KR101192201B1 - Blind convolutional deinterleaving method using interleaving period - Google Patents

Abstract

In the present specification, a channel code before interleaving a received signal is determined by determining whether a convolutional interleaver using only an input stream without prior information, estimating a feature parameter of the convolutional interleaver, and configuring a deinterleaver with reference to the estimated parameter. A method of restoring to a stream is provided. A blind convolutional deinterleaving method according to an embodiment of the present disclosure includes estimating an interleaving period based on an interleaved stream; Determining a convolutional interleaver based on the estimated interleaving period; Estimating a parameter comprising a register size and a singular and codeword length constituting the convolutional interleaver; And configuring the deinterleaver with reference to the parameter and restoring the interleaved stream to the channel code stream before being interleaved through the deinterleaver.

Description

Blind weaving deinterleaving method using interleaving cycle {BLIND CONVOLUTIONAL DEINTERLEAVING METHOD USING INTERLEAVING PERIOD}

The present specification relates to a blind convolutional deinterleaving method using an interleaving period.

In general digital communication systems, channel coding and interleaving techniques are applied to improve system performance through error correction. In particular, the interleaving technique has been known to be the most effective method for burst errors. When transmitting and receiving digital data, since the transmitter and the receiver use a predetermined interleaver and deinterleaver, it is impossible to obtain meaningful information from the received digital data if the type and characteristic parameters of the interleaver applied to the transmitter are not known. Therefore, a blind deinterleaving method for estimating the type and characteristic parameter of the interleaver applied to the transmitter from the received digital data is applied to a receiver for a special purpose such as spectrum monitoring or communication information collection.

Since the related art related to the blind deinterleaving is applied only to the block interleaver and is limited to estimating the interleaving period, there is a limitation in that the size of the row and column of the interleaver matrix, which is a key parameter required for deinterleaver configuration, cannot be estimated.

The following is a detailed description of the conventional block interleaving period estimation. The interleaving period means a block interleaver matrix size in which regularity appears at regular intervals. In general, the size of the block interleaver is set to an integer multiple of a codeword to reduce the complexity of the transmission / reception hardware. The codeword refers to a result of applying a channel code to an information bit and includes an information bit and a redundancy bit. In this case, the redundant bit is generated by a linear combination of information bits.

1 is a diagram illustrating a general block interleaver matrix.

As shown in Fig. 1, the (3,2) parity code stream operates in such a manner that it is input to the matrix in the column direction and to the matrix in the row direction. If the size of the matrix is an integer multiple of the codeword, it can be seen that duplicate bits are aligned on the same row.

)를 추정한다. According to the prior art, when the duplicate bit components in the matrix are arranged in the same row as in the block interleaver, the period of the block interleaver

).

의 값은 도2와 같은 분포를 보인다. After applying a rank operation that calculates the maximum value of the linearly independent rows to the interleaver matrix (M) and normalizing by the estimate of the interleaving period (Na)

Has a distribution as shown in FIG.

는 1이 아닌 값을 갖게 되기 때문에 첫 번째 추정주기가 인터리버의 주기가 되고 두 번째와 세 번째 추정주기는 첫 번째 추정주기의 배수관계가 성립된다. 2 is a diagram illustrating a cycle of a general block interleaver. That is, only when the estimate of the period is a multiple of the interleaver period

Since 1 has a value other than 1, the first estimation period becomes the interleaver period, and the second and third estimation periods establish a multiple relationship between the first estimation period.

In the conventional technique using this method, it is possible to estimate the period of the block interleaver, but since it cannot estimate the size of the block interleaver matrix row and column, deinterleaving for the interleaver having the same interleaving period but different sizes of the row and column of the matrix. Is limited to impossible.

An object of the present specification is to determine whether a convolutional interleaver using only an input stream without prior information, estimate a feature parameter of the convolutional interleaver, and configure a deinterleaver with reference to the estimated parameter, before interleaving a received signal. The present invention relates to a method for restoring a channel code stream.

