IPC분류정보
국가/구분 |
United States(US) Patent
등록
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국제특허분류(IPC7판) |
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출원번호 |
US-0360169
(2003-02-05)
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발명자
/ 주소 |
- Chen,Tao
- Wei,Yongbin
- Jain,Avinash
- Tiedemann, Jr.,Edward G.
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출원인 / 주소 |
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인용정보 |
피인용 횟수 :
51 인용 특허 :
13 |
초록
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Techniques for power control of serving and non-serving base stations are disclosed. In one aspect, power control commands for a plurality of base stations are combined to form a single command to control the plurality of base control. In another aspect, an "Or-of-up" rule is used to combine the pow
Techniques for power control of serving and non-serving base stations are disclosed. In one aspect, power control commands for a plurality of base stations are combined to form a single command to control the plurality of base control. In another aspect, an "Or-of-up" rule is used to combine the power control commands. In yet another aspect, a channel quality indicator is used to power control a serving base station. Various other aspects are also presented. These aspects have the benefit of providing efficient power control between a mobile station and both serving and non-serving base stations, thus avoiding excessive interference and increasing capacity.
대표청구항
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What is claimed is: 1. An apparatus comprising: a receiver for receiving a plurality of power control channels, each power control channel comprising a sequence of slots, at least one of the plurality of power control channels comprising power control commands transmitted in at least one subset of
What is claimed is: 1. An apparatus comprising: a receiver for receiving a plurality of power control channels, each power control channel comprising a sequence of slots, at least one of the plurality of power control channels comprising power control commands transmitted in at least one subset of the sequences of slots, wherein a first power control channel comprises power control commands in each of the sequence of slots; and a transmitter for transmitting signals at a transmit power level; and a processor for adjusting the transmit power level during each slot in response to the plurality of power control channels, and the processor: combines any power control commands received in a slot from the remainder of the plurality of power control channels to form a combined power control command; adjusts the transmit power level for the slot in proportion to a first parameter in accordance with the power control command of the first power control channel when the remainder of the plurality of power control channels do not contain a power control command for the slot; adjusts the transmit power level for the slot in proportion to a second parameter in accordance with the combined power control command when the combined power control command for the slot, if any, is the same as the power control command of the first power control channel; and decreases the transmit power level for the slot in proportion to a third parameter otherwise. 2. An apparatus comprising: a receiver for receiving a plurality of power control channels, each power control channel comprising a sequence of slots, at least one of the plurality of power control channels comprising power control commands transmitted in at least one subset of the sequences of slots; wherein the ratio of the rare of power control commands in the remainder of the plurality of power control channels to the rate of power control commands in the first power control channels is K; the second parameter is set to K multiplied by the first parameter; the third parameter is set to K-1 multiplied by the first parameter; a transmitter for transmitting signals at a transmit power level; and a processor for adjusting the transmit power level during each slot in response to the plurality of power control channels. 3. An apparatus comprising: a receiver for receiving a plurality of power control channels, each power control channel comprising a sequence of slots, at least one of the plurality of power control channels comprising power control commands transmitted in at least one subset of the sequences of slots, wherein a first power control channel comprises power control commands in each of the sequence of slots; the remainder of the plurality of power control channels comprises power control commands in every K slots; and the processor: combines any power control commands received in a slot from the remainder of the plurality of power control channels to form a combined power control command; adjusts the transmit power level for the slot in proportion to a first parameter in accordance with the power control command of the first power control channel when the remainder of the plurality of power control channels do not contain a power control command for the slot; and adjusts the transmit power level for the slot in proportion to a second parameter otherwise, the second parameter computed as the sum of the K most recent power control commands received on the first power control channel and K multiplied by the combined power control command; a transmitter for transmitting signals at a transmit power level; and a processor for adjusting the transmit power level during each slot in response to the plurality of power control channels. 4. An apparatus, configurable in a first mode or a second mode, comprising: a receiver for: receiving a first channel from a remote station when operating in the first mode, the first channel comprising channel quality indicators; and receiving a second channel from the remote station when operating in the second mode, the second channel a dedicated power channel comprising power control commands; a processor for: configuring the apparatus in the first or second mode; determining a transmit power level in response to a channel quality indicator when configured in the first mode; and determining the transmit power level in response to a power control command when configured in the second mode; and a transmitter for transmitting to the remote station in accordance with the transmit power level. 5. The apparatus of claim 4, further comprising: a power estimator for measuring the power of the first or second channels and generating a signal power measurement; and wherein: the processor further generates a reverse link power control command in response to the signal power measurement; and the transmitter transmits at least one reverse link power control commands to the remote station. 6. A wireless communication device, configurable in a first mode or a second mode, comprising: a receiver for: receiving a first channel from a remote station when operating in the first mode, the first channel comprising channel quality indicators; and receiving a second channel from the remote station when operating in the second mode, the second channel a dedicated power channel comprising power control commands; a processor for: configuring the apparatus in the first or second mode; determining a transmit power level in response to a channel quality indicator when configured in the first mode; and determining the transmit power level in response to a power control command when configured in the second mode; and a transmitter for transmitting to the remote station in accordance with the transmit power level. 