Method for improving the quality of data transmission

US 7,339,918 B2
Filed: 02/25/2002
Issued: 03/04/2008
Est. Priority Date: 06/26/2000
Status: Expired due to Fees

First Claim

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1. A method for improving the quality of data transmission in cellular radio systems utilizing time division multiple access, the method comprising:

measuring the strength of the signal the base station receives in at least two consecutive time slots, wherein the difference in signal strengths is considerable enough to produce an erroneous bit decision if the difference exceeds a determined threshold value,determining a first weighting coefficient by comparing the strength of the signal the base station receives in a time slot with the strength of the signal the base station receives in a previous time slot,determining a second weighting coefficient by comparing the strength of the signal the base station receives in a time slot with the strength of the signal the base station receives in a following time slot,reducing, using the first determined weighting coefficient, in soft bit decision-making in a decoder, the significance of at least one symbol at a beginning of a burst the base station receives in a time slot if the difference between the measured signal strengths is considerable enough to produce an erroneous bit decision, andreducing, using the second determined weighting coefficient, in soft bit decision-making in the decoder, the significance of at least one symbol at an end of the burst the base station receives in a time slot if the difference between the measured signal strengths is considerable enough to produce an erroneous bit decision.

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Abstract

A method for improving the quality of data transmission in cellular radio systems utilizes time division multiple access, in which the strength of a signal received at a base station is measured and a decoder for soft decision-making is employed. The method includes measuring the strength of the signal the base station receives in at least two consecutive time slots and determining a weighting coefficient by comparing the signal strengths and reducing, using the determined weighting coefficient in a soft bit decision-making, the significance of at least one symbol at the beginning of the burst the base station receives in a time slot if the difference between the measured signal strengths is considerable.

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22 Claims

1. A method for improving the quality of data transmission in cellular radio systems utilizing time division multiple access, the method comprising:
- measuring the strength of the signal the base station receives in at least two consecutive time slots, wherein the difference in signal strengths is considerable enough to produce an erroneous bit decision if the difference exceeds a determined threshold value,determining a first weighting coefficient by comparing the strength of the signal the base station receives in a time slot with the strength of the signal the base station receives in a previous time slot,determining a second weighting coefficient by comparing the strength of the signal the base station receives in a time slot with the strength of the signal the base station receives in a following time slot,reducing, using the first determined weighting coefficient, in soft bit decision-making in a decoder, the significance of at least one symbol at a beginning of a burst the base station receives in a time slot if the difference between the measured signal strengths is considerable enough to produce an erroneous bit decision, andreducing, using the second determined weighting coefficient, in soft bit decision-making in the decoder, the significance of at least one symbol at an end of the burst the base station receives in a time slot if the difference between the measured signal strengths is considerable enough to produce an erroneous bit decision.
- View Dependent Claims (4, 5, 6, 7)
- - 4. A method as claimed in claim 1, 2 or 3, wherein the weighting coefficients are higher than 0 but lower than 1.
  - 5. A method as claimed in claim 1, 2 or 3, wherein the strength of the signal received at the base station is determined using RSSI (Received Signal Strength Indicator) measurement.
  - 6. A method as claimed in claim 1, 2 or 3, wherein the weighting coefficients have the same values for all symbols to be weighted in each time slot.
  - 7. A method as claimed in claim 1, 2 or 3, wherein the weighting coefficients have different values for different symbols to be weighted in each time slot.

2. A method for improving the quality of data transmission in cellular radio systems utilizing time division multiple access, the method comprising:
- measuring the strength of the signal the base station receives in at least two consecutive time slots, wherein the difference in signal strengths is considerable enough to produce an erroneous bit decision if the difference exceeds a determined threshold value,determining a weighting coefficient by comparing the strength of the signal the base station receives in a time slot with the strength of the signal the base station receives in a previous time slot, andreducing, using the determined weighting coefficient, in soft bit decision-making in a decoder, the significance of at least one symbol at the beginning of a burst the base station receives in a time slot if the difference between the measured signal strengths is considerable enough to produce an erroneous bit decision.

