阅读说明：本技术 一种估计802.11ax协议2x模式信道系数的方法 (Method for estimating 802.11ax protocol 2x mode channel coefficient ) 是由 祝超 邓伟 于 2019-10-31 设计创作，主要内容包括：本发明公开了一种估计802.11ax协议2x模式信道系数的方法,该方法在线性插值方法的基础上,采用反馈的方法对2x模式下未知的信道系数进行修正,达到估计系数值的均方误差最小化。与一次的线性插值/多项式插值算法相比,本方法通过多次迭代,提高了11ax系统中信道估计的精度,更好的满足了信号接收的要求。(The invention discloses a method for estimating a channel coefficient of a 2x mode of an 802.11ax protocol, which corrects an unknown channel coefficient in the 2x mode by adopting a feedback method on the basis of a linear interpolation method to minimize the mean square error of an estimated coefficient value. Compared with a linear interpolation/polynomial interpolation algorithm for one time, the method improves the precision of channel estimation in an 11ax system through multiple iterations, and better meets the requirement of signal receiving.)

1. A method of estimating 802.11ax protocol 2x mode channel coefficients, comprising the steps of:

step 1: using LS algorithmMethod for any adjacent pilot signal (p) in current OFDM symbol₁，p₂) Channel estimation is performed to obtain a channel coefficient (h) corresponding to the pilot signal₁，h₂)；

Step 2: using said channel coefficient (h)₁，h₂) Linear interpolation is carried out, and the linear interpolation coefficient is set as (w)₁,w₂) Generating a pilot signal p_oOf the channel coefficient h_o；

And step 3: using said channel coefficient h_oFor pilot signal p in next OFDM symbol_oCarrying out signal equalization;

and 4, step 4: carrying out hard decision on the equalized signal to obtain a constellation point corresponding to the decided signal;

and 5: calculating the square sum of the vector difference between the constellation diagram point and the signal before judgment, and taking the square sum as an error and marking as e;

step 6: taking the error e as an adjusting weight value, and performing linear interpolation on the linear interpolation coefficient (w) according to the following formula₁,w₂) Adjusting to obtain an adjusted linear interpolation coefficient (w)₁,w₂)'；

(w₁,w₂)'＝(w₁,w₂)+μ×e×(h₁,h₂)

Wherein mu is the adjustment weight;

and 7: using adjusted linear interpolation coefficients (w)₁,w₂) ' repeating the steps 1 to 6 until the error e in the step 5 is stable to obtain the optimal estimated value h of the channel coefficient_o。

Technical Field

The invention relates to a digital receiver technology in 802.11ax, in particular to a channel estimation method used in 802.11 ax.

Background

With the increasing demand of people for high-speed and multimedia data services and the more and more severe demand of people for high-speed network speed, the next generation of 802.11ax protocol can provide transmission rates up to 10Gbps for a plurality of access users. Since the combining diversity, coherent demodulation and space-time decoding in the MIMO-OFDM system all need to know the channel State information csi (channel State information) accurately, and the accuracy of channel estimation determines the performance of the coherent demodulation system, the channel estimation is one of the key technologies of the MIMO-OFDM system.

To support 11ax channel estimation, the preamble in a frame structure similar to 11ac,11ax contains a number of HE-LTF symbols equal to or greater than the total number of spatial streams. Since the HE-LTF symbols in 11ax are 16 microseconds maximum, the time overhead of 11ax per HE-LTF symbol is 4 times greater than 11 ac. To reduce this overhead, 11ax specifies 3 different HE-LTF patterns of 1x,2x,4x, whose symbol lengths are 4us, 8us, and 16us, respectively. Both 1x and 2x modes require interpolation using the known HE-LTF subcarrier symbols to obtain channel estimates on all other subcarriers, except for the 4x mode. Since there is only a known signal of 1/2 or 1/4 within the HE-LTF symbol in the 1x and 2x modes, to obtain the channel response on all subcarriers, interpolation must be performed using the known signal. According to the nyquist sampling theorem, when the number of the known signals is larger than the maximum sampling length L of the channel impulse response, the frequency domain response of the channel can be completely recovered through an interpolation method.

Disclosure of Invention

The purpose of the invention is as follows: aiming at the prior art, a method for estimating the channel coefficient of the 2x mode of the 802.11ax protocol is provided, and the accuracy of channel estimation in the 2x mode in the 11ax protocol is improved.

