CN101483455A - Method and apparatus for inserting special reference signal in physical resource block - Google Patents

Abstract

The present invention discloses a method for inserting special reference signal in physical resource block, wherein the method comprises the following steps: generating a downlink sub-frame comprising two time slots; inserting two rows of special reference signals in the time domain in the data area of each time slot of downlink sub-frame; and executing wave beam forming procession to the downlink sub-frame. The invention also discloses a mobile communication transmitter. The solution of the invention can simultaneously support Nd=1 centralized transmission and Nd=2 frequency diversity transmission.

Description

A kind of method and apparatus that in Physical Resource Block, inserts DRS (Dedicated Reference Signal)

Technical field

The present invention relates to the mobile communication technology field, particularly a kind of method and apparatus that in Physical Resource Block, inserts DRS (Dedicated Reference Signal).

Background technology

Long Term Evolution project (Long Term Evolution, LTE) the wave beam forming transmission of DRS (Dedicated Reference Signal) is used in system's support, promptly transmit and insert user's DRS (Dedicated Reference Signal) in the Physical Resource Block (PRB) of data, carry out the wave beam forming operation with data symbol the user; After the user receives, use DRS (Dedicated Reference Signal) to carry out the demodulation of data symbol.At present, the LTE system supports the downstream signal transmission of two kinds of frequency diversity degree (Nd): Nd=1 promptly centralized (Localized) transmission and Nd=2 promptly are the frequency hopping transmission of unit with PRB.Fig. 1 is the schematic diagram of frequency diversity formula transmission, vertically goes up expression each subcarrier according to frequency distribution, and the PRB of user n is distributed in the expression of lattice portion branch, transversely represents two time slots of a subframe.As shown in Figure 1, during Nd=1 localized transmission, the PRB that distributes to same user in subframe takies identical subcarrier in former and later two time slots; Be frequency modulation transmission during Nd=2, the PRB that distributes to same user in subframe takies different subcarriers in former and later two time slots.

Localized transmission is supported in the main consideration of DRS (Dedicated Reference Signal) design of prior art.Seldom consider to support the frequency hopping transmission.For example, a kind of commonplace DRS (Dedicated Reference Signal) pattern is to insert three row DRS (Dedicated Reference Signal)s in the data area of a subframe, as shown in Figure 2.Subframe shown in Figure 2 comprises two time slots, and wherein first time slot comprises the control area, comprises public reference signal R in the control area ₀And pilot signal, the remainder of first time slot and second time slot are the data area, wherein, and R _dThe DRS (Dedicated Reference Signal) of user n is distributed in expression.When this DRS (Dedicated Reference Signal) pattern is applied to the frequency diversity transmission of Nd=2, in first time slot, will have only a row user DRS (Dedicated Reference Signal), as shown in Figure 3.This will cause can't utilizing the interpolation on the time domain when carrying out channel estimating, particularly the control area is smaller, and user moving speed will have a strong impact on performance for estimating channel when higher.

Summary of the invention

In view of this, the embodiment of the invention proposes a kind of method and apparatus that inserts DRS (Dedicated Reference Signal) in Physical Resource Block, can support the localized transmission of Nd=1 and the frequency diversity formula transmission of Nd=2 simultaneously.

The method that the embodiment of the invention proposes comprises:

Generation comprises the descending sub frame of two time slots;

In the data area of each time slot of described descending sub frame, on time domain, insert two row DRS (Dedicated Reference Signal)s;

Described descending sub frame is carried out beam forming processing.

The base station that the embodiment of the invention proposes comprises:

Data processing module is used for data are carried out modulating-coding; The reference signal generation module is used to generate DRS (Dedicated Reference Signal);

Reference signal and resource mapping block are used for DRS (Dedicated Reference Signal) that the reference signal generation module is generated and the handled data map of data processing module to Physical Resource Block, are assembled into the subframe that comprises two time slots and a plurality of subcarriers; First time slot of described subframe comprises control area and data area, and second time slot comprises the data area, and in the data area of each time slot, two row DRS (Dedicated Reference Signal)s distribute on the time domain;

The wave beam forming module is used for the subframe after described reference signal and the processing of resource mapping block is carried out wave beam forming.

As can be seen from the above technical solutions, 4 row DRS (Dedicated Reference Signal)s are inserted in data area in a subframe, wherein preceding two row are arranged in first time slot, and back two row are arranged in second time slot, and this scheme can be supported the localized transmission of Nd=1 and the frequency diversity formula transmission of Nd=2 simultaneously.

