Method for steering smart antenna beams for a WLAN using signal and link quality metrics

US 20050221837A1
Filed: 03/15/2005
Published: 10/06/2005
Est. Priority Date: 03/17/2004
Status: Active Grant

First Claim

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1. A method for operating a client station in a wireless local area network (WLAN) communication system comprising an access point, the client station comprising an antenna steering algorithm and a smart antenna responsive to the antenna steering algorithm for selecting one of a plurality of antenna beams, the method comprising:

exchanging data with the access point using a first selected antenna beam;

calculating a quality metric of the exchanged data for the first antenna beam, the calculating comprising determining at least one link quality metric (LQM) of the exchanged data for the first antenna beam, determining a signal quality metric (SQM) of the exchanged data for the first antenna beam, and combining the at least one LQM and the SQM for calculating the first quality metric;

selecting at least one second antenna beam for exchanging data with the access point;

calculating at least one second quality metric of the exchanged data for the at least one second antenna beam, the calculating comprising repeating the determining and combining for each second antenna beam;

comparing the first quality metric to the at least one second quality metric; and

selecting a preferred antenna beam from among the first antenna beam and the at least one second antenna beam for continuing to exchange data with the access point based upon the comparing.

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Abstract

An antenna steering algorithm for a smart antenna uses signal quality metrics and link quality metrics for selecting a preferred antenna beam. The link quality metrics supplement the signal quality metrics for improving the antenna steering decision. The link quality metrics are based on information available from existing counters operating in the media access control (MAC) layer. Separate estimates of the frame error rates in the receive links and in the transmit links are obtained. One estimate is the downlink quality metric (DLQM) and another estimate is the uplink quality metric (ULQM). Alternative link quality metrics are based on throughput and data rates of the exchanged data.

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24 Claims

1. A method for operating a client station in a wireless local area network (WLAN) communication system comprising an access point, the client station comprising an antenna steering algorithm and a smart antenna responsive to the antenna steering algorithm for selecting one of a plurality of antenna beams, the method comprising:
- exchanging data with the access point using a first selected antenna beam;
  
  calculating a quality metric of the exchanged data for the first antenna beam, the calculating comprising determining at least one link quality metric (LQM) of the exchanged data for the first antenna beam, determining a signal quality metric (SQM) of the exchanged data for the first antenna beam, and combining the at least one LQM and the SQM for calculating the first quality metric;
  
  selecting at least one second antenna beam for exchanging data with the access point;
  
  calculating at least one second quality metric of the exchanged data for the at least one second antenna beam, the calculating comprising repeating the determining and combining for each second antenna beam;
  
  comparing the first quality metric to the at least one second quality metric; and
  
  selecting a preferred antenna beam from among the first antenna beam and the at least one second antenna beam for continuing to exchange data with the access point based upon the comparing.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12)
- - 2. A method according to claim 1 wherein the at least one LQM is based upon at least one estimate of a frame error rate (FER) of the exchanged data for the corresponding antenna beam.
  - 3. A method according to claim 1 wherein the at least one LQM comprises a downlink LQM and an uplink LQM.
  - 4. A method according to claim 3 wherein a weighting factor is used when combining the downlink LQM and the uplink LQM.
  - 5. A method according to claim 3 wherein the client station comprises a media access control (MAC) layer including a plurality of frame counters for estimating frame error rates of the exchanged data;
    - and wherein a first set of counters is used for determining the downlink LQM and a second set of counters is used for determining the uplink LQM.
  - 6. A method according to claim 5 wherein the first set of counters comprises a ReceivedFragmentCount counter, a MulticastFragmentCount counter, and a FCSErrorCount counter;
    - and wherein the second set of counters comprises an ACKFailureCount counter and a TransmittedFrameCount counter.
  - 7. A method according to claim 1 wherein the at least one LQM is based upon a transfer rate of the exchanged data for the corresponding antenna beam.
  - 8. A method according to claim 1 wherein the at least one LQM is based upon at least one of a throughput and a data rate of the exchanged data for the corresponding antenna beam.
  - 9. A method according to claim 1 wherein the SQM is based upon a received signal strength indicator (RSSI) of the exchanged data for the corresponding antenna beam.
  - 10. A method according to claim 1 wherein a weighting factor is used when combining the LQM and the SQM.
  - 11. A method according to claim 1 wherein the plurality of antenna beams comprise a plurality of directional beams and an omni-directional beam.
  - 12. A method according to claim 1 wherein the WLAN comprises an 802.11 WLAN.

