CN102801513A - Resource mapping and code division multiplexing methods and devices - Google Patents

Abstract

The invention discloses a resource mapping method, a resource mapping device, a code division multiplexing method and a code division multiplexing device, and belongs to the field of communication. The resource mapping method comprises the following steps of: selecting a mapping scheme from at least two mapping schemes, wherein a pilot symbol which corresponds to the selected mapping scheme and has the highest transmitted power is staggered with a pilot symbol which corresponds to a mapping scheme selected by at least one neighbor cell and has the highest transmitted power in terms of frequency and/or time; and performing resource mapping according to the selected mapping scheme. A mapping scheme is selected from the at least two mapping schemes for each cell to realize the resource mapping, so that interference to pilot symbols of boundary users of the cells is effectively reduced; and a plurality of different codeword sequences are obtained by performing vector exchange on an orthogonal matrix to realize codeword design, so that the problem of output power unbalance of the pilot symbols can be effectively improved.

Description

Resource mapping, code division multiplexing method and device

Technical field

The present invention relates to the communications field, particularly a kind of resource mapping, code division multiplexing method and device.

Background technology

In LTE (Long Term Evolution, Long Term Evolution) technology, transmitting terminal offers the receiving terminal frequency pilot sign, and the receiving terminal subscriber equipment can obtain the needed channel estimation value of user data demodulation according to the frequency pilot sign that receives.And in order to guarantee the transmission of frequency pilot sign, need carry out resource mapping, the corresponding relation between the code word of using with space level number, frequency pilot sign place subcarrier and the frequency pilot sign of confirming transmitted pilot symbol.And, multiple design can be arranged for the code word in the resource mapping.

Prior art is when realizing the resource mapping, and identical mapping scheme is adopted in each sub-district, and prior art adopts same codeword sequence on each frequency pilot sign place subcarrier when carrying out code division multiplexing.

For the resource mapping,, will cause the frequency pilot sign of cell boundary users to receive than strong jamming because identical mapping scheme is adopted in each sub-district; And when carrying out the code word design,, then have the power output imbalance problem of frequency pilot sign owing to adopt same code word on each frequency pilot sign place subcarrier.

Summary of the invention

For the interference that the frequency pilot sign that reduces cell boundary users receives, improve the power output imbalance problem of frequency pilot sign, the embodiment of the invention provides a kind of resource mapping, code division multiplexing method and device.Said technical scheme comprises following aspect:

1, a kind of method for mapping resource comprises:

In two kinds of preset mapping schemes, select a kind of mapping scheme at least, the mapping scheme that the frequency pilot sign that said selecteed mapping scheme is pairing to have a strongest transmitting power and at least one neighbor cell are selected is pairing to have the most by force that the frequency pilot sign of transmitting power staggers in frequency and/or on the time each other;

Carry out the resource mapping according to the mapping scheme of selecting;

Wherein, mapping scheme is that the space level number of transmitted pilot symbol, code word and the frequency pilot sign that frequency pilot sign adopts belong to the corresponding relation between the subcarrier.

2, according to aspect 1 described method, in two kinds of preset mapping schemes, select a kind of mapping scheme at least, comprising:

According to cell ID, in two kinds of preset mapping schemes, select a kind of mapping scheme at least.

3, according to aspect 1 or 2 described methods, pairing frequency division multiplexing of mapping scheme or time-multiplexed frequency pilot sign adopt identical scrambler sequence, and/or adopt different code division multiplexing codeword sequences.

4, a kind of resource mapping apparatus comprises:

Memory module is used at least two kinds of mapping schemes of storage, and said mapping scheme is that the space level number of transmitted pilot symbol, code word and the frequency pilot sign that frequency pilot sign adopts belong to the corresponding relation between the subcarrier;

Select module; Be used for selecting a kind of mapping schemes at least two kinds of mapping schemes of said memory module storage, the mapping scheme that the frequency pilot sign that selecteed mapping scheme is pairing to have a strongest transmitting power and at least one neighbor cell are selected is pairing to have the most by force that the frequency pilot sign of transmitting power staggers in frequency and/or on the time each other;

Mapping block is used for carrying out the resource mapping according to the mapping scheme that said selection module is selected;

Wherein, mapping scheme is that the space level number of transmitted pilot symbol, code word and the frequency pilot sign that frequency pilot sign adopts belong to the corresponding relation between the subcarrier.

5, according to aspect 4 described devices, select module, specifically be used for according to cell ID, at least two kinds of mapping schemes of memory module storage, select a kind of mapping scheme.

6, a kind of code division multiplexing method comprises:

Selected orthogonal matrix is carried out the vector exchange, obtain a plurality of different code word sequences;

Confirm the corresponding relation of said a plurality of different code word sequences and each pilot sub-carrier;

On said each pilot sub-carrier, carry out multiplexing according to the corresponding codeword sequence of each pilot sub-carrier the frequency pilot sign of each space layer.

7, according to aspect 6 described methods, selected orthogonal matrix is carried out the vector exchange, obtain a plurality of different code word sequences and comprise:

For the orthogonal matrix W of any 4 dimensions, establish A=W (:, 1), B=W (:, 2), C=W (:, 3), D=W (:, 4);

Wherein, W (:, m) m of expression orthogonal matrix W is listed as pairing column vector, and m is 1 to 4, then orthogonal matrix W is carried out the column vector exchange, obtains 4 kinds of different code word sequences, is respectively:

W1＝[A，B，C，D]；

W2＝[B，A，D，C]；

W3=[C, D, A, B], or, [C, D, B, A];

W4=[D, C, B, A], or, [D, C, A, B];

Correspondingly, confirm the corresponding relation of said a plurality of different code word sequences and each pilot sub-carrier, specifically comprise:

For pilot sub-carrier n1, adopt codeword sequence W1;

For pilot sub-carrier n2, adopt codeword sequence W2;

For pilot sub-carrier n3, adopt codeword sequence W3;

For pilot sub-carrier n4, adopt codeword sequence W4;

For pilot sub-carrier n5, adopt codeword sequence W1;

For pilot sub-carrier n6, adopt codeword sequence W2;

And repeat successively; Wherein, said n is the positive integer greater than zero.

