancellation device in a wireless communication system,
At least one processor,
Memory, and
A wireless communication unit that receives a signal transmitted from a transmitting apparatus
The at least one processor executing at least one program stored in the memory,
Estimating a desired channel based on the received signal,
Estimating an interference channel based on the desired channel, and
Searching for a desired signal based on the interference channel
The interference canceller. The method of claim 17,
Wherein the at least one processor, when performing the step of estimating the interference channel,
Reproducing a first desired signal based on the desired channel, and
Estimating an interference channel based on the received signal from which the first desired signal has been removed
The interference canceller. The method of claim 18,
Wherein the at least one processor, when performing the step of searching for the desired signal,
Reproducing the interference signal based on the interference channel,
Removing the interference signal from the received signal to generate a second desired signal, and
Searching for the desired signal based on the second desired signal and the desired channel
The interference canceller. 20. The method of claim 19,
Wherein the at least one processor further performs decoding of the desired signal.

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