Framing for an adaptive modulation communication system

US 8,462,673 B2
Filed: 03/22/2012
Issued: 06/11/2013
Est. Priority Date: 11/15/2000
Status: Expired due to Term

First Claim

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1. A subscriber unit in a point-to-multipoint wireless communication system, where a base station allocates uplink (UL) and downlink (DL) resources to a plurality of subscriber units on demand, the subscriber unit comprising:

an antenna system for transmitting to the base station UL data and receiving from the base station a DL sub-frame includinga) control information including a preamble for synchronizing the subscriber unit with the base station, information on an UL scheduled event and a DL scheduled event pertaining to the subscriber unit, identification of a UL physical (PHY) mode associated with the UL scheduled event, and a DL PHY mode associated with the DL scheduled event, andb) a data block with DL data the subscriber unit, the DL data being encoded according to the DL PHY mode provided for the subscriber unit;

a receiver configured to decode the control information to identify the DL PHY mode and the UL PHY mode and the information on the DL and UL scheduled events, the receiver being further configured to decode the DL data from the data block based on the DL PHY mode and the information on the DL scheduled event; and

a transmitter configured to encode the UL data using the UL PHY mode and to map the UL data into an uplink sub-frame based on the information on the UL scheduled event,wherein the control information is encoded using a DL PHY mode which includes a most robust PHY mode compatible with the subscriber units scheduled to receive data in the DL sub-frame.

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Abstract

A system and method for mapping a combined frequency division duplexing (FDD) Time Division Multiplexing (TDM)/Time Division Multiple Access (TDMA) downlink subframe for use with half-duplex and full-duplex terminals in a communication system. Embodiments of the downlink subframe vary Forward Error Correction (FEC) types for a given modulation scheme as well as support the implementation of a smart antennae at a base station in the communication system. Embodiments of the system are also used in a TDD communication system to support the implementation of smart antennae. A scheduling algorithm allows TDM and TDMA portions of a downlink to efficiently co-exist in the same downlink subframe and simultaneously support full and half-duplex terminals.

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20 Claims

1. A subscriber unit in a point-to-multipoint wireless communication system, where a base station allocates uplink (UL) and downlink (DL) resources to a plurality of subscriber units on demand, the subscriber unit comprising:
- an antenna system for transmitting to the base station UL data and receiving from the base station a DL sub-frame includinga) control information including a preamble for synchronizing the subscriber unit with the base station, information on an UL scheduled event and a DL scheduled event pertaining to the subscriber unit, identification of a UL physical (PHY) mode associated with the UL scheduled event, and a DL PHY mode associated with the DL scheduled event, andb) a data block with DL data the subscriber unit, the DL data being encoded according to the DL PHY mode provided for the subscriber unit;
  
  a receiver configured to decode the control information to identify the DL PHY mode and the UL PHY mode and the information on the DL and UL scheduled events, the receiver being further configured to decode the DL data from the data block based on the DL PHY mode and the information on the DL scheduled event; and
  
  a transmitter configured to encode the UL data using the UL PHY mode and to map the UL data into an uplink sub-frame based on the information on the UL scheduled event,wherein the control information is encoded using a DL PHY mode which includes a most robust PHY mode compatible with the subscriber units scheduled to receive data in the DL sub-frame.
- View Dependent Claims (2, 3, 4, 5, 6, 7)
- - 2. A subscriber unit as claimed in claim 1, wherein the UL PHY mode is different from the DL PHY mode.
  - 3. A subscriber unit as claimed in claim 1, wherein the UL data block is transmitted over sub-carriers assigned to the subscriber unit.
  - 4. A subscriber unit as claimed in claim 1, wherein the DL data block is received over sub-carriers assigned to the subscriber unit.
  - 5. A subscriber unit as claimed in claim 1, wherein the subscriber unit is a mobile device.
  - 6. A subscriber unit as claimed in claim 1, wherein the UL PHY mode includes an UL modulation format and an UL forward error correction (FEC) coding to be used for encoding the UL data.
  - 7. A subscriber unit as claimed in claim 1, wherein the UL PHY mode is a function of the quality of a wireless link established between the subscriber unit and the base station.

8. A subscriber unit in a point-to-multipoint wireless communication system, where a base station allocates uplink (UL) and downlink (DL) resources to a plurality of subscriber units on demand, the subscriber unit comprising:
- an antenna system for transmitting to the base station UL data and receiving from the base station a downlink sub-frame includinga) control information including a preamble for synchronizing the subscriber unit with the base station, information on an UL scheduled event and a DL scheduled event pertaining to the subscriber unit, identification of a UL physical (PHY) mode associated with the UL scheduled event, and a DL PHY mode associated with the DL scheduled event, andb) a data block with DL data for the subscriber unit, the DL data being encoded according to the DL PHY mode provided for the subscriber unit;
  
  a receiver configured to decode the control information to identify the DL PHY mode and the UL PHY mode and the information on the UL and DL scheduled events, the receiver being further configured to decode the DL data from the data block based on the DL PHY mode and the information on the DL scheduled event,wherein the DL PHY mode includes to a DL modulation format and a DL forward error correction (FEC) coding, selected independently of each other based on one or more DL communication parameters.
- View Dependent Claims (9, 10, 11, 12, 13, 14, 15, 16)
- - 9. A subscriber unit as claimed in claim 8, further comprising a transmitter configured to encode the UL data into an UL sub-frame using the UL PHY mode specified in the control information.
  - 10. A subscriber unit as claimed, in claim 9, wherein the transmitter maps the UL data into the UL sub-frame based on the information on the UL scheduled event specified in the control information.
  - 11. A subscriber unit as claimed in claim 9, wherein the UL PHY mode includes an UL modulation format and an uplink forward error correction (FEC) coding selected independently of each other based on one or more uplink communication parameters.
  - 12. A subscriber unit as claimed in claim 8, wherein the data block is received over sub-carriers assigned to the subscriber unit.
  - 13. A subscriber unit as claimed in claim 8, wherein the subscriber unit is a mobile device.
  - 14. A subscriber unit as claimed in claim 8, further comprising a transmitter adapted to encode the UL data using the UL PHY mode and to map the UL data to an uplink sub-frame based on the information on the UL scheduled event.
  - 15. A subscriber unit as claimed in claim 8, wherein the UL PHY mode is selected based on the quality of a wireless link established between the subscriber unit and the base station.
  - 16. A subscriber unit as claimed in claim 8, wherein, DL PHY modes selected based on the quality of a wireless link established between the base station and the subscriber unit.

17. A method of processing data received in a subscriber unit in a point-to-multipoint wireless communication system, where a base station allocates uplink (UL) and downlink (DL) resources to a plurality of subscriber units on demand, the method comprising:
- receiving a DL sub-frame with control information including a preamble for synchronizing the subscriber unit with the base station, information on a DL scheduled event pertaining to the subscriber unit, and identification of a DL physical (PHY) mode associated with the DL scheduled event;
  
  decoding the control information for identifying the DL PHY mode and the information on the DL scheduled event, the information on the DL scheduled event including information on bandwidth allocated to the subscriber unit in the downlink sub-frame;
  
  receiving a data block with DL data for the subscriber unit; and
  
  decoding the DL data from the data block based on the DL PHY mode and the information on the DL scheduled event provided in the control information,wherein the DL PHY mode includes a DL modulation format and a DL forward error correction (FEC) coding, the DL modulation format and DL FEC coding being selected independently of each of based on one or more communication parameters.
- View Dependent Claims (18)
- - 18. A method as claimed in claim 17, further comprising distributing the downlink data decoded from the data block between one or more user connections established at the subscriber unit.

19. A method of processing data received at a subscriber unit in a point-to-multipoint wireless communication system, where a base station allocates uplink (UL) and downlink (DL) resources to a plurality of subscriber units on demand, the method comprising:
- receiving control information from the base station including a preamble for synchronizing the subscriber unit with the base station, information on an UL scheduled event pertaining to the subscriber unit, and identification of an UL physical (PHY) mode associated with the UL scheduled event;
  
  encoding UL data according to the UL PHY mode provided for the subscriber unit by the control information;
  
  mapping the encoded UL data to a data block based on the information on the UL scheduled event provided by the control information, the UL scheduled event providing information on bandwidth allocated to the subscriber unit for UL transmission to the base station; and
  
  transmitting the data block with the UL data to the base station within an UL sub-frame;
  
  wherein the UL PHY mode includes an UL modulation format and an UL forward error correction (FEC) coding, the UL modulation format and the UL FEC coding being selected independently of each other based on one or more communication parameters.
- View Dependent Claims (20)
- - 20. A method as claimed in claim 19, wherein the UL PHY mode is a function of the quality of a wireless link established between the subscriber station and the base station.

Specification

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Current Assignee
Quarterhill Inc. (f/k/a Wi-LAN Inc.)
Original Assignee
Quarterhill Inc. (f/k/a Wi-LAN Inc.)
Inventors
Stanwood, Kenneth L., Klein, Israel Jay, Lin, George, Chen, An
Primary Examiner(s)
GREY, CHRISTOPHER P

Application Number

US13/427,692
Publication Number

US 20120182952A1
Time in Patent Office

446 Days
Field of Search

370/280, 370/281, 370/294, 370/295, 370/334, 370/345, 370/347, 370/442, 375/261
US Class Current

370/280
CPC Class Codes

H04B 7/15557   Selecting relay station ope...

H04B 7/212   Time-division multiple acce...

H04B 7/2615   using hybrid frequency-time...

H04B 7/2656   for structure of frame, burst

H04B 7/2681   Synchronisation of a mobile...

H04L 1/0003   by switching between differ...

H04L 1/0009   by adapting the channel cod...

H04L 5/16   Half-duplex systems; Simple...

H04W 56/0085   detecting a given structure...

H04W 72/23   in the downlink direction o...

Framing for an adaptive modulation communication system

First Claim

3 Assignments

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Abstract

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20 Claims

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Framing for an adaptive modulation communication system

First Claim

3 Assignments

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Abstract

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20 Claims

Specification

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