8, according to aspect 6 described methods, selected orthogonal matrix is carried out the vector exchange, obtain a plurality of different code word sequences, comprising:

For the orthogonal matrix W of any 4 dimensions, establish A`=W` (1 :), B`=W` (2 :), C`=W` (3 :), D`=W` (4 :);

Wherein, W` (m :) represent that the capable pairing row of m of orthogonal matrix w is vectorial, m is 1 to 4, then with the capable vector exchange of orthogonal matrix W, obtains 4 kinds of different code word sequences, is respectively:

${{\mathrm{<figure-callout\; id="1"\; label="W"\; filenames="HDA0000130363330000012.png,HDA0000130363330000023.png"\; state="\{\{state\}\}">W</figure-callout>}}_1}^{`}=\left[\begin{array}{c}{A}^{`}\\ B^{`}\\ C^{`}\\ D^{`}\end{array}\right];$ ${{\mathrm{<figure-callout\; id="2"\; label="W"\; filenames="HDA0000130363330000012.png,HDA0000130363330000023.png"\; state="\{\{state\}\}">W</figure-callout>}}_2}^{`}=\left[\begin{array}{c}{B}^{`}\\ A^{`}\\ D^{`}\\ C^{`}\end{array}\right];$ ${W_3}^{`}=\left[\begin{array}{c}{C}^{`}\\ D^{`}\\ A^{`}\\ B^{`}\end{array}\right],$ Or, $\left[\begin{array}{c}{C}^{`}\\ D^{`}\\ B^{`}\\ A^{`}\end{array}\right];$ ${W_4}^{`}=\left[\begin{array}{c}{D}^{`}\\ C^{`}\\ B^{`}\\ A^{`}\end{array}\right],$ Or, $\left[\begin{array}{c}{D}^{`}\\ C^{`}\\ A^{`}\\ B^{`}\end{array}\right];$

Correspondingly, confirm the corresponding relation of said a plurality of different code word sequences and each pilot sub-carrier, specifically comprise:

For pilot sub-carrier n1, adopt codeword sequence W1`;

For pilot sub-carrier n2, adopt codeword sequence W2`;

For pilot sub-carrier n3, adopt codeword sequence W3`;

For pilot sub-carrier n4, adopt codeword sequence W4`;

For pilot sub-carrier n5, adopt codeword sequence W1`;

For pilot sub-carrier n6, adopt codeword sequence W2`;

And repeat successively; Wherein, said n is the positive integer greater than zero.

9, a kind of code word design apparatus comprises:

Acquisition module is used for selected orthogonal matrix is carried out the vector exchange, obtains a plurality of different code word sequences;

Determination module is used for confirming a plurality of different code word sequences that said acquisition module obtains and the corresponding relation of each pilot sub-carrier;

Multiplexing module is used at said each pilot sub-carrier, carries out multiplexing according to the corresponding codeword sequence of said each pilot sub-carrier the frequency pilot sign of each space layer.

10, according to aspect 9 described devices, acquisition module specifically is used for the orthogonal matrix W for any 4 dimensions, establishes A=W (:, 1), B=W (:, 2), C=W (:, 3), D=W (:, 4);

Wherein, W (:, m) m of expression orthogonal matrix W is listed as pairing column vector, and m is 1 to 4, then orthogonal matrix W is carried out the column vector exchange, obtains 4 kinds of different code word sequences, is respectively:

W1＝[A，B，C，D]；

W2＝[B，A，D，C]；

W3=[C, D, A, B], or, [C, D, B, A];

W4=[D, C, B, A], or, [D, C, A, B];

Correspondingly, said determination module specifically is used for

For pilot sub-carrier n1, adopt codeword sequence W1;

For pilot sub-carrier n2, adopt codeword sequence W2;

For pilot sub-carrier n3, adopt codeword sequence W3;

For pilot sub-carrier n4, adopt codeword sequence W4;

For pilot sub-carrier n5, adopt codeword sequence W1;

For pilot sub-carrier n6, adopt codeword sequence W2;

And repeat successively; Wherein, said n is the positive integer greater than zero.

11, according to aspect 9 described devices, acquisition module specifically is used for the orthogonal matrix W for any 4 dimensions, establishes A`=W` (1 :), B`=W` (2 :), C`=W` (3 :), D`=W` (4 :);

Wherein, W` (m :) represent that the capable pairing row of m of orthogonal matrix w is vectorial, m is 1 to 4, then with the capable vector exchange of orthogonal matrix W, obtains 4 kinds of different code word sequences, is respectively:

${{\mathrm{<figure-callout\; id="1"\; label="W"\; filenames="HDA0000130363330000012.png,HDA0000130363330000023.png"\; state="\{\{state\}\}">W</figure-callout>}}_1}^{`}=\left[\begin{array}{c}{A}^{`}\\ B^{`}\\ C^{`}\\ D^{`}\end{array}\right];$ ${{\mathrm{<figure-callout\; id="2"\; label="W"\; filenames="HDA0000130363330000012.png,HDA0000130363330000023.png"\; state="\{\{state\}\}">W</figure-callout>}}_2}^{`}=\left[\begin{array}{c}{B}^{`}\\ A^{`}\\ D^{`}\\ C^{`}\end{array}\right];$ ${W_3}^{`}=\left[\begin{array}{c}{C}^{`}\\ D^{`}\\ A^{`}\\ B^{`}\end{array}\right],$ Or, $\left[\begin{array}{c}{C}^{`}\\ D^{`}\\ B^{`}\\ A^{`}\end{array}\right];$ ${W_4}^{`}=\left[\begin{array}{c}{D}^{`}\\ C^{`}\\ B^{`}\\ A^{`}\end{array}\right],$ Or, $\left[\begin{array}{c}{D}^{`}\\ C^{`}\\ A^{`}\\ B^{`}\end{array}\right];$

Correspondingly, said determination module specifically is used for

For pilot sub-carrier n1, adopt codeword sequence W1`;

For pilot sub-carrier n2, adopt codeword sequence W2`;

For pilot sub-carrier n3, adopt codeword sequence W3`;

For pilot sub-carrier n4, adopt codeword sequence W4`;

For pilot sub-carrier n5, adopt codeword sequence W1`;

For pilot sub-carrier n6, adopt codeword sequence W2`;

And repeat successively; Wherein, said n is the positive integer greater than zero.

The beneficial effect of the technical scheme that the embodiment of the invention provides is:

In at least two kinds of mapping schemes, select a kind of mapping scheme through each sub-district; The mapping of realization resource; Because the mapping scheme that the frequency pilot sign that selecteed mapping scheme is pairing to have a strongest transmitting power and at least one neighbor cell are selected is pairing to have the most by force that the frequency pilot sign of transmitting power staggers in frequency and/or on the time each other, then can effectively reduce the interference that the pilot signal of cell boundary users receives; In addition,, obtain a plurality of different code word sequences, and confirm the corresponding relation between each pilot sub-carrier and a plurality of different code word sequence, can effectively improve the power output imbalance problem of frequency pilot sign through selected orthogonal matrix being carried out the vector exchange.

Description of drawings

In order to be illustrated more clearly in the technical scheme in the embodiment of the invention; The accompanying drawing of required use is done to introduce simply in will describing embodiment below; Obviously, the accompanying drawing in describing below only is some embodiments of the present invention, for those of ordinary skills; Under the prerequisite of not paying creative work, can also obtain other accompanying drawing according to these accompanying drawings.

