Transmission/reception methods and modules for a multiple-carrier multiple-antenna system using training sequences

US 8,290,081 B2
Filed: 11/19/2007
Issued: 10/16/2012
Est. Priority Date: 11/24/2006
Status: Active Grant

First Claim

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1. A transmission method suitable for a system with Nt transmit antennas and Nr receive antennas, where Nt and Nr are at least 1, a transmit antenna being separated from a receive antenna by a transmission sub-channel, implemented by Nt multiple-carrier transmitters each including a multiplexing and modulation module using N_FFTorthogonal functions forming orthogonal symbols intended to be transmitted by the Nt transmit antennas TX₁to TX_Nt, the method including:

a step of determining a basic training sequence from the position of Np pilot symbols in a time-frequency frame;

a step of determining

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Abstract

The present invention relates to a transmission method and device suitable for a system using Nt transmit antennas TX_iand Nr receive antennas RX_j. The symbols transmitted are inserted in a time-frequency frame that contains a training sequence. Each training sequence is constructed from replicas of a basic training sequence. At least one of the training sequences includes at least two replicas at least one of which is phase offset.

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18 Claims

1. A transmission method suitable for a system with Nt transmit antennas and Nr receive antennas, where Nt and Nr are at least 1, a transmit antenna being separated from a receive antenna by a transmission sub-channel, implemented by Nt multiple-carrier transmitters each including a multiplexing and modulation module using N_FFTorthogonal functions forming orthogonal symbols intended to be transmitted by the Nt transmit antennas TX₁to TX_Nt, the method including:
- a step of determining a basic training sequence from the position of Np pilot symbols in a time-frequency frame;
  
  a step of determining
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 17)
- - 2. A symbol transmission method according to claim 1, wherein a guard interval is added before transmitting an orthogonal symbol and the constraint on the minimum value of the time offset is complied with by choosing a minimum time offset equal to the value of the guard interval.
  - 3. A symbol transmission method according to claim 1, wherein each training sequence consists of K time replicas of the basic training sequence.
  - 4. A symbol transmission method according to claim 1, wherein the time replicas are determined in the frequency domain and the time offset is determined by a phase offset value.
  - 5. A symbol transmission method according to claim 4, wherein the phase offset values are chosen in a particular order.
  - 6. A symbol transmission method according to claim 5, wherein the order is known to at least one receiver associated with a receive antenna of the system.
  - 7. A symbol transmission method according to claim 4, wherein the phase offset is a function of a carrier index.
  - 8. A symbol transmission method according to claim 1, wherein the basic training sequence is spread over a plurality of orthogonal symbols.
  - 17. A computer-readable non-transitory medium providing computer executable instructions that when loaded onto a transmitter causes the transmitter to perform at least a transmission method according claim 1.

9. A method for estimating transmission sub-channels in a multiple-antenna system using Nt transmit antennas, where Nt is at least 1, at least one receive antenna, and a time-frequency frame for each transmit antenna including Np pilot symbols forming a training sequence and data symbols of a payload signal, each of the Nt training sequences being the sum of K_itime replicas of a basic training sequence, either time offset or not, such that the values K_iare greater than or equal to 1 and at least one value K_iis greater than or equal to 2, being known to the receiver and enabling the receiver to estimate an impulse response corresponding to the transmission channel separating a transmit antenna from a receive antenna concerned, the data symbols and the pilot symbols being frequency-modulated by a multiplexing and modulation module using N_FFTorthogonal functions to form orthogonal symbols that are transmitted by the transmit antennas in the form of a multiple-carrier signal using N_FFTcarriers, the method including:
- a step of computing a matrix A constructed in the form of blocks from the training sequences and from the Fourier matrix of dimensions N_FFT×
  
  N_FFT, the number of blocks of which is equal to the product of the number of orthogonal symbols of the basic training sequence by the sum of the values K_i, a block being determined by the product of a diagonal matrix formed of the pilot symbols contained in an orthogonal symbol of the training sequence associated with the block multiplied by the Fourier matrix and including, for a receive antenna concerned;
  
  a step of computing K_iestimates of at least one of the Nt impulse responses in the time domain by multiplying by the pseudo-inverse matrix of the matrix A Np pilot symbols extracted from a frequency-domain signal obtained after demodulation of a time-domain signal received by the receive antenna concerned by means of a Fourier transform of size N_FFT; and
  
  a step of computing an average over the K_iestimates of the impulse response concerned.
- View Dependent Claims (10, 11, 18)
- - 10. A transmission channel estimation method according to claim 9, wherein the computation of the Nt impulse responses is extended by means of interpolation to the carriers modulated by data.
  - 11. A transmission channel estimation method according to claim 9, wherein the step of computing the Nt impulse responses is repeated for each receive antenna concerned of the multiple-antenna system.
  - 18. A computer-readable non-transitory medium providing computer executable instructions that when loaded onto a receiver causes the receiver to perform at least a channel estimation method according to claim 9.

