User equipment utilizing weighted open loop power control
First Claim
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1. A user equipment (UE) employing a spread spectrum time division duplex technique using frames with time slots for communication, comprising:
- means for receiving, in a first time slot, a first communication having a power level;
means for measuring a power level of the first communication;
means for determining a path loss estimate based in part on the measured power level and the received power level;
means for determining a long term path loss estimate based on prior path loss estimates;
means for setting a transmission power level for a second communication in a second time slot based in part on the path loss estimate weighted by a first factor and the long term path loss estimate weighted by a second factor, wherein the first and second factors are a function of a time separation of the first and second time slots;
means for transmitting the second communication in the second time slot at the set transmission power level;
means for determining a quality, α
, of the pathloss estimate based in part on a number of time slots, D, between the first and second time slot; and
wherein the first factor is α and
the second factor is 1−
α
.
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Abstract
A user equipment (UE) employs weighted open loop power control by receiving a communication and measuring its received power level. Based on, in part, the received communication'"'"'s power level and the communication'"'"'s transmission power level, a path loss estimate is determined. A quality of the path loss estimate is also determined. The transmission power level for a communication from the UE is based, in part, on weighting the path loss estimate in response to the estimate'"'"'s quality.
23 Citations
8 Claims
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1. A user equipment (UE) employing a spread spectrum time division duplex technique using frames with time slots for communication, comprising:
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means for receiving, in a first time slot, a first communication having a power level;
means for measuring a power level of the first communication;
means for determining a path loss estimate based in part on the measured power level and the received power level;
means for determining a long term path loss estimate based on prior path loss estimates;
means for setting a transmission power level for a second communication in a second time slot based in part on the path loss estimate weighted by a first factor and the long term path loss estimate weighted by a second factor, wherein the first and second factors are a function of a time separation of the first and second time slots;
means for transmitting the second communication in the second time slot at the set transmission power level;
means for determining a quality, α
, of the pathloss estimate based in part on a number of time slots, D, between the first and second time slot; and
wherein the first factor is α and
the second factor is 1−
α
.- View Dependent Claims (2, 3, 4)
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4. The user equipment of claim 1 wherein a maximum allowed time slot delay is Dmax-allowed and the determined quality, α
- , is determined by;
- , is determined by;
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5. A user equipment having its transmission power level controlled and using a spread spectrum time division duplex technique using frames with time slots for communication comprising:
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means for receiving, during a first time slot, a first communication and transmitting an amplified second communication in a second time slot;
a channel estimation device coupled to the receiving means for producing channel information;
a data estimation device coupled to the receiving means and the channel estimation device for producing interpreted data;
a power measurement device responsive to the channel information for producing a measurement of a received power level of the first communication;
a pathloss estimation device responsive to the measured received power level for producing a pathloss estimate for the first communication;
a quality measurement device for producing a quality measurement based at least in part upon a time separation of the first time slot and a second time slot;
a transmit power calculation device responsive to the pathloss estimation and the quality measurement for producing a power control signal based at least in part upon the path loss estimate weighted by a first factor and a long term pathloss estimate weighted by a second factor, wherein the first and second factors are based in part on the quality measurement; and
an amplifier responsive to the power control signal and a second communication to be transmitted in the second time slot for amplifying the second communication as a function of the power control signal to produce the amplified second communication. - View Dependent Claims (6, 7, 8)
a data generator for producing communication data;
a spreading and training sequence insertion device having the communication data for producing the second communication in the second time slot; and
a modulator having an input configured to receive the amplified second communication for modulating the amplified second communication prior to transmission.
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7. The user equipment of claim 5 further comprising:
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a demodulator for converting the first communication to produce a baseband signal; and
wherein both the channel estimation device and the data estimation device have an input configured to receive the baseband signal.
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8. The user equipment of claim 5 wherein the quality measurement is in the range of zero to one and the first factor is the quality measurement and the second factor is one minus the quality measurement.
Specification