Fig. 1 is the method for mapping resource flow chart that the embodiment of the invention one provides;

Fig. 2 is the structural representation of the time that provides of the embodiment of the invention two;

Fig. 3 is the method for mapping resource flow chart that the embodiment of the invention two provides;

Fig. 4 is the structural representation of the resource mapping apparatus that provides of the embodiment of the invention three;

Fig. 5 is the code division multiplexing method flow diagram that the embodiment of the invention four provides;

Fig. 6 is the code division multiplexing sketch map that the embodiment of the invention five provides;

Fig. 7 is the code division multiplexing method flow diagram that the embodiment of the invention five provides;

Fig. 8 is the structural representation of the code division multiplexing device that provides of the embodiment of the invention six.

Embodiment

For making the object of the invention, technical scheme and advantage clearer, embodiment of the present invention is done to describe in detail further below in conjunction with accompanying drawing.

Embodiment one

Referring to Fig. 1, present embodiment provides a kind of method for mapping resource, and this method flow is specific as follows:

101: in two kinds of preset mapping schemes, select a kind of mapping scheme at least, the mapping scheme that the frequency pilot sign that selecteed mapping scheme is pairing to have a strongest transmitting power and at least one neighbor cell are selected is pairing to have the most by force that the frequency pilot sign of transmitting power staggers in frequency and/or on the time each other;

102: carry out the resource mapping according to the mapping scheme of selecting.

The method that present embodiment provides; In two kinds of preset mapping schemes, select a kind of mapping scheme at least through each sub-district; The mapping of realization resource; Because the mapping scheme that the frequency pilot sign that selecteed mapping scheme is pairing to have a strongest transmitting power and at least one neighbor cell are selected is pairing to have the most by force that the frequency pilot sign of transmitting power staggers in frequency and/or on the time each other, then can effectively reduce the interference that the frequency pilot sign of cell boundary users receives.

Embodiment two

Present embodiment provides a kind of method for mapping resource, and for the ease of explanation, present embodiment is an example with time shown in Figure 2, and frequency pilot sign is belonged to subcarrier is called pilot sub-carrier, and the method for mapping resource that present embodiment is provided describes.

Among Fig. 2, a sub-frame comprises 2 slot (time slot), and 7 OFDM (Orthogonal Frequency Division Multiplexing, OFDM) symbol is arranged in each slot; In each slot, total 12x7 RE (Resource Element, resource).The pilot resource distribution method that this Resource Block adopts is: on time domain, introduce CDM (Code Division Multiplexing, code division multiplexing), the pilot resources of 4 quadratures can be provided, like first resource among Fig. 2; On frequency domain, introduce FDM (Frequency Division Multiplexing, frequency division multiplexing), the pilot resources of 4 quadratures also can be provided, like second resource among Fig. 2.To the pilot resources method of salary distribution shown in Figure 2, prior art is when carrying out the resource mapping, and identical mapping scheme is adopted in each sub-district, is example with the mapping scheme shown in the following table 1:

Table 1

The space level number

L1

L2

L3

L4

L5

L6

L7

L8

The code word of the one RE

C1

C2

C3

C4

The code word of the 2nd RE

C1

C2

C3

C4

According to the mapping scheme shown in the table 1, for example: when the space is always transmitted number of plies RANK and is 3,, will have 2 space layer and on a RE, transmit, and have 1 space layer on the 2nd RE, to transmit according to the mapping relations shown in the above-mentioned table 1.If the through-put power of each space layer is equal, and is 1/3 of data RE average power, then:

The transmitting power of the dedicated pilot resource on the one RE is: (P/3+P/3) * beta=beta*P*2/3;

The transmitting power of the dedicated pilot resource on the 2nd RE is: (P/3) * beta=beta*P/3;

Wherein, beta representes the power adjusting factor of pilot tone, and P representes the average power of data RE.At this moment, to go up the transmitting power of dedicated pilot resource be 2 times of the 2nd RE transmitting power that goes up the dedicated pilot resource to a RE.

Need to prove: how the power adjusting factor of pilot tone is set, and is prior art, and present embodiment is not done concrete qualification.Present embodiment is provided with the power adjusting factor beta=2 of pilot tone only with RANK＞2 o'clock, describes otherwise beta=1 is an example.

Further, for the boundary user of neighbor cell,, can adopt the space to transmit the transmission means of total number of plies RANK=1 or 2 usually because SINR (Signal to Interference plus Noise Ratio, Signal to Interference plus Noise Ratio) is lower.If adopt the mapping scheme shown in the above-mentioned table 1, this user can take the resource transmission dedicated pilot of a RE.

All select the mapping scheme shown in the above-mentioned table 1 if establish sub-district 1 with neighbor cell 2, for the boundary user of sub-district 1, generally adopt the transmission plan of Rank=1 or 2, then the interference power from sub-district 2 that receives of frequency pilot sign is as shown in table 2 below:

Table 2

In the table 2, P representes the average power of data RE, in the time of the RANK of sub-district 2＞2, the power adjusting factor beta=2 of pilot tone is set, otherwise beta=1.When the space is transmitted total number of plies (RANK) and is 1,2,3,5 and 7, on a RE, will transmit the more space number of plies so, just take the more power resource, and the corresponding resource of adjacent sub-district is produced bigger interference.In the analysis of back; It is more that present embodiment will take power resource; And the frequency pilot sign that the corresponding resource of adjacent sub-district produces bigger interference is called has the frequency pilot sign of strong transmitting power, the pilot sub-carrier at such frequency pilot sign place is called has the pilot sub-carrier of strong transmitting power.

For the interference that the frequency pilot sign that reduces cell boundary users receives, present embodiment provides a kind of method for mapping resource, referring to Fig. 3, is example with preset two kinds of mapping schemes, and this method flow is specific as follows:

301: in two kinds of preset mapping schemes, select a kind of mapping scheme, the mapping scheme that the frequency pilot sign that this selecteed mapping scheme is pairing to have a strongest transmitting power and at least one neighbor cell are selected is pairing to have the most by force that the frequency pilot sign of transmitting power staggers in frequency and/or on the time each other;

Wherein, mapping scheme is that the space level number of transmitted pilot symbol, code word and the frequency pilot sign that frequency pilot sign adopts belong to the corresponding relation between the subcarrier.Be example still, can establish mapping scheme A and the mapping scheme B shown in the table 4 shown in following table 3 with Resource Block shown in Figure 2:

Table 3

The space level number

L1

L2

L3

L4

L5

L6

L7

L8

The code word of the one RE

C1

C2

C3

C4

The code word of the 2nd RE

C1

C2

C3

C4

Table 4

The space level number

L1

L2

L?3

L4

L5

L6

L7

L8

The code word of the one RE

C1

C2

C3

C4

The code word of the 2nd RE

C1

C2

C3

C4

Particularly, when in two kinds of preset mapping schemes, selecting a kind of mapping scheme, each sub-district can be selected according to Cell ID (cell ID), for example:

If cell ID mod 2=0, then the mapping scheme A shown in the option table 3;

If cell ID mod 2=1, then the mapping scheme B shown in the option table 4.

