KR100427185B1 - Information transmission method using preamble signal for OFDM-based wireless LAN system and a receiver corresponding to the method - Google Patents

Abstract

The present invention provides a method for transmitting arbitrary information using a preamble signal transmitted to a receiver before transmitting real data for timing synchronization, frequency synchronization, and the like in an OFDM system. And a receiving apparatus for receiving and extracting information transmitted according to the method, wherein the receiving apparatus extracts negative information between two symbols T1 and T2 transmitted for estimating a channel and a fine frequency deviation among preamble signals, and two symbols T1 and T2. Generate two symbols -T1 and -T2 with a minus sign (-) (S201, S202), and generate a plurality of types of information by combining the generated four symbols (S203), of the generated information The selected one may be transmitted according to the transmission time of the corresponding preamble signal (S204), and available information may be sent on the OFDM preamble signal.

Description

Information transmission method using preamble signal for OFDM-based wireless LAN system and a receiver corresponding to the method for orthogonal frequency division multiplexing wireless local area network

The present invention relates to an information transmission method using a preamble signal and an apparatus for receiving the information in an orthogonal frequency division multiplex wireless local area network, and more particularly, orthogonal frequency division multiplexing (OFDM) transmission. A method for transmitting any available information by using a preamble signal transmitted to a receiver before transmitting actual data for timing synchronization and frequency synchronization, and receiving and extracting the transmitted information according to the method. It relates to a receiving device for.

In an OFDM wireless LAN system, a preamble signal having a predetermined pattern is transmitted for synchronization acquisition. FIG. 1 illustrates a structure of a preamble used in an OFDM wireless LAN system (IEEE802.11a and HYPERLAN 2). As shown in FIG. 1, a preamble signal has 16 identical sequences as shown in FIG. It consists of ten short symbols t1 to t10 and two long symbols T1 and T2 each consisting of 64 identical sequences, and no information is carried.

Among the preamble signals, t1 to t7 are used for automatic gain control (AGC), signal detection, and diversity selection, and t8 to t10 are used for wide range parking deviation estimation and timing synchronization. .

In addition, the preamble signals T1 and T2 are mainly used for fine frequency estimation and are not used for timing synchronization. This is because the wireless LAN environment does not have great mobility, and therefore, the timing synchronization value set just before is small because the timing delay is small. Therefore, even with the preamble signals t1 to t9 without the preamble signals T1 and T2, timing synchronization can be achieved on the receiving side, and frequency synchronization can be achieved to some extent.

The present invention was created in accordance with the technical background as described above, and an object of the present invention is to provide arbitrary information by using a preamble signal, which has been conventionally used for fine frequency deviation estimation for information transmission in an OFDM type wireless LAN system. To provide a method for transmitting and extracting information using a preamble signal in an orthogonal frequency division multiplex wireless local area network, which transmits the data, and allows the demodulator on the receiving side to extract the transmitted information. It is.

1 is a diagram illustrating a preamble structure of a general orthogonal frequency division multiplexing wireless local area network on a time axis;

2 is a flowchart illustrating an information transmission method using a preamble signal in an orthogonal frequency division multiplex wireless local area network according to an embodiment of the present invention;

3 (a) to (d) are diagrams showing the number of branches of carrying available information on a preamble signal according to the present invention;

4 is a flowchart illustrating an information extraction method using a preamble signal in an orthogonal frequency division multiple access wireless local area network according to an embodiment of the present invention;

5 is a block diagram of a matched filter as a general maximum correlation detector,

6 is a block diagram of a preamble information signal extraction apparatus of a receiving apparatus according to the present invention.

※ Explanation of code for main part of drawing

61: path branch 63,65; Maximum correlation value detector

67: information extraction unit

In order to achieve the above object, the information transmission method using the preamble signal in the orthogonal frequency division multiplex wireless local area network according to the present invention, in transmitting the preamble signal in the orthogonal frequency division multiplex wireless local area network, In the preamble signal, two symbols T1 and T2 transmitted for estimating the channel and the fine frequency deviation and two symbols T1 and T2 having a negative sign added to the two symbols T1 and T2 are generated. First step; A second step of generating a plurality of types of information by combining the generated four symbols; And a third step of transmitting the selected one of the generated information according to a transmission time of the corresponding preamble signal.

