Beam-change indication for channel estimation improvement in wireless networks

US 9,319,896 B2
Filed: 05/02/2013
Issued: 04/19/2016
Est. Priority Date: 05/03/2012
Status: Active Grant

First Claim

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1. A method comprising:

receiving a long preamble frame in a wireless communication network by a wireless device, wherein the long preamble frame comprises a first training field, a signal field, and a second training field;

performing a first channel estimation based on the first training field and thereby obtaining a first channel response matrix for a first channel condition;

performing a second channel estimation based on the second training field and thereby obtaining a second channel response matrix for a second channel condition; and

performing a channel estimation enhancement based on a beam-change indicator in the signal field, wherein the beam-change indicator indicates whether there is beam change between the first channel condition and the second channel condition, wherein the channel estimation enhancement involves deriving an enhanced channel response matrix based on both the first training field and the second training field, and wherein the channel estimation enhancement involves deriving the enhanced channel response matrix by combining the first channel response matrix and the second channel response matrix.

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Abstract

A method of channel estimation enhancement is provided. In a wireless communications system, a transmitting device transmits a long preamble frame comprising a first training field, a signal field, and a second training field. The signal field has a beam-change indicator bit indicates whether there is beam change between the first training field and the second training field. A receiving device receives the long preamble frame, performs a first channel estimation based on the first training field, and performs a second channel estimation based on the second training field. If the beam-change indicator bit indicates negative beam change, then the receiving device performs channel estimation enhancement by combining the first channel estimation and the second channel estimation. As a result, channel estimation performance is improved.

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16 Claims

1. A method comprising:
- receiving a long preamble frame in a wireless communication network by a wireless device, wherein the long preamble frame comprises a first training field, a signal field, and a second training field;
  
  performing a first channel estimation based on the first training field and thereby obtaining a first channel response matrix for a first channel condition;
  
  performing a second channel estimation based on the second training field and thereby obtaining a second channel response matrix for a second channel condition; and
  
  performing a channel estimation enhancement based on a beam-change indicator in the signal field, wherein the beam-change indicator indicates whether there is beam change between the first channel condition and the second channel condition, wherein the channel estimation enhancement involves deriving an enhanced channel response matrix based on both the first training field and the second training field, and wherein the channel estimation enhancement involves deriving the enhanced channel response matrix by combining the first channel response matrix and the second channel response matrix.
- View Dependent Claims (2, 3, 4)
- - 2. The method of claim 1, wherein the wireless device decodes the beam-change indicator using the first channel response matrix.
  - 3. The method of claim 1, wherein the wireless device uses the beam-change indicator to determine whether to perform automatic gain control update.
  - 4. The method of claim 1, wherein the wireless device uses the beam-change indicator to determine whether to apply channel smoothing.

5. A method comprising:
- receiving a long preamble frame in a wireless communication network by a wireless device, wherein the long preamble frame comprises a first training field, a signal field, and a second training field;
  
  performing a first channel estimation based on the first training field and thereby obtaining a first channel response matrix for a first channel condition;
  
  performing a second channel estimation based on the second training field and thereby obtaining a second channel response matrix for a second channel condition; and
  
  performing a channel estimation enhancement based on a beam-change indicator in the signal field, wherein the beam-change indicator indicates whether there is beam change between the first channel condition and the second channel condition, wherein the channel estimation enhancement involves deriving an enhanced channel response matrix based on both the first training field and the second training field, and wherein the channel estimation enhancement involves deriving the enhanced channel response matrix by performing a third channel estimation using both the first training field and the second training field.
- View Dependent Claims (6, 7, 8)
- - 6. The method of claim 5, wherein the wireless device decodes the beam-change indicator using the first channel response matrix.
  - 7. The method of claim 5, wherein the wireless device uses the beam-change indicator to determine whether to perform automatic gain control update.
  - 8. The method of claim 5, wherein the wireless device uses the beam-change indicator to determine whether to apply channel smoothing.