If mapping scheme A is selected in sub-district 1, and neighbor cell 2 is selected mapping scheme B.

302: carry out the resource mapping according to the mapping scheme of selecting.

To this step, carry out then in the pilot symbol transmission process, for the boundary user of sub-district 1, generally adopting the transmission plan of Rank=1 or 2 after the resource mapping, receive from the interference power of sub-district 2 shown in following table 5:

Table 5

As shown in table 5, P representes the average power of data RE, in the time of the RANK of sub-district 2＞2, the power adjusting factor beta=2 of pilot tone is set, otherwise beta=1.From table 5, can find out: the mapping scheme that adopts present embodiment to provide, on the frequency pilot sign of sub-district 1 boundary user, can effectively reduce from the Pilot Interference power of neighbor cell 2.

Further, in Resource Block shown in Figure 2, the code word on the RE can be different with code word on the 2nd RE.The frequency pilot sign that is frequency division multiplexing adopts the different code word sequence, for example, is example with the mapping scheme shown in the following table 6, and code word Cm (m=1-4) and Dm (m=1-4) can be different.

Table 6

The space level number

L1

L2

L3

L4

L5

L6

L7

L8

The code word of the one RE

C1

C2

C3

C4

The code word of the 2nd RE

D1

D2

D3

D4

If can use following code word on the RE of sub-district 1:

[1，1，1，1；

1，-1，1，-1；

1，1，-1，-1；

1，-1，-1，1]

And can use the difference of above-mentioned code word to be shifted on the 2nd RE, for example:

[1，1，1，1；

-1，1，-1，1；

-1，1，1，-1；

1，1，-1，-1]

The benefit of doing like this is: when adopting the cell-specific scrambler; If a RE goes up the scrambler that adopts and goes up the identical scrambler of employing with the 2nd RE; The frequency pilot sign that is frequency division multiplexing adopts identical scrambler; Then a RE go up with the 2nd RE on the intersymbol interference that receives from adjacent sub-district be different, can improve the detection performance like this.

Further, the code word that the frequency pilot sign of neighbor cell uses also can be different, and present embodiment is not done concrete qualification to this.

The method that present embodiment provides; In at least two kinds of mapping schemes, select a kind of mapping scheme through each sub-district; The mapping of realization resource; Because the mapping scheme that the frequency pilot sign that selecteed mapping scheme is pairing to have a strongest transmitting power and at least one neighbor cell are selected is pairing to have the most by force that the frequency pilot sign of transmitting power staggers in frequency and/or on the time each other, then can effectively reduce the interference that the frequency pilot sign of cell boundary users receives; In addition, because the method that present embodiment provides also supports frequency division multiplexing or time-multiplexed frequency pilot sign to adopt identical scrambler sequence; And/or different code word sequence; Therefore, the intersymbol interference that on pilot tone, receives neighbor cell is different, and then can improve the detection performance.

Embodiment three

Referring to Fig. 4, present embodiment provides a kind of resource mapping apparatus, and this device comprises:

Memory module 401 is used at least two kinds of mapping schemes of storage, and mapping scheme is that the space level number of transmitted pilot symbol, code word and the frequency pilot sign that frequency pilot sign adopts belong to the corresponding relation between the subcarrier;

Select module 402; Be used for selecting a kind of mapping schemes at least two kinds of mapping schemes of memory module 401 storage, the mapping scheme that the frequency pilot sign that selecteed mapping scheme is pairing to have a strongest transmitting power and at least one neighbor cell are selected is pairing to have the most by force that the frequency pilot sign of transmitting power staggers in frequency and/or on the time each other;

Mapping block 403 is used for carrying out the resource mapping according to the mapping scheme of selecting module 402 to select.

Particularly, select module 402, specifically be used for, at least two kinds of mapping schemes of memory module 402 storages, select a kind of mapping scheme according to cell ID.

Preferably, frequency division multiplexing or time-multiplexed frequency pilot sign adopt identical scrambler sequence, and/or adopt the different code word sequence.

The device that present embodiment provides; In at least two kinds of mapping schemes, select a kind of mapping scheme through each sub-district; The mapping of realization resource; Because the mapping scheme that the frequency pilot sign that selecteed mapping scheme is pairing to have a strongest transmitting power and at least one neighbor cell are selected is pairing to have the most by force that the frequency pilot sign of transmitting power staggers in frequency and/or on the time each other, then can effectively reduce the interference that the frequency pilot sign of cell boundary users receives; In addition, because the method that present embodiment provides also supports frequency division multiplexing or time-multiplexed frequency pilot sign to adopt identical scrambler sequence; And/or different code word sequence; Therefore, the intersymbol interference that on pilot tone, receives neighbor cell is different, and then can improve the detection performance.

Embodiment four

Referring to Fig. 5, present embodiment provides a kind of code division multiplexing method, and this method flow is specific as follows:

501: selected orthogonal matrix is carried out the vector exchange, obtain a plurality of different code word sequences;

502: the corresponding relation of confirming a plurality of different code word sequences and each pilot sub-carrier;

503: on each pilot sub-carrier, carry out multiplexing according to the corresponding codeword sequence of each pilot sub-carrier the frequency pilot sign of each space layer.

The method that present embodiment provides; Through selected orthogonal matrix being carried out the vector exchange; Obtain a plurality of different code word sequences; And confirm the corresponding relation between each pilot sub-carrier and a plurality of different code word sequence, and make each pilot sub-carrier adopt the different code word sequence, can effectively improve the power output imbalance problem of frequency pilot sign.

Embodiment five

Present embodiment provides a kind of code division multiplexing method, and for the ease of explanation, present embodiment is an example with Resource Block shown in Figure 6, and the method that present embodiment is provided is elaborated.

Among Fig. 6, a sub-frame comprises 2 slot (time slot), and 7 OFDM symbols are arranged in each slot; In each slot, total 12x7 RE.The pilot resource distribution method that this Resource Block adopts is: on time domain, introduce CDM, the pilot resources of 4 quadratures can be provided.Prior art is in design during code word, at subcarrier n1, and n1+5, n1+10 is last, adopts same CDM code word (C1-C4).

