CN108881090A - Discrete pilot interposition method and device in OFDM-MIMO communication system - Google Patents

Abstract

The present invention provides discrete pilot interposition method and devices in a kind of OFDM-MIMO communication system, which is characterized in that including：In the case of being transmitted and received for double antenna, position coordinates of the scattered pilot on OFDM running time-frequency resource are specifically designed, especially for the scattered pilot position coordinates layout of two antennas, so that the scattered pilot of two antennas is adjacent, and the scattered pilot interval being inserted into is moderately uniform, both pilot signal had not been allowed to be perfected monopoly some OFDM symbol or some subcarrier, the pilot signal of two antenna transmittings is not allowed to be overlapped yet, to while having taken into account saving ofdm system time/frequency source block, also reducing two antenna transmitting signal overlap brings to greatest extent influences, the scattered pilot of two antennas as close as possible to, it is also possible that the characteristic of channel that receiving end estimates two antennas respectively is close as far as possible, improve the accuracy of channel estimation.

Description

Discrete pilot interposition method and device in OFDM-MIMO communication system

Technical field

The invention belongs to the communications field more particularly to wireless broadband communication orthogonal frequency division multiplexing-multiple-input and multiple-outputs (OFDM-MIMO) discrete pilot interposition method and device of system.

Background technique

Orthogonal frequency division multiplexing (OFDM) technology and multiple-input, multiple-output (MIMO) technology are current Wireless Broadband Communication Systems applications Hot technology, have a wide range of applications in digital wireless communication field.In common ofdm system, require to provide in time-frequency Pilot tone is inserted into source to be used for channel estimation.After OFDM technology is combined with MIMO technology, insertion pilot tone is also needed.

Since MIMO technology is to emit different pilot frequency sequences using different antennas, it is common practice to difference transmitting day The different pilot frequency sequences that line issues can be overlapped on time-domain and frequency-domain resource block, need to use the side of Digital Signal Processing in receiving end Method separates the pilot frequency sequence of different antennae, then does channel estimation respectively again.Although such method can save part For the running time-frequency resource of wireless transmission, but due to the overlapping of more transmitting antenna signals, so that pilot tone isolation technics is more multiple Miscellaneous, pilot tone separation failure can also be made by improperly handling, to reduce the reliability of transmission.

Summary of the invention

To solve the above-mentioned problems, the invention proposes discrete pilot interposition methods in a kind of OFDM-MIMO communication system And device, this method and device are suitable for the case where double antenna is received and dispatched.

In OFDM-MIMO communication system provided by the present invention in discrete pilot interposition method, have the feature that, Including：In the case of being transmitted and received for double antenna, position coordinates (x, y) of the scattered pilot on OFDM running time-frequency resource by with Lower formula is calculated：

Wherein：X is subcarrier serial number, and 0≤x≤C-1；C is subcarrier total number, and C >=24；Y is OFDM symbol sequence Number, and 0≤y≤S-1；S is OFDM symbol sum, and S >=4；A is antenna serial number, and a=0,1；I is in previous OFDM symbol Scattered pilot serial number, has

Indicate downward round numbers part.

Still optionally further, in OFDM-MIMO communication system provided by the present invention in discrete pilot interposition method, also Can have such feature, wherein OFDM symbol sum value is S=4, and subcarrier total number value is C=24,

In such cases,

Still optionally further, in OFDM-MIMO communication system provided by the present invention in discrete pilot interposition method, also It can have such feature, wherein then the scattered pilot position coordinates of two antennas are as follows：

Antenna a=0：(6,0),(12,0),(18,0),(6,1),(18,1),(12,2),(6,3),(12,3),(18,3)；

Antenna a=1：(7,0),(13,0),(19,0),(7,1),(19,1),(13,2),(7,3),(13,3),(19,3).

Still optionally further, in OFDM-MIMO communication system provided by the present invention in discrete pilot interposition method, also Can have such feature, wherein OFDM symbol sum value is S=5, and subcarrier total number value is C=26,

In such cases,

Still optionally further, in OFDM-MIMO communication system provided by the present invention in discrete pilot interposition method, also It can have such feature, wherein then the scattered pilot position coordinates of two antennas are as follows：

Antenna a=0：(6,0),(12,0),(18,0),(24,0),(6,1),(18,1),(12,2),(24,2),(6,3), (18,3),(6,4),(12,4),(18,4),(24,4)；

Antenna a=1：(7,0),(13,0),(19,0),(25,0),(7,1),(19,1),(13,2),(25,2),(7,3), (19,3),(7,4),(13,4),(19,4),(25,4)。

Still optionally further, in OFDM-MIMO communication system provided by the present invention in discrete pilot interposition method, also It can have such feature, wherein close in scattered pilot a certain range of two antennas.

Still optionally further, in OFDM-MIMO communication system provided by the present invention in discrete pilot interposition method, also It can have such feature, wherein the scattered pilot of two antennas is adjacent.