Description of drawings

Fig. 1 is the schematic diagram of the frequency diversity formula transmission of prior art;

Fig. 2 is that a kind of DRS (Dedicated Reference Signal) of prior art inserts pattern diagram under the situation of Nd=1;

Fig. 3 is that a kind of DRS (Dedicated Reference Signal) of prior art inserts pattern diagram under the situation of Nd=2;

Fig. 4 is that the DRS (Dedicated Reference Signal) of the embodiment of the invention inserts pattern diagram;

Fig. 5 is the schematic diagram of first kind of definite DRS (Dedicated Reference Signal) original position in the embodiment of the invention scheme;

Fig. 6 is the schematic diagram of second kind of definite DRS (Dedicated Reference Signal) original position in the embodiment of the invention scheme;

Fig. 7 is the pattern diagram of the DRS (Dedicated Reference Signal) of embodiment of the invention scheme when the control area takies the OFDM symbol above threshold value;

The base station block diagram of Fig. 8 embodiment of the invention scheme.

Embodiment

Frequency diversity transmission when embodiment of the invention scheme is supported Nd=1 and Nd=2 simultaneously, insert 4 row DRS (Dedicated Reference Signal)s in the data area that the base station sends in the subframe of downlink transfer of terminal, wherein preceding two row are arranged in first time slot, and back two row are arranged in second time slot.Fig. 4 is the DRS (Dedicated Reference Signal) pattern schematic diagram of the embodiment of the invention.When carrying out the localized transmission of Nd=1, terminal can utilize four row DRS (Dedicated Reference Signal)s in the subframe to carry out time domain interpolation when carrying out channel estimating; When the frequency diversity transmission of carrying out Nd=2, terminal can utilize two row DRS (Dedicated Reference Signal)s of one of them time slot to carry out time domain interpolation when carrying out channel estimating.

In order to indicate conveniently, in each wave beam forming zone, the frequency domain original position of DRS (Dedicated Reference Signal) can be identical with the original position of public reference signal in this zone, perhaps differs the subcarrier of fixed number.As shown in Figure 5.A wave beam forming zone is meant a time-frequency region using the same beam shape-endowing weight value.

Perhaps, the frequency domain original position of DRS (Dedicated Reference Signal) is reference with the frequency domain border in each wave beam forming zone, and the position is identical or differ the subcarrier of fixed number.As shown in Figure 6.

After determining the frequency domain original position of DRS (Dedicated Reference Signal), the base station will be the frequency domain original position of determined DRS (Dedicated Reference Signal) notice terminal, so that when terminal is received this descending sub frame, can find DRS (Dedicated Reference Signal) according to the frequency domain original position of this DRS (Dedicated Reference Signal).

Increase along with the shared OFDM number of symbols in control area, the OFDM number of data area can reduce in first time slot, insert two row reference signals in the data area in first time slot this moment and will cause the expense of reference signal to increase, but performance gain is not obvious.Can introduce a deterministic process this moment: whether the symbolic number of judging the control area greater than the threshold value that sets in advance, if, then only in first time slot, insert a row reference signal, otherwise, insertion two row reference signals in first time slot.Preferably, this threshold value can be set to 4.The example of inserting a row reference signal at first time slot as shown in Figure 7.

The structured flowchart of the base station that the embodiment of the invention proposes comprises as shown in Figure 8:

Data processing module 801 is used for data are carried out modulating-coding;

Reference signal generation module 802 is used to generate DRS (Dedicated Reference Signal);

Reference signal and resource mapping block 803 are used for DRS (Dedicated Reference Signal) that reference signal generation module 801 is generated and data processing module 802 handled data map to Physical Resource Block, are assembled into the subframe that comprises two time slots and a plurality of subcarriers; First time slot of described subframe comprises control area and data area, and second time slot comprises the data area, and in the data area of each time slot, two row DRS (Dedicated Reference Signal)s distribute on the time domain;

Wave beam forming module 804 is used for the subframe after described reference signal and the processing of resource mapping block is carried out wave beam forming.

Described reference signal and resource mapping block 803 further comprise:

The original position determining unit, be used for the wave beam forming zone that will constitute from the subframe of described data processing module, according to the frequency domain original position of the public reference signal in this wave beam forming zone or the frequency domain original position in this wave beam forming zone, determine to insert the frequency domain original position of DRS (Dedicated Reference Signal);

Notification unit, the frequency domain original position that is used for the DRS (Dedicated Reference Signal) that described original position determining unit is definite is notified terminal;

Judging unit is used to judge whether the OFDM symbolic number that the control area from first time slot of the subframe of data processing module 801 takies reaches the threshold value that sets in advance on time domain, and the output judged result;

Map unit, when the judged result of described judging unit when being, be used in the data area of first time slot of described subframe, insert a row DRS (Dedicated Reference Signal) on the time domain, on the time domain of second time slot of this subframe, insert two row DRS (Dedicated Reference Signal)s; When the judged result of described judging unit for not the time, in the data area of each time slot of described subframe, on time domain, insert two row DRS (Dedicated Reference Signal)s.

