Method and System for Integrates Link Adaptation and Power Control to Improve Error and Throughput Performance in Wireless Packet Networks
First Claim
1. A method executed in a base station that interacts with terminals, comprising the steps of:
- determining range of signal path gains for said terminals,dividing said range into a plurality of gain non-overlapping intervals, each having a lower boundary signal path gain and an upper boundary signal path gain;
assigning to each interval those of said terminals (group of terminals) that have a signal path gain between the lower and upper boundaries of said each interval;
specifying an associated modulation level to the group of terminals that are assigned to each of the intervals, to be used by said terminals when transmitting to said base station,for each group of terminals, based on every set of K packets that are received from terminals in said each group,computing an associated group packet error rate, which is a collective packet error rate of said group of terminals as experienced at said base station; and
specifying to the terminals in said group of terminals to modify their mode of operation in a direction that decreases throughput of data from said terminals, if the computed associated group packet error rate is above a specified group packet error rate.
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Accused Products
Abstract
The invention provides a system that implements an algorithm for integrated link adaptation and power control to achieve specified error rates and to improve an overall throughput for real-time applications in wireless packet networks. The system initially divides wireless terminals into groups according to their signal path gains. Afterwards, the system can periodically adapt transmissions (i.e., link adaptations) based on the required error rates, actual error statistics and average transmission power for each wireless terminal group. Furthermore, transmission power can be adjusted by an enhanced Kalman-filter method to ensure successful reception.
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Citations
10 Claims
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1. A method executed in a base station that interacts with terminals, comprising the steps of:
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determining range of signal path gains for said terminals, dividing said range into a plurality of gain non-overlapping intervals, each having a lower boundary signal path gain and an upper boundary signal path gain; assigning to each interval those of said terminals (group of terminals) that have a signal path gain between the lower and upper boundaries of said each interval; specifying an associated modulation level to the group of terminals that are assigned to each of the intervals, to be used by said terminals when transmitting to said base station, for each group of terminals, based on every set of K packets that are received from terminals in said each group, computing an associated group packet error rate, which is a collective packet error rate of said group of terminals as experienced at said base station; and specifying to the terminals in said group of terminals to modify their mode of operation in a direction that decreases throughput of data from said terminals, if the computed associated group packet error rate is above a specified group packet error rate.
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2. The method of claim 1 where said intervals are chosen based on number of modulation levels that may be employed.
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3. The method of claim 1 where said intervals are chosen to include a number of terminals that is not lower than a preselected number.
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4. The method of claim 1 where said step of specifying to the terminals in said group to modify their mode of operation includes specifying, a power level at which to transmit.
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5. The method of claim 4 where said power level for each of the terminals in said group is adjusted to achieve a target signal-to-interference-to-noise ratio.
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6. The method of claim 5 where, following computing said power level for each of the terminals in said each group, computing an average power for said groups of terminals, and stepping up the modulation level of the terminals in said group by one level if the computed average power is less than a preselected level.
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7. The method of claim 1 where said step of specifying to the terminals in said group of terminals to modify their mode of operation includes specifying a current modulation level for said each group of terminals.
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8. The method of claim 1 where said specifying to the terminals in said group to modify their mode of operation includes specifying both a current modulation level for said group of terminals and transmission power by said terminals.
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9. The method of claim 1 where said step of specifying to the terminals in said group of terminals to modify their mode of operation includes modifying the mode of operation in a direction that increases throughput of data from said terminals.
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10. The method of claim 1 where said step of specifying an associated modulation level specifies a different modulation level to the groups of terminals that are assigned to the different intervals.
Specification