The generated information is four types of first to fourth information, the first information is composed of T1, T2, the second information is composed of T1, -T2, and the third information is composed of -T1, T2. , The fourth information is composed of -T1, -T2, wherein T1 is equal to T2, and T1 = T2 = {b ₀ , b ₁ , b ₂ , ..., b _N-1 }, wherein b _i ( i = N) is in complex form and N is 64.

In order to achieve the above object, an information extraction method using a preamble signal in an orthogonal frequency division multiplexing wireless local area network according to the present invention includes two symbols transmitted for estimating a channel and a fine frequency deviation among the preamble signals. Receiving a first step; Branching the received symbol into two first and second paths; The first maximum correlation value is obtained by multiplying the conjugate input of the symbol set through the first path, and the negative of the conjugate of the symbol preset to the symbol input through the second path. A third step of multiplying the values to obtain a second maximum correlation value; A fourth step of mutually comparing the magnitudes of the first maximum correlation value and the second maximum correlation value; And a fifth step of determining a shape of the received symbol according to the comparison result and extracting information based on the determined shape of the symbol.

And a sixth step of estimating a fine frequency deviation based on the extracted information in the fifth step, wherein the extracted negative information is removed if the extracted information is negative sign information. It is characterized in that to perform the fine frequency deviation estimation based on.

In order to achieve the above object, in a receiving apparatus of an orthogonal frequency division multiplexing wireless local area network according to the present invention, a symbol coral transmitted for estimating a channel and a fine frequency deviation among preamble signals is formed by two first and second symbols. Branching means for branching into the path; First maximum correlation detection means for obtaining a first maximum correlation value by multiplying a conjugate of a predetermined symbol by a symbol signal input through the first path; Second maximum correlation detection means for obtaining a second maximum correlation value by multiplying a negative value of a conjugate of a corresponding symbol preset through a symbol signal input through the second path; And information for comparing the magnitudes of the first maximum correlation value with the second maximum correlation value, determining a shape of the received symbol signal according to a result of the comparison, and extracting information based on the determined symbol shape. It comprises a extraction means.

Hereinafter, an information transmission and extraction method using a preamble signal in an orthogonal frequency division multiplexing wireless local area network according to a preferred embodiment of the present invention and an apparatus for receiving the information will be described in detail.

2 is a flowchart illustrating an information transmission method using a preamble signal in an orthogonal frequency division multiplexing wireless local area network according to an embodiment of the present invention, and is applied to a transmitting side of an OFDM wireless LAN system.

First, symbols t1 to t10, T1, and T2 for an OFDM preamble signal described with reference to FIG. 1 are generated (S201), and among the generated symbols t1 to t10, T1, and T2, the symbol T1 is generated. A negative sign (-) is added to and T2 to generate new symbols -T1 and -T2 (S202).

Subsequently, the generated four types of information are generated by combining the four symbols T1, -T1, T2, and -T2, wherein the first information is T1, T2, and the second information is T1, -T2, the third information is generated as -T1, T2, and the fourth information is generated as -T1, -T2. Wherein T1 is equal to T2, and T1 = T2 = {b ₀ , b ₁ , b ₂ , ..., b _N-1 }, where b _i (i = N) is in complex form and N is 64 (S203)

Finally, if one of the four types of information generated is selected and transmitted, the transmission type becomes one of (a), (b), (c) and (d) of FIG. 3. That is, the transmission of the first information is in the form of Fig. 3 (a), the transmission of the second information is in the form of Fig. 3 (b), and the transmission of the third information is in Fig. 3 (c). ), And in the case of transmitting the fourth information (d) (S204).

FIG. 4 is a flowchart illustrating an information extraction method using a preamble signal in an orthogonal frequency division multiplex wireless local area network according to an embodiment of the present invention, and is applied to a receiving side of an OFDM wireless LAN system corresponding to the method of FIG. do.

First, a preamble signal of one of the types (a) to (d) of FIG. 3 transmitted in step S204 of FIG. 2 is received (hereinafter, for the convenience of description, reception of T1 and T2 as the first information). The time will be described as an example) (S401). When the received preamble signal is divided into two paths of the first path and the second path (S402), the second preamble signal included in the branched preamble signal is transmitted. Among the information, the preceding symbol T1 (T1 is transmitted after T1) is simultaneously transmitted to the first and second paths on the time axis, and the symbol T1, which is a signal on the first path, is conjugated of the predetermined symbol T1. The first maximum correlation value A is obtained by multiplying (C *) (S403), and the symbol T1, which is a signal on the second path, is multiplied by a negative value of the conjugate C * to obtain a second maximum correlation value B. To obtain (S404).