The technical scheme is as follows: a method of estimating 802.11ax protocol 2x mode channel coefficients, comprising the steps of:

step 1: using LS algorithm to process any adjacent pilot signal (p) in current OFDM symbol₁，p₂) Channel estimation is performed to obtain a channel coefficient (h) corresponding to the pilot signal₁，h₂)；

Step 2: using said channel coefficient (h)₁，h₂) Linear interpolation is carried out, and the linear interpolation coefficient is set as (w)₁,w₂) Generating a pilot signal p_oOf the channel coefficient h_o；

And step 3: using said channel coefficient h_oFor pilot signal p in next OFDM symbol_oCarrying out signal equalization;

and 4, step 4: carrying out hard decision on the equalized signal to obtain a constellation point corresponding to the decided signal;

and 5: calculating the square sum of the vector difference between the constellation diagram point and the signal before judgment, and taking the square sum as an error and marking as e;

step 6: taking the error e as an adjusting weight value, and performing linear interpolation on the linear interpolation coefficient (w) according to the following formula₁,w₂) Adjusting to obtain the adjusted linear interpolation coefficient (w₁,w₂)'；

(w₁,w₂)'＝(w₁,w₂)+μ×e×(h₁,h₂)

Wherein mu is the adjustment weight;

and 7: using adjusted linear interpolation coefficients (w)₁,w₂) ' repeating the steps 1 to 6 until the error e in the step 5 is stable to obtain the optimal estimated value h of the channel coefficient_o。

Has the advantages that: the method solves the problem of channel estimation in a 2x mode in an 11ax protocol, and corrects unknown channel coefficients in the 2x mode by adopting a feedback method on the basis of a linear interpolation method for signals with different signal-to-noise ratios, so as to minimize the mean square error of the estimated coefficient values. Compared with a linear interpolation/polynomial interpolation algorithm for one time, the method improves the precision of channel estimation in an 11ax system through multiple iterations, and better meets the requirement of signal receiving.

Drawings

FIG. 1 is a block flow diagram of the method of the present invention;

FIG. 2 is a graph of the error convergence of coefficient estimates in the method of the present invention;

figure 3 is a plot of the mean square error of channel coefficient estimation with and without the method of the present invention.

Detailed Description

The invention is further explained below with reference to the drawings.

As shown in fig. 1, a method for estimating 2x mode channel coefficients of an 802.11ax protocol includes the following steps:

step 1: using Least Squares (LS) algorithm to any adjacent pilot signal (p) in current OFDM symbol₁，p₂) Channel estimation is performed to obtain a channel coefficient (h) corresponding to the pilot signal₁，h₂)。

Step 2: using the channel coefficient (h)₁，h₂) Linear interpolation is carried out, and the linear interpolation coefficient is set as (w)₁,w₂) Generating a pilot signal p_oOf the channel coefficient h_o。

And step 3: using the channel coefficient h_oFor pilot signal p in next OFDM symbol_oSignal equalization is performed.

And 4, step 4: and carrying out hard decision on the equalized signal to obtain a constellation point corresponding to the decided signal.

And 5: and calculating the square sum of the vector difference between the constellation point and the signal before judgment, and taking the square sum as an error and marking as e.

Step 6: using the error e as the adjustment weight, and interpolating the linear coefficient (w) according to the following formula₁,w₂) Adjusting to obtain an adjusted linear interpolation coefficient (w)₁,w₂)'；

(w₁,w₂)'＝(w₁,w₂)+μ×e×(h₁,h₂)

Wherein μ is the adjustment weight, and is generally 0.01.

And 7: using adjusted linear interpolation coefficients (w)₁,w₂) ' repeating the steps 1 to 6 until the error e in the step 5 is stable to obtain the optimal estimated value h of the channel coefficient_o。

Fig. 2 is a convergence curve of the parameter estimation of the present algorithm. As can be seen from fig. 2, after about 200 OFDM symbols, the parameters converge to the optimal values. The solid line in fig. 3 is the estimated pilot signal p after applying the present algorithm_oThe Mean Square Error (MSE) at different signal-to-noise ratios, the dotted line is the mean square error of the conventional linear interpolation algorithm. Thus, with this method, p_oThe estimation error of (2) is obviously reduced.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, various modifications and decorations can be made without departing from the principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention.