Dynamic sub-carrier assignment in OFDM systems

US 6,721,569 B1
Filed: 09/29/2000
Issued: 04/13/2004
Est. Priority Date: 09/29/2000
Status: Expired due to Term

First Claim

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1. A method by a remote unit in a radio communication system which employs Orthogonal Frequency Division Multiplexing, the remote unit receiving a signal as a plurality of sub-carrier signals from a base station, each sub-carrier signal belonging to one of a plurality of groups of sub-carrier signals, the method comprising the steps of:

determining a channel quality of each group of sub-carrier signals;

comparing the channel quality of each group of sub-carrier signals with a threshold;

generating a sequence of numbers, there being one number for each group of sub-carrier signals, each number having a value belonging to a first set of values if the channel quality of the corresponding group of sub-carrier signals is above the threshold and having a value belonging to a second set of values if the channel quality of the corresponding group of sub-carrier signals is not above the threshold, the second set of values having no values in common with the first set of values;

generating at least one value by which the base station can determine at least one Link Mode, a Link Mode being a set of at least one transmission parameter; and

transmitting the sequence of numbers and the at least one value by which the base station can determine at least one Link Mode.

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Abstract

A method and apparatus are provided for selecting and signaling the identity of sub-carriers to be used for transmission of data in a radio communication system, and for using other sub-carriers. A remote unit determines which sub-carriers are acceptable for use in data transmission by comparing the signal to interference ratio of each sub-carrier with a threshold. A base station transmits data over the acceptable sub-carriers at the optimum Link Mode or Link Modes. The base station may use some of the unacceptable sub-carriers for transmission of low sensitivity data at the optimum Link Mode, and may use some of the unacceptable sub-carriers for transmission of data at a lower Link Mode. The transmission power any unused unacceptable sub-carriers can be diverted to other sub-carriers.

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23 Claims

1. A method by a remote unit in a radio communication system which employs Orthogonal Frequency Division Multiplexing, the remote unit receiving a signal as a plurality of sub-carrier signals from a base station, each sub-carrier signal belonging to one of a plurality of groups of sub-carrier signals, the method comprising the steps of:
- determining a channel quality of each group of sub-carrier signals;
  
  comparing the channel quality of each group of sub-carrier signals with a threshold;
  
  generating a sequence of numbers, there being one number for each group of sub-carrier signals, each number having a value belonging to a first set of values if the channel quality of the corresponding group of sub-carrier signals is above the threshold and having a value belonging to a second set of values if the channel quality of the corresponding group of sub-carrier signals is not above the threshold, the second set of values having no values in common with the first set of values;
  
  generating at least one value by which the base station can determine at least one Link Mode, a Link Mode being a set of at least one transmission parameter; and
  
  transmitting the sequence of numbers and the at least one value by which the base station can determine at least one Link Mode.
- View Dependent Claims (2, 3, 4)
- - 2. The method of claim 1 comprising the further step of calculating an average channel quality of groups of sub-carrier signals whose channel quality is above the threshold, wherein the at least one value by which the base station can determine at least one Link Mode is the average channel quality, wherein the first set of values consists of the value one and the second set of values consists of the value zero, and wherein each number in the sequence of numbers has a length of one bit.
  - 3. The method of claim 1 comprising the further steps of:
4. The method of claim 1 comprising the further step of determining a group Link Mode for each group of sub-carrier signals having a channel quality above the threshold, wherein the at least one value by which the base station can determine at least one Link Mode comprises a sequence of references to the group Link Modes, wherein the second set of values consists of the value zero, and wherein the sequence of numbers and the sequence of references are combined, the first set of values thereby comprising references to group Link Modes.

5. A remote unit for a radio communication system which employs Orthogonal Frequency Division Multiplexing, the remote unit receiving a plurality of sub-carrier signals from a base station, each sub-carrier signal belonging to one of a plurality of groups of sub-carrier signals, the remote unit comprising:
- means for determining a channel quality of each group of sub-carrier signals;
  
  means for comparing the channel quality of each group of sub-carrier signals with a threshold;
  
  means for generating a sequence of numbers, there being one number for each group of sub-carrier signals, each number having a value belonging to a first set of values if the channel quality of the corresponding group of sub-carrier signals is above the threshold and having a value belonging to a second set of values if the channel quality of the corresponding group of sub-carrier signals is not above the threshold, the second set of values having no values in common with the first set of values;
  
  means for generating at least one value by which the base station can determine at least one Link Mode, a Link Mode being a set of at least one transmission parameter; and
  
  means for transmitting the sequence of numbers and the at least one value by which the base station can determine at least one Link Mode.
- View Dependent Claims (6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18)
- - 6. The remote unit of claim 5 further comprising means for calculating an average channel quality of groups of sub-carrier signals whose channel quality is above the threshold, and wherein the at least one value by which the base station can determine at least one Link Mode is the average channel quality.
  - 7. The remote unit of claim 6 wherein the channel quality of each group of sub-carrier signals is an average signal to interference ratio (S/I) of the sub-carrier signals in the group.
  - 8. The remote unit of claim 6 wherein the channel quality of each group of sub-carrier signals is a reciprocal of an average of an error rate of each sub-carrier signal in the group.
  - 9. The remote unit of claim 6 wherein the first set of values consists of the value one and the second set of values consists of the value zero, and each number in the sequence of numbers has a length of one bit.
  - 10. The remote unit of claim 7 wherein the first set of values consists of the value one and the second set of values consists of the value zero, and each number in the sequence of numbers has a length of one bit.
  - 11. The remote unit of claim 5 further comprising:
12. The remote unit of claim 11 wherein the channel quality of each group of sub-carrier signals is an average signal to interference ratio (S/I) of the sub-carrier signals in the group.
13. The remote unit of claim 11 wherein the first set of values consists of the value one and the second set of values consists of the value zero, and each number in the sequence of numbers has a length of one bit.
14. The remote unit of claim 12 wherein the first set of values consists of the value one and the second set of values consists of the value zero, and each number in the sequence of numbers has a length of one bit.
15. The remote unit of claim 5 further comprising means for determining a group Link Mode for each group of sub-carrier signals having a channel quality above the threshold, and wherein the at least one value by which the base station can determine at least one Link Mode comprises a sequence of references to the group Link Modes.
16. The remote unit of claim 15 wherein the channel quality of each group of sub-carrier signals is an average signal to interference ratio of the sub-carrier signals in the group.
17. The remote unit of claim 15 wherein the sequence of numbers and the sequence of references are combined, the first set of values thereby comprising references to group Link Modes, and the second set of values consists of the value zero.
18. The remote unit of claim 17 wherein the channel quality of each group of sub-carrier signals is an average signal to interference ratio of the sub-carrier signals in the group.

19. A remote unit for a radio communication system which employs a plurality of sub-carriers, the remote unit receiving a plurality of sub-carrier signals from a base station, each sub-carrier signal belonging to one of a plurality of groups of sub-carrier signals, the remote unit comprising:
- means for determining a channel quality of each group of sub-carrier signals;
  
  means for comparing the channel quality of each group of sub-carrier signals with a threshold;
  
  means for generating a sequence of numbers, there being one number for each group of sub-carrier signals, each number having a value belonging to a first set of values if the channel quality of the corresponding group of sub-carrier signals is above the threshold and having a value belonging to a second set of values if the channel quality of the corresponding group of sub-carrier signals is not above the threshold, the second set of values having no values in common with the first set of values;
  
  means for generating at least one value by which the base station can determine at least one Link Mode, a Link Mode being a set of at least one transmission parameter; and
  
  means for transmitting the sequence of numbers and the at least one value by which the base station can determine at least one Link Mode.

20. A processor in a remote unit for a radio communication system which employs Orthogonal Frequency Division Multiplexing, the remote unit receiving a plurality of sub-carrier signals from a base station, each sub-carrier signal belonging to one of a plurality of groups of sub-carrier signals, the processor including instructions for:
- determining a channel quality of each group of sub-carrier signals;
  
  comparing the channel quality of each group of sub-carrier signals with a threshold;
  
  generating a sequence of numbers, there being one number for each group of sub-carrier signals, each number having a value belonging to a first set of values if the channel quality of the corresponding group of sub-carrier signals is above the threshold and having a value belonging to a second set of values if the channel quality of the corresponding group of sub-carrier signals is not above the threshold, the second set of values having no values in common with the first set of values; and
  
  generating at least one value by which the base station can determine at least one Link Mode, a Link Mode being a set of at least one transmission parameter.
- View Dependent Claims (21, 22, 23)
- - 21. The processor of claim 20 further comprising instructions for calculating an average channel quality of groups of sub-carrier signals whose channel quality is above the threshold, and wherein the at least one value by which the base station can determine at least one Link Mode is the average channel quality, wherein the first set of values consists of the value one and the second set of values consists of the value zero, and wherein each number in the sequence of numbers has a length of one bit.
  - 22. The processor of claim 20 further comprising instructions for:
23. The processor of claim 20 further comprising instructions for determining a group Link Mode for each group of sub-carrier signals whose channel quality is higher than the threshold, wherein the at least one value by which the base station can determine at least one Link Mode comprises a sequence of references to the group Link Modes, wherein the second set of values consists of the value zero, and wherein the sequence of numbers and the sequence of references are combined, the first set of values thereby comprising references to group Link Modes.

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Current Assignee
Blackberry Limited
Original Assignee
Nortel Networks Limited (Nortel Networks Corporation)
Inventors
Hashem, Bassam M., Steer, David G., Periyalwar, Shalini S.
Primary Examiner(s)
TRAN, CONGVAN

Application Number

US09/672,704
Time in Patent Office

1,292 Days
Field of Search

455/450, 455/455, 455/464, 455/509, 455/511, 455/515, 455/154.1, 455/166.2, 455/185.1, 455/130, 455/135, 455/277.2, 455/403, 455/408, 455/407, 455/414.1, 370/343, 370/344, 370/330, 370/341, 370/342, 370/208, 370/203, 370/480, 375/260, 375/349
US Class Current

455/450
CPC Class Codes

H04L 5/0044   allocation of payload

H04W 72/0453   Resources in frequency doma...

H04W 72/54   based on quality criteria

Dynamic sub-carrier assignment in OFDM systems

First Claim

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23 Claims

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Dynamic sub-carrier assignment in OFDM systems

First Claim

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Abstract

Citations

23 Claims

Specification

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