Subsequently, the magnitudes of the first maximum correlation value A and the second maximum correlation value B are compared with each other (S405), and finally, information is determined and extracted based on the comparison result. The preceding symbol is determined by the positive value T, and when A <B, it is determined by the negative value -T. In this example, since the preceding symbol is assumed to be the positive value T1, the comparison result is A. Received as &quot; B &quot; is determined by the positive value T (S406).

A receiving apparatus of the present invention in which the method of FIG. 4 described above is implemented will be described with reference to FIGS. 5 and 6.

FIG. 5 is a block diagram of a matched filter as a general maximum correlation detector, which is used for correlation between a received input signal and an OFDM preamble signal previously known and set at a receiver.

Here, T is a sampling interval and Ci is a conjugate complex number of the preamble signal as a coefficient of the matched filter. The maximum correlation value is detected from the correlation peaks appearing in the output signal of the matched filter. This technique is very similar to the synchronization in a direct sequence spread spectrum receiver that takes the correlation of the input signal and the spread signal.

FIG. 6 is a block diagram of a preamble information signal extracting apparatus of a receiving apparatus according to the present invention. As shown in the figure, a path branching unit for branching a received signal into two first and second paths ( 61); A first maximum correlation value detector (63) for obtaining a first maximum correlation value by multiplying a conjugate of a corresponding symbol preset to a signal input through the first path; A second maximum correlation value detector (65) for obtaining a second maximum correlation value by multiplying a negative value of a conjugate of a corresponding symbol preset through a symbol signal input through the second path; And information for comparing the magnitudes of the first maximum correlation value with the second maximum correlation value, determining a shape of the received symbol signal according to a result of the comparison, and extracting information based on the determined symbol shape. It consists of the extraction part 67.

In FIG. 6, the pair of maximum correlation detectors 63 and 65 may be configured as matched filters as shown in FIG. 5, but the present disclosure is not limited thereto. Various structures may be used to obtain a maximum correlation value by correlation with a received signal. It is possible.

The pair of maximum correlation detectors 63 and 65 detect and detect preamble symbols having no negative sign and preamble symbols having a negative sign, respectively. The maximum correlation value detector 63 outputs a maximum correlation value when a preamble symbol without a negative sign is input, and the second maximum correlation value detector 65 outputs a negative sign. When the added preamble symbol is input, the maximum correlation value is output. Where the coefficient {c ₀ , c ₁ , c ₂ , ..., c _N-1 } is a conjugate complex number for the input sequence {b ₀ , b ₁ , b ₂ , ..., b _N-1 }, The coefficient {-c ₀ , -c ₁ , -c ₂ , ...,-c _N-1 } is the input sequence {-b ₀ , -b ₁ , -b ₂ , ...,-b _N-1 } Is a conjugate complex number for.

If the transmitter transmits the sequence {b ₀ , b ₁ , b ₂ , ..., b _N-1 } without adding a negative sign to the preamble symbol T1 or T2, Since the conjugate complex number corresponds to the transmitted symbol T1 or T2, the first maximum correlation value detecting unit 63 of 6 corresponds to the first maximum correlation value A that is the output of the first maximum correlation value detecting unit 63. It becomes larger than the 2nd maximum correlation value B which is the output of the 2nd maximum correlation value 65, and the said information extraction part 67 discriminates the received information signal as a positive signal.

On the contrary, the transmitter transmits the preamble symbol T1 or T2 by inserting the sequence {-b ₀ , -b ₁ , -b ₂ , ...,-b _N-1 } in which a negative sign is added. In this case, the second maximum correlation value detection section 65 of FIG. 6 matches the complex complex number corresponding to the transmitted symbols -T1 or -T2, so that the second maximum correlation value detection section 65 is the output of the second maximum correlation value detection section 65. The maximum correlation value B becomes larger than the first maximum correlation value A, which is the output of the first maximum correlation value 65, so that the information extraction section 67 discriminates the received information signal as a negative signal.