A blind convolutional deinterleaving method according to an embodiment of the present disclosure includes estimating an interleaving period based on an interleaved stream; Determining a convolutional interleaver based on the estimated interleaving period; Estimating a parameter comprising a register size and a singular and codeword length constituting the convolutional interleaver; And configuring the deinterleaver with reference to the parameter and restoring the interleaved stream to the channel code stream before being interleaved through the deinterleaver.

As an example related to the present invention, the method may further include determining the block interleaver when the second interleaving estimation period included in the estimated interleaving period is a multiple of the first interleaving estimation period.

As an example related to the present invention, the determining of the convolutional interleaver may include determining the convolutional interleaver when the second interleaving estimation period included in the estimated interleaving period is not a multiple of the first interleaving estimation period. can do.

식에 의해 결정되며, 여기서,

은 상기 첫 번째 인터리빙 추정 주기이고,

은 레지스터의 단수이고,

은 부호어의 길이이고,

는 레지스터 크기인 것을 특징으로 한다.As an example related to the present invention, the first interleaving estimation period is

Determined by the formula, where

Is the first interleaving estimation period,

Is the singular of the register,

Is the length of the codeword,

Is a register size.

식에 의해 결정되고,

는 상기 두 번째 인터리빙 추정 주기인 것을 특징으로 한다.As an example related to the present invention, the second interleaving estimation period is

Determined by the formula,

Is the second interleaving estimation period.

식을 통해 추정될 수 있다.As an example related to the present invention, the size (d) of the register is

It can be estimated through the equation.

식을 통해 상기 레지스터의 단수와 상기 보호어의 길이를 제한할 수 있다.As an example related to the present invention,

Equation can limit the number of stages and the length of the protection word.

As an example related to the present invention, the method may further include verifying the number of stages of the register at a ratio of 1 to 0 in a matrix constructed using the length of the codeword.

A blind convolutional deinterleaving method according to an embodiment of the present disclosure includes estimating an interleaving period based on an interleaved stream; When the second interleaving estimation period included in the estimated interleaving period is a multiple of the first interleaving estimation period, the block interleaver is determined. When the second interleaving estimation period is not a multiple of the first interleaving estimation period, the convolutional interleaver is used. Determining; Estimating a parameter comprising a register size and a singular and codeword length constituting the convolutional interleaver; And configuring the deinterleaver with reference to the parameter and restoring the interleaved stream to the channel code stream before being interleaved through the deinterleaver.

In the blind convolutional deinterleaving method according to an embodiment of the present invention, it is possible to determine whether to apply convolutional interleaver using only a signal received through an antenna without any prior information, and when the convolutional interleaver is applied, interleaving period and register which are key parameters It is possible to configure and verify the deinterleaver by estimating the size, singular number, and length of codewords, and to restore the signal received through the antenna to the channel code stream before interleaving. There is an effect that can be applied to the receiver.

1 is a diagram illustrating a general block interleaver matrix.
2 is a diagram illustrating a cycle of a general block interleaver.
3 is a flowchart illustrating a blind weaving deinterleaving method according to the present invention.
4 is a conceptual diagram illustrating a general convolutional interleaver and a deinterleaver for explaining the blind convolutional deinterleaving method according to the present invention.
5 illustrates an input and output stream of a convolutional interleaver.
6 is a diagram illustrating a period estimation process of a matrix of a convolutional interleaver.
7 is a diagram illustrating a periodic estimation result of the convolutional interleaver.
8 is a diagram illustrating a matrix for verifying the number of registers in a convolutional interleaver.
9 is a diagram illustrating a codeword length estimation result of a convolutional interleaver.

Hereinafter, it is possible to determine whether to apply the convolutional interleaver using only the signal received through the antenna without any prior information, and when the convolutional interleaver is applied, the interleaving period, the register size and the number of stages, and the length of the codeword are estimated. A blind convolutional deinterleaving method according to an embodiment of the present invention capable of configuring and verifying a deinterleaver and restoring a signal received through an antenna to a channel code stream before being interleaved with reference to FIGS. 3 to 9. It explains in detail.