Still optionally further, in OFDM-MIMO communication system provided by the present invention in discrete pilot interposition method, also It can have such feature, wherein the scattered pilot of two antennas is adjacent, and the scattered pilot interval being inserted into is moderately equal It is even.

Still optionally further, in OFDM-MIMO communication system provided by the present invention in discrete pilot interposition method, also It can have such feature, wherein the scattered pilot being inserted into：Symbol in the intercarrier spacing and time domain of frequency domain sub-carriers Between be spaced appropriateness it is uniform.

In addition, having such the present invention also provides scattered pilot insertion apparatus in a kind of OFDM-MIMO communication system Feature, including：

Scattered pilot is inserted into module, and in the case of being transmitted and received for double antenna, scattered pilot is in OFDM time-frequency Position coordinates (x, y) in resource are calculated by following formula：

Wherein：X is subcarrier serial number, and 0≤x≤C-1；C is subcarrier total number, and C >=24；Y is OFDM symbol sequence Number, and 0≤y≤S-1；S is OFDM symbol sum, and S >=4；A is antenna serial number, and a=0,1；I is in previous OFDM symbol Scattered pilot serial number, has

Indicate downward round numbers part.

The function and effect of the present invention：

What is proposed through the invention is suitable for the scattered pilot insertion side of the OFDM-MIMO communication system of double antenna transmitting-receiving Method and device have not only taken into account time-domain resource block, the frequency domain resource block for saving ofdm system, have also reduced difference to greatest extent Antenna, which emits signal overlap bring, to be influenced, so that the complexity for handling receiving end signal substantially reduces.In addition, two antennas Scattered pilot be designed as the characteristic of channel that may make receiving end to estimate two antennas respectively as close as possible to such scheme It is close as far as possible, the accuracy of channel estimation is improved, the repetition to the characteristic of channel is reduced and estimates and calculate, complexity decline.

Detailed description of the invention

Fig. 1 is scattered pilot insertion position schematic diagram in the first embodiment of the present invention；

Fig. 2 is scattered pilot insertion position schematic diagram in the second embodiment of the present invention.

Specific embodiment

It is illustrated in conjunction with scattered pilot interleaved plan of the Fig. 1 and Fig. 2 to OFDM-MIMO communication system.In embodiment, from Position coordinates (x, y) of the pilot tone in OFDM time-domain resource, in frequency domain resource are dissipated to be calculated by following formula：

Wherein：

● x is subcarrier serial number, and 0≤x≤C-1；

● C is subcarrier total number, and C >=24；

● y is OFDM symbol serial number, and 0≤y≤S-1；

● S is OFDM symbol sum, and S >=4；

● a is antenna serial number, and a=0,1；

● i is scattered pilot serial number in previous OFDM symbol, is had

Indicate downward round numbers part.

Oneself each comfortable scattered pilot position of two transmitting antennas of MIMO emits pilot signal, in oneself non-discrete Pilot frequency locations do not emit signal.The scattered pilot insertion realized using such method, did not both allow pilot signal to perfect monopoly Some OFDM symbol or some subcarrier do not allow the pilot signal of two antenna transmittings to be overlapped yet, to save having taken into account While ofdm system time/frequency source block, also reducing two antenna transmitting signal overlap brings to greatest extent influences.Two The scattered pilot of a antenna is as close as possible to it is also possible that receiving end connects the characteristic of channel that two antennas estimate respectively as far as possible Closely, the accuracy of channel estimation is improved.Scattered pilot interval appropriateness (such as the carrier wave employed in embodiment of the method insertion Between between be divided into 6, be divided into 1) between intersymbol, but also receiving end only needs to do simple linear interpolation or filter when doing channel estimation Wave can reach preferable channel estimation effect.To substantially reduce the complexity of receiving end signal processing.

First embodiment：S=4, C=24

In such cases,

Then the scattered pilot position coordinates of two antennas are as follows：

First antenna a=0：(6,0),(12,0),(18,0),(6,1),(18,1),(12,2),(6,3),(12,3), (18,3)

Second antenna a=1：(7,0),(13,0),(19,0),(7,1),(19,1),(13,2),(7,3),(13,3), (19,3)

Fig. 1 gives under the embodiment, and the method for the invention is inserted into the position of scattered pilot in OFDM running time-frequency resource Figure.Reticulate pattern lattice square indicates the scattered pilot insertion position of first antenna (antenna 0), and twill lattice square indicates the second antenna (day Line 1) scattered pilot insertion position, white square indicates non-discrete pilot frequency locations.First antenna (antenna 0) is only in reticulate pattern lattice side Block emits discrete guide-frequency signal, and the second antenna (antenna 1) only emits discrete guide-frequency signal in twill lattice square.