Walsh matrix with 4x4 is an example, for example:

C＝[1，1，1，1；

1，-1，1，-1；

1，1，-1，-1；

1，-1，-1，1]

If C1 is first row of Matrix C, i.e. C1=C (1 :).Similarly, establish C2=C (2 :), C 3=C (3 :), C4=C (4 :).

To Fig. 6, for the unbalanced main analysis scene of power, consider space, broadband preliminary treatment vector, promptly for each space layer, on each subcarrier, adopt identical space preliminary treatment vector.With 8 transmitting antennas is example, and the dedicated pilot symbol of establishing space layer m carries on code word Cm (m=1-4) and transmits, and then on any pilot sub-carrier, the frequency pilot sign matrix of transmitting terminal is:

$\left[\begin{array}{c}{w}_{11}\\ w_{21}\\ \&CenterDot;\\ \&CenterDot;\\ \&CenterDot;\\ w_{81}\end{array}\right]\left[\begin{array}{cccc}{c}_{11}& c_{12}& c_{13}& c_{14}\end{array}\right]s+\&CenterDot;\&CenterDot;\&CenterDot;+\left[\begin{array}{c}{w}_{14}\\ w_{24}\\ \&CenterDot;\\ \&CenterDot;\\ \&CenterDot;\\ w_{84}\end{array}\right]\left[\begin{array}{cccc}{c}_{41}& c_{42}& c_{43}& c_{44}\end{array}\right]s$

Wherein, w _IjBe that j (j=1-4) layer is transmitted in the weight coefficient on the individual transmitting antenna of i (i=1-8), s is a frequency pilot sign, C _IjBe code word C _i(i=1-4) the individual symbol of j (j=1-4).

From following formula, can find out, be for the frequency pilot sign vector on the individual transmitting antenna of i (i=1-8):

$\left[\begin{array}{cccc}{p}_{1i}& p_{2i}& p_{3i}& p_{4i}\end{array}\right]=\left(\begin{array}{c}{w}_{i1}\left[\begin{array}{cccc}{c}_{11}& c_{12}& c_{13}& {\mathrm{<figure-callout\; id="14"\; label="c"\; filenames="HDA0000130363330000012.png,HDA0000130363330000023.png"\; state="\{\{state\}\}">c</figure-callout>}}_{14}\end{array}\right]+\\ w_{i2}\left[\begin{array}{cccc}{c}_{21}& c_{22}& c_{23}& c_{24}\end{array}\right]+\\ w_{i3}\left[\begin{array}{cccc}{c}_{31}& c_{32}& c_{33}& c_{34}\end{array}\right]+\\ w_{i4}\left[\begin{array}{cccc}{c}_{41}& c_{42}& c_{43}& c_{44}\end{array}\right]\end{array}\right)s$

Wherein, symbol P _Ki, (k=1-4) on the OFDM of i transmitting antenna symbol 6,7,13 and 14, transmit respectively.

For different i and j, consider space preliminary treatment vector coefficient w _IjGenerally be different, in conjunction with the orthogonality of code word matrix C, promptly for different i and j, then C (:, i) be not equal to C (:, therefore j), can release: frequency pilot sign P _Ki, (k=1-4) generally be 4 different numerical value.That is to say: on any pilot sub-carrier, the frequency pilot sign that on OFDM symbol 6,7,13 and 14, sends is different.

Further, consider the same same pilot tone code word of space preliminary treatment vector sum of employing on all pilot sub-carriers, at this moment, on each pilot tone OFDM symbol, the power sum of pilot tone RE is respectively:

P ₆＝∑(|p _1i| ²)；

P ₇＝∑(|p _2i| ²)；

P ₁₃＝∑(|p _3i| ²)；

P ₁₄＝∑(|p _4i| ²)；

Wherein, P _mBe illustrated on the pilot tone OFDM symbol m (, m=6,7,13,14) the power sum of all pilot tone RE here.Can know based on above-mentioned analysis, generally speaking:

P ₆≠P ₇≠P ₁₃≠P ₁₄

That is to say: on each pilot tone OFDM symbol, have the power output imbalance problem of pilot tone.

In order to solve the power output imbalance problem of pilot tone, present embodiment provides a kind of code word method for designing, and referring to Fig. 7, the method flow that present embodiment provides is specific as follows:

701: 4 selected orthogonal dimension matrixes are carried out the column vector exchange, obtain 4 different code word sequences;

Wherein, for the ease of explanation, be example with the 4x4Walsh matrix, as:

Orthogonal matrix W=[1,1,1,1;

1，-1，1，-1；

1，1，-1，-1；

1，-1，-1，1]

If A=W (:, 1), B=W (:, 2), C=W (:, 3), D=W (:, 4).

Then the pair of orthogonal matrix W is carried out the column vector exchange, obtains four kinds of transformation matrixs of orthogonal matrix W, is respectively:

W1＝[A，B，C，D?]；

W2＝[B，A，D，C]；

W3=[C, D, A, B], or, [C, D, B, A];

W4=[D, C, B, A], or, [D, C, A, B];

702: the corresponding relation of confirming 4 different code word sequences and each pilot sub-carrier;

Particularly, according to 4 different code word sequences that above-mentioned steps 701 obtains, these 4 different code word sequences can adopt following corresponding relation with each pilot sub-carrier:

For pilot sub-carrier n1, adopt codeword sequence W1;

For pilot sub-carrier n2, adopt codeword sequence W2;

For pilot sub-carrier n3, adopt codeword sequence W3;

For pilot sub-carrier n4, adopt codeword sequence W4;

For pilot sub-carrier n5, adopt codeword sequence W1;

For pilot sub-carrier n6, adopt codeword sequence W2;

And repeat successively.

Wherein: at pilot sub-carrier n1, n2 ... on, the frequency pilot sign of these space layer relies on the CDM sign indicating number to carry out multiplexing.

703: on each pilot sub-carrier, carry out multiplexing according to the corresponding codeword sequence of each pilot sub-carrier the frequency pilot sign of each space layer.

To the code division multiplexing method that present embodiment provides, when solving the power output imbalance problem of frequency pilot sign, make a concrete analysis of as follows:

Considering broadband, space preliminary treatment vector, is example with 8 transmitting antennas still.As shown in Figure 6, on subcarrier n1, the dedicated pilot symbol of establishing space layer m (m=1-4) carries on code word W 1 (m :) and transmits, and then the frequency pilot sign matrix of transmitting terminal is on subcarrier n1:

$\left[\begin{array}{c}{w}_{11}\\ w_{21}\\ \&CenterDot;\\ \&CenterDot;\\ \&CenterDot;\\ w_{81}\end{array}\right]\left[\begin{array}{cccc}W1\left(\mathrm{1,1}\right)& W1\left(\mathrm{1,2}\right)& W1\left(\mathrm{1,3}\right)& W1\left(\mathrm{1,4}\right)\end{array}\right]s+\&CenterDot;\&CenterDot;\&CenterDot;+\left[\begin{array}{c}{w}_{14}\\ w_{24}\\ \&CenterDot;\\ \&CenterDot;\\ \&CenterDot;\\ w_{84}\end{array}\right]\left[\begin{array}{cccc}W1\left(\mathrm{4,1}\right)& W1\left(\mathrm{4,2}\right)& W1\left(\mathrm{4,3}\right)& W1\left(\mathrm{4,4}\right)\end{array}\right]s$

W wherein _IjBe that j (j=1-4) layer is transmitted in the weight coefficient on the individual transmitting antenna of i (i=1-8), s is a frequency pilot sign.