3. A method for improving the quality of data transmission in cellular radio systems utilizing time division multiple access, the method comprising:
- measuring the strength of the signal the base station receives in at least two consecutive time slots, wherein the difference in signal strengths is considerable enough to produce an erroneous bit decision if the difference exceeds a determined threshold value,determining a weighting coefficient by comparing the strength of the signal the base station receives in a time slot with the strength of the signal the base station receives in a following time slot, andreducing, using the determined weighting coefficient, in soft bit decision-making in a decoder, the significance of at least one symbol at an end of a burst the base station receives in a time slot if the difference between the measured signal strengths is considerable enough to produce an erroneous bit decision.

8. A base station receiver improving the quality of data transmission in cellular radio systems utilizing time division multiple access, the base station receiver comprising:
- means for measuring the strength of the signal the base station receives in at least two consecutive time slots, wherein the difference in signal strengths is considerable enough to produce an erroneous bit decision if the difference exceeds a determined threshold value,means for determining a first weighting coefficient by comparing the strength of the signal the base station receives in a time slot with the strength of the signal the base station receives in a previous time slot,means for determining a second weighting coefficient by comparing the strength of the signal the base station receives in a time slot with the strength of the signal the base station receives in a following time slot,means for reducing, using the first determined weighting coefficient, in soft bit decision-making in a decoder, the significance of at least one symbol at a beginning of a burst the base station receives in a time slot if the difference between the measured signal strengths is considerable enough to produce an erroneous bit decision, andmeans for reducing, using the second determined weighting coefficient, in soft bit decision-making in the decoder, the significance of at least one symbol at an end of the burst the base station receives in a time slot if the difference between the measured signal strengths is considerable enough to produce an erroneous bit decision.

9. A base station receiver improving the quality of data transmission in cellular radio systems utilizing time division multiple access, the base station receiver comprising:
- means for measuring the strength of the signal the base station receives in at least two consecutive time slots, wherein the difference in signal strengths is considerable enough to produce an erroneous bit decision if the difference exceeds a determined threshold value,means for determining a weighting coefficient by comparing the strength of the signal the base station receives in a time slot with the strength of the signal the base station receives in a previous time slot, andmeans for reducing, using the determined weighting coefficient, in soft bit decision-making making in a decoder, the significance of at least one symbol at a beginning of a burst the base station receives in a time slot if the difference between the measured signal strengths is considerable enough to produce an erroneous bit decision.

10. A base station receiver improving the quality of data transmission in cellular radio systems utilizing time division multiple access, the base station receiver comprising:
- means for measuring the strength of the signal the base station receives in at least two consecutive time slots, wherein the difference in signal strengths is considerable enough to produce an erroneous bit decision if the difference exceeds a determined threshold value,means for determining a weighting coefficient by comparing the strength of the signal the base station receives in a time slot with the strength of the signal the base station receives in a following time slot, andmeans for reducing, using the determined weighting coefficient in soft bit decision-making in a decoder, the significance of at least one symbol at an end of a burst the base station receives in a time slot if the difference between the measured signal strengths is considerable enough to produce an erroneous bit decision.
- View Dependent Claims (11, 12, 13, 14, 15)
- - 11. A base station receiver as claimed in claim 8, 9 or 10, wherein the weighting coefficients are higher than 0 but lower than 1.
  - 12. A base station receiver as claimed in claim 8, 9 or 10, wherein the strength of the signal received at the base station is determined using RSSI (Received Signal Strength Indicator) measurement.
  - 13. A base station receiver as claimed in claim 8, 9 or 10, wherein the weighting coefficients have the same values for all symbols to be weighted in each time slot.
  - 14. A base station receiver as claimed in claim 8, 9 or 10, wherein the weighting coefficients have different values for different symbols to be weighted in each time slot.
  - 15. A base station receiver as claimed in claim 8, 9 or 10, wherein the base station receiver is implemented by a processor.