3 is a flowchart illustrating a blind weaving deinterleaving method according to an embodiment of the present invention.

As shown in FIG. 3, the blind convolutional deinterleaving method according to the embodiment of the present invention includes estimating an interleaving period based on a signal (interleaved stream) received through an antenna; Determining a convolutional interleaver based on the estimated interleaving period (S12); Estimating a parameter using a size and singular estimate of a register constituting the convolutional interleaver and a codeword length (S13); After the deinterleaver is configured with reference to the estimated parameters, a stream recovery step (S14) of restoring the received signal to a channel code stream before interleaving is performed.

First, a controller (not shown) estimates an interleaving period using only a signal (interleaved stream) received through an antenna without prior information, and determines whether to apply a convolutional interleaver using the estimated interleaving period.

4 is a conceptual diagram of a general convolutional interleaver and a deinterleaver for explaining a blind convolutional deinterleaving method according to an embodiment of the present invention.

As shown in Fig. 4, it can be seen that the deinterleaver can be configured by knowing the raster number Nr and the register size d constituting the interleaver.

5 is a diagram illustrating an input stream and an output stream of a convolutional interleaver having the register number Nr = 4 and the register size d = 2. This output stream is input to the interleaving period estimation step.

In the interleaving period estimation step S11, a matrix may be configured as shown in B of FIG. 6 by using an interleaver output stream.

6 is a diagram illustrating a period estimation process of a matrix of a convolutional interleaver.

As shown in Fig. 6, when a symbol composed of linear combinations of different rows in each column, such as matrix B, is aligned in the same row, matrix B is converted into matrix B 'by Gaussian elimination. That is, all linear combination symbols of the matrix are converted to zero. The period of the interleaver is estimated by calculating the ratio of 1 to 0 for each row of the matrix B '.

7 is a graph of ratios calculated by applying the above procedure after constructing a matrix while changing the size of the matrix from 40 to 100 for a stream to which the (7,4) hamming code is applied.

As shown in Fig. 7, the X axis of the graph is an interleaver period estimate, and the Y axis is a ratio of 1 to 0. Therefore, the matrix size when the ratio value approaches 0 is an estimate of the period of convolutional interleaver.

)는 레지스터의 단수와 부호어의 길이 그리고 레지스터 크기에 의해 결정되며, 두 번째 인터리빙 주기 추정치(

)는 첫 번째 인터리버의 주기와 레지스터의 크기 그리고 부호어의 길이에 의해 결정된다. 이를 수식으로 표현하면 수학식 2 및 수학식 3과 같다. The convolutional interleaver determination step S12 uses the periodic characteristics of the convolutional interleaver. In the case of a block interleaver, the first interleaving period and the second interleaving period form exactly a drainage relationship. In the case of a convolutional interleaver, the first interleaving period and the second interleaving period do not form a drainage relationship. When an interleaver matrix is constructed, the first interleaving period estimate (

) Is determined by the number of registers, the length of the codeword, and the register size.

) Is determined by the period of the first interleaver, the size of the register and the length of the codeword. This may be expressed as an equation (2) or (3).

은 첫 번째 인터리빙 주기 추정치(추정 주기)이고,

는 두 번째 인터리빙 주기 추정치(추정 주기)이고,

은 레지스터의 단수이고,

은 부호어의 길이이고,

는 레지스터 크기를 나타낸다. here,

Is the first interleaving period estimate (estimation period),

Is the second interleaving period estimate (estimation period),

Is the singular of the register,

Is the length of the codeword,

Denotes the register size.

Accordingly, the controller may determine the convolutional interleaver when the second interleaving estimation period is not a multiple of the first interleaving estimation period, and determine the block interleaver when the second interleaving estimation period is a multiple.

The parameter estimating step S13 may be performed by estimating a key parameter necessary for deinterleaver configuration, and may include a register size estimation step, a register stage estimation step, a register stage verification step, and a register stage determination step.