Can find out that from following formula the frequency pilot sign vector on the individual transmitting antenna of i (i=1-8) is:

$\left[\begin{array}{cccc}{p}_{1i}& p_{2i}& p_{3i}& p_{4i}\end{array}\right]=\left(\begin{array}{c}{w}_{i1}\left[\begin{array}{cccc}W1\left(\mathrm{1,1}\right)& W1\left(\mathrm{1,2}\right)& W1\left(\mathrm{1,3}\right)& W1\left(\mathrm{1,4}\right)\end{array}\right]+\\ w_{i2}\left[\begin{array}{cccc}W1\left(\mathrm{2,1}\right)& W1\left(\mathrm{2,2}\right)& W1\left(\mathrm{2,3}\right)& W1\left(\mathrm{2,4}\right)\end{array}\right]+\\ w_{i3}\left[\begin{array}{cccc}W1\left(\mathrm{3,1}\right)& W1\left(\mathrm{3,2}\right)& W1\left(\mathrm{3,3}\right)& W1\left(\mathrm{3,4}\right)\end{array}\right]+\\ w_{i4}\left[\begin{array}{cccc}W1\left(\mathrm{4,1}\right)& W1\left(\mathrm{4,2}\right)& W1\left(\mathrm{4,3}\right)& W1\left(\mathrm{4,4}\right)\end{array}\right]\end{array}\right)s$

Wherein, symbol P _Ki, (k=1-4) on the pilot tone OFDM of i transmitting antenna symbol 6,7,13 and 14, transmit respectively.

According to the corresponding relation of W2 and W1, can release on pilot sub-carrier n2, the frequency pilot sign vector on the corresponding individual transmitting antenna of i (i=1-8) is: [p _2ip _1ip _4ip _3i].Similarly, can release:

On pilot sub-carrier n3, the frequency pilot sign vector on the corresponding individual transmitting antenna of i (i=1-8) is: [p _3ip _4ip _1ip _2i];

On pilot sub-carrier n4, the frequency pilot sign vector on the corresponding individual transmitting antenna of i (i=1-8) is: [p _4ip _3ip _2ip _1i].

If the pilot sub-carrier number is 4 integral multiple, can release: on the individual transmitting antenna of the i of correspondence (i=1-8), at each pilot tone OFDM symbol, promptly the OFDM symbol 6,7, and on 13 and 14, the power sum on all pilot tone RE is equal, that is:

P ₆＝P ₇＝P ₁₃＝P ₁₄＝∑(|p _1i| ²+|p _2i| ²+|p _3i| ²+|p _4i| ²)

Wherein, P _mBe illustrated on the pilot tone OFDM symbol m (, m=6,7,13,14) the power sum of all pilot tone RE here.At this moment, because the power output of each pilot tone OFDM symbol all equates, so just solved the unbalanced problem of pilot tone power output.

Further, if the pilot sub-carrier number is not 4 integral multiple, at each pilot tone OFDM symbol, promptly the OFDM symbol 6,7, and on 13,14, the power sum of pilot tone RE also is more or less the same, and the power output imbalance problem of pilot tone also will obtain very big improvement.

For example: if the pilot sub-carrier number is 5, can release: on each pilot tone OFDM symbol 6,7,13,14, the power sum of pilot tone RE is respectively:

P ₆＝(|p _1i| ²+|p _2i| ²+|p _3i| ²+|p _4i| ²)+|p _1i| ²；

P ₇＝(|p _1i| ²+|p _2i| ²+|p _3i| ²+|p _4i| ²)+|p _2i| ²；

P ₁₃＝(|p _1i| ²+|p _2i| ²+|p _3i| ²+|p _4i| ²)+|p _3i| ²；

P ₁₄＝(|p _1i| ²+|p _2i| ²+|p _3i| ²+|p _4i| ²)+|p _4i| ²；

From following formula, can find out: on each pilot tone OFDM symbol 6,7,13,14, the power sum of pilot tone RE only differs one, therefore, can improve the power imbalance problem of pilot tone output.

Alternatively,, obtain a plurality of different code word sequences, can also exchange by capable vector, obtain a plurality of different code word sequences selected orthogonal matrix except selected orthogonal matrix being carried out the column vector exchange.The present embodiment not vectorial exchanging form of pair of orthogonal matrix specifically limits.Below, be example still with 4 orthogonal dimension matrix W, the capable vector exchange of pair of orthogonal matrix obtains 4 different code word sequences and describes, then for the orthogonal matrix W of any 4 dimensions; If A`=W` (1 :), B`=W` (2 :); C`=W` (3 :), D`=W` (4 :);

Wherein, and W` (m :) (m=1..4) the capable pairing row of the m of expression W matrix is vectorial; The pair of orthogonal matrix W is gone vector exchange, and four kinds of transformation matrixs that obtain are respectively:

${{\mathrm{<figure-callout\; id="1"\; label="W"\; filenames="HDA0000130363330000012.png,HDA0000130363330000023.png"\; state="\{\{state\}\}">W</figure-callout>}}_1}^{`}=\left[\begin{array}{c}{A}^{`}\\ B^{`}\\ C^{`}\\ D^{`}\end{array}\right];$ ${{\mathrm{<figure-callout\; id="2"\; label="W"\; filenames="HDA0000130363330000012.png,HDA0000130363330000023.png"\; state="\{\{state\}\}">W</figure-callout>}}_2}^{`}=\left[\begin{array}{c}{B}^{`}\\ A^{`}\\ D^{`}\\ C^{`}\end{array}\right];$ ${W_3}^{`}=\left[\begin{array}{c}{C}^{`}\\ D^{`}\\ A^{`}\\ B^{`}\end{array}\right],$ Or, $\left[\begin{array}{c}{C}^{`}\\ D^{`}\\ B^{`}\\ A^{`}\end{array}\right];$ ${W_4}^{`}=\left[\begin{array}{c}{D}^{`}\\ C^{`}\\ B^{`}\\ A^{`}\end{array}\right],$ Or, $\left[\begin{array}{c}{D}^{`}\\ C^{`}\\ A^{`}\\ B^{`}\end{array}\right];$

Correspondingly, the corresponding relation of each pilot sub-carrier and 4 different code word sequences is following:

For pilot sub-carrier n1, adopt codeword sequence W1`;

For pilot sub-carrier n2, adopt codeword sequence W2`;

For pilot sub-carrier n3, adopt codeword sequence W3`;

For pilot sub-carrier n4, adopt codeword sequence W4`;

For pilot sub-carrier n5, adopt codeword sequence W1`;

For pilot sub-carrier n6, adopt codeword sequence W2`;

And repeat successively.