16. A base station receiver improving the quality of data transmission in cellular radio systems utilizing time division multiple access, the receiver comprising a processor configured to:
- measure the strength of the signal the base station receives in at least two consecutive time slots, wherein the difference in signal strengths is considerable enough to produce an erroneous bit decision if the difference exceeds a determined threshold value,determine a first weighting coefficient by comparing the strength of the signal the base station receives in a time slot with the strength of the signal the base station receives in a previous time slot,determine a second weighting coefficient by comparing the strength of the signal the base station receives in a time slot with the strength of the signal the base station receives in a following time slot,reduce, using the first determined weighting coefficient, in soft bit decision-making in a decoder, the significance of at least one symbol at a beginning of a burst the base station receives in a time slot if the difference between the measured signal strengths is considerable enough to produce an erroneous bit decision, andreduce, using the second determined weighting coefficient, in soft bit decision-making in the decoder, the significance of at least one symbol at an end of the burst the base station receives in a time slot if the difference between the measured signal strengths is considerable enough to produce an erroneous bit decision.
- View Dependent Claims (19, 20, 21, 22)
- - 19. A base station receiver as claimed in claim 16, 17 or 18, wherein the weighting coefficients are higher than 0 but lower than 1.
  - 20. A base station receiver as claimed in claim 16, 17 or 18, wherein the strength of the signal received at the base station is determined using RSSI (Received Signal Strength Indicator) measurement.
  - 21. A base station receiver as claimed in claim 16, 17 or 18, wherein the weighting coefficients have the same values for all symbols to be weighted in each time slot.
  - 22. A base station receiver as claimed in claim 16, 17 or 18, wherein the weighting coefficients have different values for different symbols to be weighted in each time slot.

17. A base station receiver improving the quality of data transmission in cellular radio systems utilizing time division multiple access, the receiver comprising a processor configured to:
- measure the strength of the signal the base station receives in at least two consecutive time slots, wherein the difference in signal strengths is considerable enough to produce an erroneous bit decision if the difference exceeds a determined threshold value,determine a weighting coefficient by comparing the strength of the signal the base station receives in a time slot with the strength of the signal the base station receives in a previous time slot, andreduce, using the determined weighting coefficient, in soft bit decision-making in a decoder, the significance of at least one symbol at a beginning of a burst the base station receives in a time slot if the difference between the measured signal strengths is considerable enough to produce an erroneous bit decision.

18. A base station receiver improving the quality of data transmission in cellular radio systems utilizing time division multiple access, the receiver comprising a processor configured to:
- measure the strength of the signal the base station receives in at least two consecutive time slots, wherein the difference in signal strengths is considerable enough to produce an erroneous bit decision if the difference exceeds a determined threshold value,determine a weighting coefficient by comparing the strength of the signal the base station receives in a time slot with the strength of the signal the base station receives in a following time slot, andreduce, using the determined weighting coefficient, in soft bit decision-making in a decoder, the significance of at least one symbol at an end of a burst the base station receives in a time slot if the difference between the measured signal strengths is considerable enough to produce an erroneous bit decision.

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Current Assignee
Nokia Corporation
Original Assignee
Nokia Corporation
Inventors
Piirainen, Olli
Primary Examiner(s)
Orgad; Edan
Assistant Examiner(s)
LEE, ANDREW CHUNG CHEUNG

Application Number

US10/080,509
Publication Number

US 20020141363A1
Time in Patent Office

2,199 Days
Field of Search

370347-350, 370/442
US Class Current

370/347
CPC Class Codes

H04B 17/318 Received signal strength

H04L 1/0047 Decoding adapted to other s...

Method for improving the quality of data transmission

First Claim

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Abstract

36 Citations

22 Claims

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Method for improving the quality of data transmission

First Claim

1 Assignment

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0 Petitions

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Accused Products

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Abstract

36 Citations

22 Claims

Specification

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Solutions

Use Cases

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