The register size estimating step estimates the size of a register using Equations 2 and 3 below. If Equation 2 and Equation 3 are summarized, the relationship between Equation 4 and Equation 5 can be obtained, and Equation 4 can be used to estimate the size d of the register.

The register stage estimating step utilizes that the register stage and the length of the codeword in Equation 5 are limited to the difference between the second interleaving estimation period and the first interleaving estimation period. The number of stages of a register is estimated by selecting the number of registers (Nr) and the length of the codeword (l) that satisfy the constraint of Equation 5.

In the register singular verifying step, a matrix is formed using the length of the codeword selected in the register singular estimating step and Gaussian elimination operation is applied, and then the ratio of 1 to 0 calculated in each row of the matrix is calculated. You get a verification result like 9 Register singular verification is done by comparing the threshold value with a ratio of 1 to 0.

The step of determining the number of registers is determined by selecting the number of registers corresponding to the length of the codeword verified in the register number verifying step, using the fact that the number of registers and the length of the codeword are limited to the difference between the estimation periods in Equation 5. .

The stream reconstruction step (S14) is a step of deinterleaving the interleaved stream by configuring a deinterleaver. When the interleaved channel code stream is input to the deinterleaver, the deinterleaved stream can be reconstructed.

The configuration of the deinterleaver is possible to configure the convolutional deinterleaver since all parameters necessary for the deinterleaver configuration have been estimated.

As described above, in the blind convolutional deinterleaving method using the interleaving period according to the embodiment of the present invention, it is possible to determine whether to apply the convolutional interleaver using only the signal received at the antenna without any prior information, and the convolutional interleaver is applied. In this case, the deinterleaver can be configured and verified by estimating the interleaving period, register size and singular number, and codeword length, which are key parameters, and the received signal can be restored to the channel code stream before interleaving. It can be applied to special purpose receivers such as spectrum monitoring.

It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. 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 protection scope of the present invention should be interpreted by the following claims, and all technical ideas within the equivalent scope should be interpreted as being included in the scope of the present invention.

Claims (9)

Estimating an interleaving period based on the interleaved stream;
Determining a convolutional interleaver based on the estimated interleaving period;
Estimating a parameter comprising a register size and a singular and codeword length constituting the convolutional interleaver;
And constructing a deinterleaver with reference to the parameter, and restoring the interleaved stream to a channel code stream before being interleaved through the deinterleaver. The blind convolutional deinterleaving method of claim 1, further comprising: determining a block interleaver when a second interleaving estimation period included in the estimated interleaving period is a multiple of a first interleaving estimation period. The method of claim 1, wherein the determining of the convolutional interleaver comprises:
And determining the convolutional interleaver when the second interleaving estimation period included in the estimated interleaving period is not a multiple of the first interleaving estimation period. 4. The method of claim 3, wherein the first interleaving estimation period is

Determined by the formula, where

Is the first interleaving estimation period,

Is the singular of the register,

Is the length of the codeword,

The blind weaving deinterleaving method according to claim 1, wherein the size of the register. 5. The method of claim 4, wherein the second interleaving estimation period is

Determined by the formula,

Is the second interleaving estimation period. The method of claim 5, wherein the size (d) of the register is

A blind weaving deinterleaving method, characterized in that estimated by the equation. The method according to claim 6,

Blind convolutional deinterleaving method, characterized in that the limit of the number of stages and the length of the codeword through the equation. 5. The blind convolutional deinterleaving method of claim 4, further comprising verifying the number of stages of the register at a ratio of 1 to 0 in a matrix constructed using the length of the codeword. Estimating an interleaving period based on the interleaved stream;
When the second interleaving estimation period included in the estimated interleaving period is a multiple of the first interleaving estimation period, it is determined as a block interleaver, and when the second interleaving estimation period is not a multiple of the first interleaving estimation period, the convolutional interleaver Determining;
Estimating a parameter comprising a register size and a singular and codeword length constituting the convolutional interleaver;
And constructing a deinterleaver with reference to the parameter, and restoring the interleaved stream to a channel code stream before being interleaved through the deinterleaver.

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