The method that present embodiment provides; Through selected orthogonal matrix being carried out the vector exchange; Obtain a plurality of different code word sequences; And confirm the corresponding relation between each pilot sub-carrier and a plurality of different code word sequence, make each pilot sub-carrier adopt the different code word sequence, thereby can effectively improve the power output imbalance problem of frequency pilot sign.

Embodiment six

Referring to Fig. 8, present embodiment provides a kind of code division multiplexing device, and this device comprises:

Acquisition module 801 is used for selected orthogonal matrix is carried out the vector exchange, obtains a plurality of different code word sequences;

Determination module 802 is used for confirming a plurality of different code word sequences that acquisition module obtains and the corresponding relation of each pilot sub-carrier;

Multiplexing module 803 is used at each pilot sub-carrier, carries out multiplexing according to the corresponding codeword sequence of each pilot sub-carrier the frequency pilot sign of each space layer.

Wherein, acquisition module 801 specifically is used for the orthogonal matrix W for any 4 dimensions,

If A=W (:, 1), B=W (:, 2), C=W (:, 3), D=W (:, 4);

Wherein, W (:, m) m of expression orthogonal matrix W is listed as pairing column vector, and m is 1 to 4, then orthogonal matrix W is carried out the column vector exchange, obtains 4 kinds of different code word sequences, is respectively:

W1＝[A，B，C，D]；

W2＝[B，A，D，C]；

W3=[C, D, A, B], or, [C, D, B, A];

W4=[D, C, B, A], or, [D, C, A, B];

Correspondingly, determination module 802 specifically is used for

For pilot sub-carrier n1, adopt codeword sequence W1;

For pilot sub-carrier n2, adopt codeword sequence W2;

For pilot sub-carrier n3, adopt codeword sequence W3;

For pilot sub-carrier n4, adopt codeword sequence W4;

For pilot sub-carrier n5, adopt codeword sequence W1;

For pilot sub-carrier n6, adopt codeword sequence W2;

And repeat successively.

Alternatively, acquisition module 801 specifically is used for the orthogonal matrix W for any 4 dimensions, establishes A`=W` (1 :), B`=W` (2 :), C`=W` (3 :), D`=W` (4 :);

Wherein, W` (m :) (m=1..4) the capable pairing row of the m of expression orthogonal matrix w is vectorial, and m is 1 to 4, then with the capable vector exchange of orthogonal matrix W, obtains 4 kinds of different code word sequences, is respectively:

${{\mathrm{<figure-callout\; id="1"\; label="W"\; filenames="HDA0000130363330000012.png,HDA0000130363330000023.png"\; state="\{\{state\}\}">W</figure-callout>}}_1}^{`}=\left[\begin{array}{c}{A}^{`}\\ B^{`}\\ C^{`}\\ D^{`}\end{array}\right];$ ${{\mathrm{<figure-callout\; id="2"\; label="W"\; filenames="HDA0000130363330000012.png,HDA0000130363330000023.png"\; state="\{\{state\}\}">W</figure-callout>}}_2}^{`}=\left[\begin{array}{c}{B}^{`}\\ A^{`}\\ D^{`}\\ C^{`}\end{array}\right];$ ${W_3}^{`}=\left[\begin{array}{c}{C}^{`}\\ D^{`}\\ A^{`}\\ B^{`}\end{array}\right],$ Or, $\left[\begin{array}{c}{C}^{`}\\ D^{`}\\ B^{`}\\ A^{`}\end{array}\right];$ ${W_4}^{`}=\left[\begin{array}{c}{D}^{`}\\ C^{`}\\ B^{`}\\ A^{`}\end{array}\right],$ Or, $\left[\begin{array}{c}{D}^{`}\\ C^{`}\\ A^{`}\\ B^{`}\end{array}\right];$

Correspondingly, determination module 802 specifically is used for

For pilot sub-carrier n1, adopt codeword sequence W1`;

For pilot sub-carrier n2, adopt codeword sequence W2`;

For pilot sub-carrier n3, adopt codeword sequence W3`;

For pilot sub-carrier n4, adopt codeword sequence W4`;

For pilot sub-carrier n5, adopt codeword sequence W1`;

For pilot sub-carrier n6, adopt codeword sequence W2`;

And repeat successively.

In sum; The device that present embodiment provides; Through selected orthogonal matrix being carried out the vector exchange, obtain a plurality of different code word sequences, and confirm the corresponding relation between each pilot sub-carrier and a plurality of different code word sequence; Make each pilot sub-carrier adopt the different code word sequence, thereby can effectively improve because the power imbalance problem that pilot tone caused.

The invention described above embodiment sequence number is not represented the quality of embodiment just to description.

All or part of step in the embodiment of the invention can utilize software to realize that corresponding software programs can be stored in the storage medium that can read, like CD or hard disk etc.

The above is merely preferred embodiment of the present invention, and is in order to restriction the present invention, not all within spirit of the present invention and principle, any modification of being done, is equal to replacement, improvement etc., all should be included within protection scope of the present invention.

Claims (6)

1. the processing method of a frequency pilot sign is characterized in that, comprising:

Subscriber equipment receives the frequency pilot sign that transmitting terminal sends;

Wherein, Said frequency pilot sign is that said transmitting terminal is on each pilot sub-carrier; According to the corresponding codeword sequence of each pilot sub-carrier the frequency pilot sign of each space layer is carried out multiplexing obtaining; Said codeword sequence is a plurality of different code word sequences, and obtains through selected orthogonal matrix being carried out the vector exchange, and there are corresponding relation in said a plurality of different code word sequences and said each pilot sub-carrier;

Said subscriber equipment obtains the needed channel estimation value of user data demodulation according to said frequency pilot sign.