13. A client station for operating in a wireless local area network (WLAN) communication system comprising an access point, the client station comprising:
- a switched beam antenna for generating a plurality of antenna beams;
  
  a beam switching unit coupled to said switched beam antenna for selecting one of the plurality of antenna beams;
  
  a transceiver coupled to said beam switching unit for exchanging data with the access point via a selected antenna beam; and
  
  an antenna steering algorithm module for running an antenna steering algorithm for performing the following exchanging data between said transceiver and the access point using a first selected antenna beam, determining at least one link quality metric (LQM) of the exchanged data for the first selected antenna beam, determining a signal quality metric (SQM) of the exchanged data for the first selected antenna beam, calculating a first quality metric for the first selected antenna beam based upon a combination of the at least one LQM and the SQM, selecting at least one second antenna beam for exchanging data between said transceiver and the access point, repeating the determining for calculating at least one second quality metric for the at least one second antenna beam based upon a respective combination of the at least one LQM and the SQM associated therewith, comparing the first quality metric to the at least one second quality metric, and selecting a preferred antenna beam from among the first antenna beam and the at least one second antenna beam for continuing to exchange data with the access point based upon the comparing.
- View Dependent Claims (14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24)
- - 14. A client station according to claim 13 wherein the at least one LQM is based upon at least one estimate of a frame error rate (FER) of the exchanged data.
  - 15. A client station according to claim 13 wherein the at least one LQM comprises a downlink LQM and an uplink LQM for the corresponding antenna beam.
  - 16. A client station according to claim 15 wherein a weighting factor is used when combining the downlink LQM and the uplink LQM.
  - 17. A client station according to claim 15 wherein the client station comprises a media access control (MAC) layer including a plurality of frame counters for estimating frame error rates of the exchanged data;
    - and wherein a first set of counters is used for determining the downlink LQM and a second set of counters is used for determining the uplink LQM.
  - 18. A client station according to claim 17 wherein the first set of counters comprises a ReceivedFragmentCount counter, a MulticastFragmentCount counter, and a FCSErrorCount counter;
    - and wherein the second set of counters comprises an ACKFailureCount counter and a TransmittedFrameCount counter.
  - 19. A client station according to claim 13 wherein the at least one LQM is based upon a transfer rate of the exchanged data for the corresponding antenna beam.
  - 20. A client station according to claim 13 wherein the at least one LQM is based upon at least one of a throughput and a data rate of the exchanged data for the corresponding antenna beam.
  - 21. A client station according to claim 13 wherein the SQM is based upon a received signal strength indicator (RSSI) of the exchanged data for the corresponding antenna beam.
  - 22. A client station according to claim 13 wherein a weighting factor is used when combining the LQM and the SQM.
  - 23. A client station according to claim 13 wherein the plurality of antenna beams comprise a plurality of directional beams and an omni-directional beam.
  - 24. A client station according to claim 13 wherein the WLAN comprises an 802.11 WLAN.

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Current Assignee
Interdigital Technology Corporation (InterDigital, Inc.)
Original Assignee
Interdigital Technology Corporation (InterDigital, Inc.)
Inventors
Cha, Inhyok, Zhao, Zheng, Gorsuch, Thomas Eric, Lintelman, Ross L.

Granted Patent

US 7,236,759 B2
Time in Patent Office

Days
Field of Search
US Class Current

455/452.200
CPC Class Codes

H04B 7/0408   using two or more beams, i....

H04B 7/0617   for beam forming

H04B 7/086   using weights depending on ...

Method for steering smart antenna beams for a WLAN using signal and link quality metrics

First Claim

1 Assignment

0 Petitions

Accused Products

Abstract

34 Citations

24 Claims

Specification

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Method for steering smart antenna beams for a WLAN using signal and link quality metrics

First Claim

1 Assignment

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0 Petitions

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Accused Products

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Abstract

34 Citations

24 Claims

Specification

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Solutions

Use Cases

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