7. A wireless communication system, including a wireless communication device, configurable in a first mode or a second mode, comprising: a receiver for: receiving a first channel from a remote station when operating in the first mode, the first channel comprising channel quality indicators; and receiving a second channel from the remote station when operating in the second mode, the second channel a dedicated power channel comprising power control commands; a processor for: configuring the apparatus in the first or second mode; determining a transmit power level in response to a channel quality indicator when configured in the first mode; and determining the transmit power level in response to a power control command when configured in the second mode; and a transmitter for transmitting to the remote station in accordance with the transmit power level. 8. A method of power control, comprising: receiving a plurality of power control channels, each power control channel comprising a sequence of slots, at least one of the plurality of power control channels comprising power control commands transmitted in at least one subset of the sequences of slots, wherein a first power control channel comprises power control commands in each of the sequence of slots; and transmitting signals at a transmit power level; and adjusting the transmit power level during each slot in response to the plurality of power control channels, wherein the transmit power adjusting comprises: combining any power control commands received in a slot from the remainder of the plurality of power control channels to form a combined power control command; adjusting the transmit power level for the slot in proportion to a first parameter in accordance with the power control command of the first power control channel when the remainder of the plurality of power control channels do not contain a power control command for the slot; adjusting the transmit power level for the slot in proportion to a second parameter in accordance with the combined power control command when the combined power control command for the slot, if any, is the same as the power control command of the first power control channel; and decreasing the transmit power level for the slot in proportion to a third parameter otherwise. 9. A method of power control, comprising: receiving a plurality of power control channels, each power control channel comprising a sequence of slots, at least one of the plurality of power control channels comprising power control commands transmitted in at least one subset of the sequences of slots, wherein the ratio of the rate of power control commands in the remainder of the plurality of power control channels to the rate of power control commands in the first power control channels is K; the second parameter is set to K multiplied by the first parameter; the third parameter is set to K-1 multiplied by the first parameter; and transmitting signals at a transmit power level; and adjusting the transmit power level during each slot in response to the plurality of power control channels. 10. A method of power control, comprising: receiving a plurality of power control channels, each power control channel comprising a sequence of slots, at least one of the plurality of power control channels comprising power control commands transmitted in at least one subset of the sequences of slots, wherein a first power control channel comprises power control commands in each of the sequence of slots; the remainder of the plurality of power control channels comprises power control commands in every K slots; and transmitting signals at a transmit power level; and adjusting the transmit power level during each slot in response to the plurality of power control channels, wherein the transmit power adjusting comprises: combining any power control commands received in a slot from the remainder of the plurality of power control channels to form a combined power control command; adjusting the transmit power level for the slot in proportion to a first parameter in accordance with the power control command of the first power control channel when the remainder of the plurality of power control channels do not contain a power control command for the slot; and adjusting the transmit power level for the slot in proportion to a second parameter otherwise, the second parameter computed as the sum of the K most recent power control commands received on the first power control channel and K multiplied by the combined power control command. 11. A method of power control, operable in a first mode or a second mode, comprising receiving a first channel from a remote station when operating in the first mode, the first channel comprising channel quality indicators; receiving a second channel from the remote station when operating in the second mode, the second channel a dedicated power channel comprising power control commands; determining a transmit power level in response to a channel quality indicator when operating in the first mode; determining the transmit power level in response to a power control command when configured in the second mode; and transmitting to the remote station in accordance with the transmit power level. 12. The method of claim 11, further comprising: measuring the power of the first or second channels and generating a signal power measurement; generating a reverse link power control command in response to the signal power measurement; and transmitting one or more reverse link power control commands to the remote station. 13. An apparatus, operable in a first mode or a second mode, comprising: means for receiving a first channel from a remote station when operating in the first mode, the first channel comprising channel quality indicators; means for receiving a second channel from the remote station when operating in the second mode, the second channel a dedicated channel comprising power control commands; means for determining a transmit power level in response to a channel quality indicator when operating in the first mode; means for determining the transmit power level in response to a power control command when configured in the second mode; and means for transmitting to the remote station in accordance with the transmit power level. 14. The apparatus of claim 13, further comprising: means for measuring the power of the first or second channels and generating a signal power measurement; means for generating a reverse link power control command in response to the signal power measurement; and means for transmitting one or more reverse link power control commands to the remote station. 15. Processor readable media, operable to perform the following steps: receiving a first channel from a remote station when operating in a first mode, the first channel comprising channel quality indicators; receiving a second channel from the remote station when operating in a second mode, the second channel a dedicated power channel comprising power control commands; determining a transmit power level in response to a channel quality indicator when operating in the first mode; determining the transmit power level in response to a power control command when configured in the second mode; and transmitting to the remote station in accordance with the transmit power level.
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