2. method according to claim 1 is characterized in that, saidly exchanges and obtains through selected orthogonal matrix being carried out vector, specifically comprises:

For the orthogonal matrix W of any 4 dimensions, establish A=W (:, 1), B=W (:, 2), C=W (:, 3), D=W (:, 4);

Wherein, W (:, m) m of expression orthogonal matrix W is listed as pairing column vector, and m is 1 to 4, then orthogonal matrix W is carried out the column vector exchange, obtains 4 kinds of different code word sequences, is respectively:

W1＝[A，B，C，D]；

W2＝[B，A，D，C]；

W3=[C, D, A, B], or, [C, D, B, A];

W4=[D, C, B, A], or, [D, C, A, B];

Correspondingly, confirm the corresponding relation of said a plurality of different code word sequences and each pilot sub-carrier, specifically comprise:

For pilot sub-carrier n1, adopt codeword sequence W1;

For pilot sub-carrier n2, adopt codeword sequence W2;

For pilot sub-carrier n3, adopt codeword sequence W3;

For pilot sub-carrier n4, adopt codeword sequence W4;

For pilot sub-carrier n5, adopt codeword sequence W1;

For pilot sub-carrier n6, adopt codeword sequence W2;

And repeat successively; Wherein, said n is the positive integer greater than zero.

3. method according to claim 1 is characterized in that, saidly exchanges and obtains through selected orthogonal matrix being carried out vector, specifically comprises:

For the orthogonal matrix W of any 4 dimensions, establish A`=W` (1 :), B`=W` (2 :), C`=W` (3 :), D`=W` (4 :);

Wherein, W` (m :) represent that the capable pairing row of m of orthogonal matrix w is vectorial, m is 1 to 4, then with the capable vector exchange of orthogonal matrix W, obtains 4 kinds of different code word sequences, is respectively:

${W_1}^{`}=\left[\begin{array}{c}{A}^{`}\\ B^{`}\\ C^{`}\\ D^{`}\end{array}\right];$ ${W_2}^{`}=\left[\begin{array}{c}{B}^{`}\\ A^{`}\\ D^{`}\\ C^{`}\end{array}\right];$ ${W_3}^{`}=\left[\begin{array}{c}{C}^{`}\\ D^{`}\\ A^{`}\\ B^{`}\end{array}\right],$ Or, $\left[\begin{array}{c}{C}^{`}\\ D^{`}\\ B^{`}\\ A^{`}\end{array}\right];$ ${W_4}^{`}=\left[\begin{array}{c}{D}^{`}\\ C^{`}\\ B^{`}\\ A^{`}\end{array}\right],$ Or, $\left[\begin{array}{c}{D}^{`}\\ C^{`}\\ A^{`}\\ B^{`}\end{array}\right];$

Correspondingly, confirm the corresponding relation of said a plurality of different code word sequences and each pilot sub-carrier, specifically comprise:

For pilot sub-carrier n1, adopt codeword sequence W1`;

For pilot sub-carrier n2, adopt codeword sequence W2`;

For pilot sub-carrier n3, adopt codeword sequence W3`;

For pilot sub-carrier n4, adopt codeword sequence W4`;

For pilot sub-carrier n5, adopt codeword sequence W1`;

For pilot sub-carrier n6, adopt codeword sequence W2`;

And repeat successively; Wherein, said n is the positive integer greater than zero.

4. the processor of a frequency pilot sign is characterized in that, comprising:

Be used to receive the receiving system of the frequency pilot sign that transmitting terminal sends;

Wherein, Said frequency pilot sign is that said transmitting terminal is on each pilot sub-carrier; According to the corresponding codeword sequence of each pilot sub-carrier the frequency pilot sign of each space layer is carried out multiplexing obtaining; Said codeword sequence is a plurality of different code word sequences, and obtains through selected orthogonal matrix being carried out the vector exchange, and there are corresponding relation in said a plurality of different code word sequences and said each pilot sub-carrier;

Be used for obtaining the channel estimation value deriving means of the needed channel estimation value of user data demodulation according to said frequency pilot sign.

5. device according to claim 4 is characterized in that, saidly obtains through selected orthogonal matrix being carried out vector exchange, specifically comprises the orthogonal matrix W that ties up for any 4, establishes A=W (:, 1), B=W (:, 2), C=W (:, 3), D=W (:, 4);

Wherein, W (:, m) m of expression orthogonal matrix W is listed as pairing column vector, and m is 1 to 4, then orthogonal matrix W is carried out the column vector exchange, obtains 4 kinds of different code word sequences, is respectively:

W1＝[A，B，C，D?]；

W2＝[B，A，D，C]；

W3=[C, D, A, B], or, [C, D, B, A];

W4=[D, C, B, A], or, [D, C, A, B];

Correspondingly, said determination module specifically is used for

For pilot sub-carrier n1, adopt codeword sequence W1;

For pilot sub-carrier n2, adopt codeword sequence W2;

For pilot sub-carrier n3, adopt codeword sequence W3;

For pilot sub-carrier n4, adopt codeword sequence W4;

For pilot sub-carrier n5, adopt codeword sequence W1;

For pilot sub-carrier n6, adopt codeword sequence W2;

And repeat successively; Wherein, said n is the positive integer greater than zero.

6. device according to claim 4 is characterized in that, saidly obtains through selected orthogonal matrix being carried out vector exchange, specifically comprises the orthogonal matrix W that ties up for any 4; If A`=W` (1 :), B`=W` (2 :); C`=W` (3 :), D`=W` (4 :);

Wherein, W` (m :) represent that the capable pairing row of m of orthogonal matrix w is vectorial, m is 1 to 4, then with the capable vector exchange of orthogonal matrix W, obtains 4 kinds of different code word sequences, is respectively:

${W_1}^{`}=\left[\begin{array}{c}{A}^{`}\\ B^{`}\\ C^{`}\\ D^{`}\end{array}\right];$ ${W_2}^{`}=\left[\begin{array}{c}{B}^{`}\\ A^{`}\\ D^{`}\\ C^{`}\end{array}\right];$ ${W_3}^{`}=\left[\begin{array}{c}{C}^{`}\\ D^{`}\\ A^{`}\\ B^{`}\end{array}\right],$ Or, $\left[\begin{array}{c}{C}^{`}\\ D^{`}\\ B^{`}\\ A^{`}\end{array}\right];$ ${W_4}^{`}=\left[\begin{array}{c}{D}^{`}\\ C^{`}\\ B^{`}\\ A^{`}\end{array}\right],$ Or, $\left[\begin{array}{c}{D}^{`}\\ C^{`}\\ A^{`}\\ B^{`}\end{array}\right];$

Correspondingly, said determination module specifically is used for

For pilot sub-carrier n1, adopt codeword sequence W1`;

For pilot sub-carrier n2, adopt codeword sequence W2`;

For pilot sub-carrier n3, adopt codeword sequence W3`;

For pilot sub-carrier n4, adopt codeword sequence W4`;

For pilot sub-carrier n5, adopt codeword sequence W1`;

For pilot sub-carrier n6, adopt codeword sequence W2`;

And repeat successively; Wherein, said n is the positive integer greater than zero.

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