12. A transmission module including a multiplexing and modulation module using N_FFTorthogonal functions, suitable for a multiple-antenna system using Nt transmit antennas, Nr receive antennas, where Nt and Nr are at least 1, and a time-frequency frame for each transmit antenna including pilot symbols and data symbols of a payload signal, the data symbols and the pilot symbols being frequency-modulated by the multiplexing and modulation module to form orthogonal symbols that are transmitted by a transmit antenna in the form of a multiple-carrier signal using N_FFTcarriers and using Np pilot carriers, the module including:
- a module for determining a basic training sequence from the position of Np pilot symbols in the time-frequency frame associated with a particular transmit antenna;
  
  a module for determining Kn, where
- View Dependent Claims (13)
- - 13. A transmitter for a multiple-antenna system which includes at least one transmission module according to claim 12.

14. A module for estimating transmission channels in a multiple-antenna system using Nt transmit antennas, where Nt is at least 1, at least one receive antenna, and a time-frequency frame for each transmit antenna including pilot symbols forming a training sequence and data symbols of a payload signal, the Nt training sequences being known to the receiver and enabling the receiver to estimate Nt impulse responses corresponding to the Nt transmission channels respectively separating one of the transmit antennas from the receive antenna concerned, the data symbols and the pilot symbols being frequency-modulated by a multiplexing and modulation module using N_FFTorthogonal functions to form orthogonal symbols that are transmitted by the transmit antennas in the form of a multiple-carrier signal using N_FFTcarriers with Np pilot carriers, characterized in that it includesmeans for computing a matrix A constructed in the form of blocks from the training sequences and from the Fourier matrix of dimensions N_FFT×
- N_FFT, the number of blocks of which is equal to the product of the number of orthogonal symbols of the basic training sequence by the sum of the values K_i, a block being determined by the product of a diagonal matrix formed of the pilot symbols contained in an orthogonal symbol of the training sequence associated with the block multiplied by the Fourier matrix, and, for a receive antenna concerned;
  
  means for computing K_iestimates of at least one of the Nt impulse responses in the time domain by multiplying Np pilot symbols extracted from a frequency-domain signal obtained after demodulation of a time-domain signal received by the receive antenna concerned by means of an FFT of size N_FFTby the pseudo-inverse matrix of the matrix A; and
  
  means for computing the average of the K_iestimates of the impulse response concerned.
- View Dependent Claims (15)
- - 15. A receiver for a multiple-antenna system which includes at least one module according to claim 14 for estimating transmission channels.

16. A multiple-antenna system which includes at least one receiver which includes:
- at least a module for estimating transmission channels in a multiple-antenna system using Nt transmit antennas, where Nt is at least 1, at least one receive antenna, and a time-frequency frame for each transmit antenna including pilot symbols forming a training sequence and data symbols of a payload signal, the Nt training sequences being known to the receiver and enabling the receiver to estimate Nt impulse responses corresponding to the Nt transmission channels respectively separating one of the transmit antennas from the receive antenna concerned, the data symbols and the pilot symbols being frequency-modulated by a multiplexing and modulation module using N_FFTorthogonal functions to form orthogonal symbols that are transmitted by the transmit antennas in the form of a multiple-carrier signal using N_FFTcarriers with Np pilot carriers, andmeans for computing a matrix A constructed in the form of blocks from the training sequences and from the Fourier matrix of dimensions N_FFT×
  
  N_FFT, the number of blocks of which is equal to the product of the number of orthogonal symbols of the basic training sequence by the sum of the values K_i, a block being determined by the product of a diagonal matrix formed of the pilot symbols contained in an orthogonal symbol of the training sequence associated with the block multiplied by the Fourier matrix, and, for a receive antenna concerned;
  
  means for computing K_iestimates of at least one of the Nt impulse responses in the time domain by multiplying Np pilot symbols extracted from a frequency-domain signal obtained after demodulation of a time-domain signal received by the receive antenna concerned by means of an FFT of size N_FFTby the pseudo-inverse matrix of the matrix A; and
  
  means for computing the average of the K_iestimates of the impulse response concerned.

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Current Assignee
3G Licensing S.A. (Fineur International S.A.)
Original Assignee
Orange S.A.
Inventors
Le Saux, Benoit, Helard, Maryline, Boher, Laurent
Primary Examiner(s)
Payne, David C.
Assistant Examiner(s)
Cadeau, Wednel

Application Number

US12/515,989
Publication Number

US 20090304104A1
Time in Patent Office

1,793 Days
Field of Search

375/347, 375/144, 375/260, 375/130, 375/267
US Class Current

375/267
CPC Class Codes

H04B 7/0434   using multiple eigenmodes

H04B 7/0671   using different delays betw...

H04B 7/068   using space frequency diver...

H04L 25/0228   with direct estimation from...

H04L 25/0244   with inversion

H04L 27/2613   Structure of the reference ...

H04L 27/2627   Modulators

H04L 27/2647   Arrangements specific to th...

H04L 5/0023   Time-frequency-space

H04L 5/0048   Allocation of pilot signals...

Transmission/reception methods and modules for a multiple-carrier multiple-antenna system using training sequences

First Claim

3 Assignments

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Abstract

4 Citations

18 Claims

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Transmission/reception methods and modules for a multiple-carrier multiple-antenna system using training sequences

First Claim

3 Assignments

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0 Petitions

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Accused Products

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Abstract

4 Citations

18 Claims

Specification

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Solutions

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