Second embodiment：S=5, C=26

In such cases,

Then the scattered pilot position coordinates of two antennas are as follows：

First antenna a=0：(6,0),(12,0),(18,0),(24,0),(6,1),(18,1),(12,2),(24,2), (6,3),(18,3),(6,4),(12,4),(18,4),(24,4)

Second antenna a=1：(7,0),(13,0),(19,0),(25,0),(7,1),(19,1),(13,2),(25,2), (7,3),(19,3),(7,4),(13,4),(19,4),(25,4)

Fig. 2 gives under the embodiment, and the method for the invention is inserted into the position of scattered pilot in OFDM running time-frequency resource Figure.Reticulate pattern lattice square indicates the scattered pilot insertion position of first antenna (antenna 0), and twill lattice square indicates the second antenna (day Line 1) scattered pilot insertion position, white square indicates non-discrete pilot frequency locations.First antenna (antenna 0) is only in reticulate pattern lattice side Block emits discrete guide-frequency signal, and the second antenna (antenna 1) only emits discrete guide-frequency signal in twill lattice square.

Those of ordinary skill in the art it should be appreciated that more than specification be only the numerous embodiments of the present invention One or more of embodiment, and not use limitation of the invention.Any equalization for embodiment described above becomes The technical solutions such as change, modification and equivalent substitute will all fall in power of the invention as long as meeting spirit of the invention In the range of sharp claim is protected.

Claims (10)

1. discrete pilot interposition method in a kind of OFDM-MIMO communication system, which is characterized in that including：

In the case of being transmitted and received for double antenna, position coordinates (x, y) of the scattered pilot on OFDM running time-frequency resource by with Lower formula is calculated：

Wherein：X is subcarrier serial number, and 0≤x≤C-1；C is subcarrier total number, and C >=24；Y is OFDM symbol serial number, and 0≤y≤S-1；S is OFDM symbol sum, and S >=4；A is antenna serial number, and a=0,1；I is discrete in previous OFDM symbol leads Frequency serial number, has

Indicate downward round numbers part.

2. discrete pilot interposition method in OFDM-MIMO communication system as described in claim 1, which is characterized in that

Wherein, OFDM symbol sum value is S=4, and subcarrier total number value is C=24,

In such cases,

3. discrete pilot interposition method in OFDM-MIMO communication system as claimed in claim 2, which is characterized in that

Wherein, then the scattered pilot position coordinates of two antennas are as follows：

Antenna a=0：(6,0),(12,0),(18,0),(6,1),(18,1),(12,2),(6,3),(12,3),(18,3)；

Antenna a=1：(7,0),(13,0),(19,0),(7,1),(19,1),(13,2),(7,3),(13,3),(19,3).

4. discrete pilot interposition method in OFDM-MIMO communication system as described in claim 1, which is characterized in that

Wherein, OFDM symbol sum value is S=5, and subcarrier total number value is C=26,

In such cases,

5. discrete pilot interposition method in OFDM-MIMO communication system as claimed in claim 4, which is characterized in that

Wherein, then the scattered pilot position coordinates of two antennas are as follows：

Antenna a=0：(6,0),(12,0),(18,0),(24,0),(6,1),(18,1),(12,2),(24,2),(6,3),(18, 3),(6,4),(12,4),(18,4),(24,4)；

Antenna a=1：(7,0),(13,0),(19,0),(25,0),(7,1),(19,1),(13,2),(25,2),(7,3),(19, 3),(7,4),(13,4),(19,4),(25,4)。

6. discrete pilot interposition method in OFDM-MIMO communication system as described in claim 1, which is characterized in that

Wherein, close in scattered pilot a certain range of two antennas.

7. discrete pilot interposition method in OFDM-MIMO communication system as described in claim 1, which is characterized in that

Wherein, the scattered pilot of two antennas is adjacent.

8. discrete pilot interposition method in OFDM-MIMO communication system as claimed in claim 7, which is characterized in that

Wherein, the scattered pilot of two antennas is adjacent, and the scattered pilot interval being inserted into is moderately uniform.

9. discrete pilot interposition method in OFDM-MIMO communication system as claimed in claim 8, which is characterized in that

Wherein, the scattered pilot being inserted into：Intersymbol interval is moderately uniform in the intercarrier spacing and time domain of frequency domain sub-carriers.

10. scattered pilot insertion apparatus in a kind of OFDM-MIMO communication system, which is characterized in that including：

Scattered pilot is inserted into module, and in the case of being transmitted and received for double antenna, scattered pilot is in OFDM running time-frequency resource On position coordinates (x, y) be calculated by following formula：

Wherein：X is subcarrier serial number, and 0≤x≤C-1；C is subcarrier total number, and C >=24；Y is OFDM symbol serial number, and 0≤y≤S-1；S is OFDM symbol sum, and S >=4；A is antenna serial number, and a=0,1；I is discrete in previous OFDM symbol leads Frequency serial number, has

Indicate downward round numbers part.