On the other hand, when the above-described implementation of the present invention can perform fine frequency deviation estimation, an efficient method of fine frequency deviation estimation can be described in the following two ways.

The first method is a method of estimating a fine frequency deviation after extracting an information signal with a buffer of about one symbol for input data. Since wireless LAN systems mainly handle packet data, the delay of one symbol is small compared to the processing delay of the entire system. Therefore, after extracting the information signal, the information signal without the code, which is the original information signal, may be restored and input to the fine frequency deviation estimation unit. From this time, the fine frequency deviation estimating unit operates.

The second method is a method of estimating the fine frequency deviation simultaneously with extracting the information signal without processing delay by adding a few blocks to the fine frequency deviation estimation unit. In the fine frequency estimation unit, the sequence {b ₀ , b ₁ , b ₂ , ..., b _N-1 } and the sequence {-b ₀ , -b ₁ , -b ₂ , ...,-b _{N- 1} } A block capable of processing two types is used, and one of the two processing results is multiplexed using the result of the information signal extraction. This allows the estimation of fine frequency deviations without processing delays.

As described in detail above, the information transmission and extraction method using the preamble signal in the orthogonal frequency division multiplexing wireless local area network according to the present invention, and the apparatus for receiving the information can transmit available information to the preamble signal, thereby limiting radio waves. The effect of efficient use of resources is created.

Claims (7)

In transmitting a preamble signal in an orthogonal frequency division multiplex wireless local area network, In the preamble signal, two symbols T1 and T2 transmitted for estimating the channel and the fine frequency deviation and two symbols T1 and T2 having a negative sign added to the two symbols T1 and T2 are generated. First step; A second step of generating a plurality of types of information by combining the generated four symbols; And And transmitting a selected one of the generated information according to a transmission time of the corresponding preamble signal. The method of claim 1, The generated information is four types of first to fourth information, the first information is composed of T1, T2, the second information is composed of T1, -T2, and the third information is composed of -T1, T2. And the fourth information is -T1, -T2. The information transmission method using the preamble signal in the orthogonal frequency division multiplexing wireless local area network. The method of claim 2, T1 is equal to T2, and T1 = T2 = {b ₀ , b ₁ , b ₂ , ..., b _N-1 }, where b _i (i = N) is in complex form and N is 64 An information transmission method using a preamble signal in an orthogonal frequency division multiplexing wireless local area network. A method for receiving and processing a preamble signal carrying information in an orthogonal frequency division multiplexing wireless local area network, A first step of receiving two symbols transmitted for estimating a channel and a fine frequency deviation among the preamble signals; Branching the received symbol into two first and second paths; The first maximum correlation value is obtained by multiplying the conjugate input of the symbol set through the first path, and the negative of the conjugate of the symbol preset to the symbol input through the second path. A third step of multiplying the values to obtain a second maximum correlation value; A fourth step of mutually comparing the magnitudes of the first maximum correlation value and the second maximum correlation value; And And a fifth step of determining the shape of the received symbol according to the comparison result and extracting information based on the determined shape of the symbol. Information extraction method using. The method of claim 4, wherein And a sixth step of estimating the fine frequency deviation based on the extracted information. The method of claim 4, wherein If the extracted information has negative sign information, the fine frequency deviation estimation is performed based on the information from which the negative sign is removed, using a preamble signal in a frequency division multiplex wireless local area network. Information extraction method. Claims [1] An apparatus for receiving and processing an Orthogonal Frequency Division Multiplexing (OFDM) signal, Branching means for branching the transmitted symbol signal into two first and second paths for estimating a channel and a fine frequency deviation among the preamble signals of the received OFDM signal; First maximum correlation detection means for obtaining a first maximum correlation value by multiplying a conjugate of a predetermined symbol by a symbol signal input through the first path; Second maximum correlation detection means for obtaining a second maximum correlation value by multiplying a negative value of a conjugate of a corresponding symbol preset through a symbol signal input through the second path; And Information extraction for comparing the magnitudes of the first maximum correlation value and the second maximum correlation value, determining the shape of the received symbol signal according to the comparison result, and extracting information based on the determined symbol shape. And a means for receiving an orthogonal frequency division multiplexing wireless local area network.