4 row DRS (Dedicated Reference Signal)s are inserted in the data area of embodiment of the invention scheme in a subframe, and wherein preceding two row are arranged in first time slot, and back two row are arranged in second time slot.Like this, when carrying out the localized transmission of Nd=1, terminal can utilize four row DRS (Dedicated Reference Signal)s in the subframe to carry out time domain interpolation when carrying out channel estimating; When the frequency diversity transmission of carrying out Nd=2, terminal can utilize two row DRS (Dedicated Reference Signal)s in the time slot to carry out time domain interpolation respectively when carrying out channel estimating.Therefore embodiment of the invention scheme can be supported the localized transmission of Nd=1 and the frequency diversity formula transmission of Nd=2 simultaneously.

The above only is preferred embodiment of the present invention, not in order to restriction the present invention, all any modifications of being done within the spirit and principles in the present invention, is equal to and replaces and improvement etc., all should be included within protection scope of the present invention.

Claims (10)

1, a kind of method of inserting DRS (Dedicated Reference Signal) in Physical Resource Block is characterized in that, comprising:

Generation comprises the descending sub frame of two time slots;

In the data area of each time slot of described descending sub frame, on time domain, insert two row DRS (Dedicated Reference Signal)s;

Described descending sub frame is carried out beam forming processing.

2, method according to claim 1, it is characterized in that, in the data area of described each time slot at described descending sub frame, comprise inserting two row DRS (Dedicated Reference Signal)s on the time domain: the orthogonal frequency division multiplex OFDM symbol of DRS (Dedicated Reference Signal) fixed interval numbers on time domain of described adjacent two row.

3, method according to claim 1, it is characterized in that, in the data area of described each time slot at described descending sub frame, before inserting two row DRS (Dedicated Reference Signal)s on the time domain, further comprise: judge whether the OFDM symbolic number that the control area of first time slot of described subframe takies reaches the threshold value that sets in advance on time domain, if, then in the data area of first time slot, insert a row DRS (Dedicated Reference Signal) on the time domain, on the time domain of second time slot of this subframe, insert two row DRS (Dedicated Reference Signal)s; Otherwise, carry out in the data area of described each time slot at descending sub frame, on time domain, insert the step of two row DRS (Dedicated Reference Signal)s.

4, method according to claim 3 is characterized in that, described threshold value is 4.

5, according to each described method of claim 1 to 4, it is characterized in that, described before inserting two row DRS (Dedicated Reference Signal)s on the time domain, further comprise:

The frequency domain original position of definite DRS (Dedicated Reference Signal) that will insert, and with determined frequency domain original position notice terminal.

6, method according to claim 5 is characterized in that, the frequency domain original position of described definite DRS (Dedicated Reference Signal) that will insert comprises:

In a wave beam forming zone, the original position of the public reference signal in the frequency domain original position of the DRS (Dedicated Reference Signal) that is inserted and this wave beam forming zone is identical, perhaps differs the subcarrier of fixed number.

According to each described method of claim 5, it is characterized in that 7, the frequency domain original position of described definite DRS (Dedicated Reference Signal) that will insert comprises:

In a wave beam forming zone, the frequency domain original position of the DRS (Dedicated Reference Signal) that is inserted is identical with the frequency domain boundary position in this wave beam forming zone, perhaps differs the subcarrier of fixed number.

8, a kind of base station is characterized in that, comprising:

Data processing module is used for data are carried out modulating-coding; The reference signal generation module is used to generate DRS (Dedicated Reference Signal);

Reference signal and resource mapping block are used for DRS (Dedicated Reference Signal) that the reference signal generation module is generated and the handled data map of data processing module to Physical Resource Block, are assembled into the subframe that comprises two time slots and a plurality of subcarriers; First time slot of described subframe comprises control area and data area, and second time slot comprises the data area, and in the data area of each time slot, two row DRS (Dedicated Reference Signal)s distribute on the time domain;

The wave beam forming module is used for the subframe after described reference signal and the processing of resource mapping block is carried out wave beam forming.

9, base station according to claim 8 is characterized in that, described reference signal and resource mapping block further comprise:

Judging unit is used to judge whether the OFDM symbolic number that the control area from first time slot of the subframe of data processing module takies reaches the threshold value that sets in advance on time domain, and the output judged result;

Map unit, when the judged result of described judging unit when being, be used in the data area of first time slot of described subframe, insert a row DRS (Dedicated Reference Signal) on the time domain, on the time domain of second time slot of this subframe, insert two row DRS (Dedicated Reference Signal)s; When the judged result of described judging unit for not the time, in the data area of each time slot of described subframe, on time domain, insert two row DRS (Dedicated Reference Signal)s.

10, according to Claim 8 or 9 described base stations, it is characterized in that described base station further comprises:

The original position determining unit, be used for the wave beam forming zone that will constitute from the subframe of described data processing module, according to the frequency domain original position of the public reference signal in this wave beam forming zone or the frequency domain original position in this wave beam forming zone, determine to insert the frequency domain original position of DRS (Dedicated Reference Signal);

Notification unit, the frequency domain original position that is used for the DRS (Dedicated Reference Signal) that described original position determining unit is definite is notified terminal.

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