9. A method comprising:
- receiving a long preamble frame in a wireless communication network by a wireless device, wherein the long preamble frame comprises a first training field, a signal field, a second training, and a third training field;
  
  performing a first channel estimation based on the first training field and thereby obtaining a first channel response matrix for a first channel condition;
  
  performing a second channel estimation based on the second training field and thereby obtaining a second channel response matrix for a second channel condition;
  
  performing a third channel estimation using the third training field and thereby obtaining a third channel response matrix; and
  
  performing a channel estimation enhancement based on a beam-change indicator in the signal field, wherein the beam-change indicator indicates whether there is beam change between the first channel condition and the second channel condition, wherein the channel estimation enhancement involves deriving an enhanced channel response matrix based on both the first training field and the second training field, and wherein the channel estimation enhancement involves deriving the enhanced channel response matrix by combining the first, the second, and the third channel response matrixes.
- View Dependent Claims (10, 11, 12)
- - 10. The method of claim 9, wherein the wireless device decodes the beam-change indicator using the first channel response matrix.
  - 11. The method of claim 9, wherein the wireless device uses the beam-change indicator to determine whether to perform automatic gain control update.
  - 12. The method of claim 9, wherein the wireless device uses the beam-change indicator to determine whether to apply channel smoothing.

13. A wireless device, comprising:
- a receiver that receives a long preamble frame in a wireless communication network, wherein the long preamble frame comprises a first training field, a signal field, and a second training field;
  
  a first channel estimator that performs a first channel estimation based on the first training field and thereby obtaining a first channel response matrix for a first channel condition;
  
  a second channel estimator that performs a second channel estimation based on the second training field and thereby obtaining a second channel response matrix for a second channel condition; and
  
  a channel estimation enhancement module that performs a channel estimation enhancement based on a beam-change indicator in the signal field, wherein the beam-change indicator indicates whether there is beam change between the first channel condition and the second channel condition, wherein the channel estimation enhancement involves deriving an enhanced channel response matrix based on both the first training field and the second training field, and wherein the channel estimation enhancement involves deriving the enhanced channel response matrix by combining the first channel response matrix and the second channel response matrix.
- View Dependent Claims (14, 15, 16)
- - 14. The device of claim 13, wherein the wireless device decodes the beam-change indicator using the first channel response matrix.
  - 15. The device of claim 13, wherein the wireless device uses the beam-change indicator to determine whether to perform automatic gain control update.
  - 16. The device of claim 13, wherein the wireless device uses the beam-change indicator to determine whether to apply channel smoothing.

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Current Assignee
MediaTek Singapore Pte. Ltd. (MediaTek, Inc.)
Original Assignee
MediaTek Singapore Pte. Ltd. (MediaTek, Inc.)
Inventors
Liu, Jianhan, Pare, Thomas Edward, Wang, Chao-Chun, Wang, James June-Ming, Hsu, YungPing
Primary Examiner(s)
Weidner, Timothy J
Assistant Examiner(s)
BLUST, JANA M

Application Number

US13/875,461
Publication Number

US 20130343211A1
Time in Patent Office

1,083 Days
Field of Search

None
US Class Current

1/1
CPC Class Codes

H04B 7/0413   MIMO systems

H04B 7/0617   for beam forming

H04B 7/0619   using feedback from receivi...

H04B 7/0626   Channel coefficients, e.g. ...

H04B 7/0695   using beam selection

H04L 2025/03783   Details of reference signals

H04L 25/0204   of multiple channels

H04L 25/0228   with direct estimation from...

H04L 5/0048   Allocation of pilot signals...

H04W 24/02   Arrangements for optimising...

Beam-change indication for channel estimation improvement in wireless networks

First Claim

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Abstract

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Beam-change indication for channel estimation improvement in wireless networks

First Claim

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Abstract

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