초록 ▼

A forward link power control mechanism measures the reverse link power control bits which are transmitted on the forward traffic channel. At the remote station, the reverse link power control bits from multiples base stations or multiple signal paths are measured, combined, and filtered to yield an

A forward link power control mechanism measures the reverse link power control bits which are transmitted on the forward traffic channel. At the remote station, the reverse link power control bits from multiples base stations or multiple signal paths are measured, combined, and filtered to yield an improved measurement of the forward link signal quality. The reverse link power control bits which are deemed unreliable are omitted from use in the power control loop. The remote station generates a set of forward link power control bit in accordance with the measurements and transmits these bits to all base stations in communication with the remote station. Each base station adjusts its gain of the forward traffic channel in accordance to its measurement of the forward link power control bit.

대표청구항 ▼

What is claimed is: 1. A method of controlling transmit power of a forward link signal, comprising: receiving by a receiver a forward link signal comprising at least one control bit and at least one data bit; measuring an amplitude value of the at least one control bit, wherein a transmit power lev

What is claimed is: 1. A method of controlling transmit power of a forward link signal, comprising: receiving by a receiver a forward link signal comprising at least one control bit and at least one data bit; measuring an amplitude value of the at least one control bit, wherein a transmit power level of the at least one control bit is independent of a rate associated with the transmission of the at least one data bit; comparing the measured amplitude value against a target energy level; and generating a forward link power control value based on the comparison. 2. The method of claim 1 further comprising: transmitting the forward link power control value. 3. The method of claim 1, wherein the forward link power control value is a power control bit. 4. The method of claim 1, wherein the generation is repeated 800 times per second. 5. The method of claim 1 further comprising: adjusting the target energy level. 6. The method of claim 5, wherein the adjustment is repeated 20 times per second. 7. The method of claim 5, wherein the adjustment occurs once for each frame transmitted in the forward link signal, wherein said each frame comprises control and data bits. 8. The method of claim 5, wherein the adjustment comprises: increasing the target energy level by an up-step amount if a frame is received without error; and decreasing the target energy level by a down-step amount if a frame is received with at least one error, wherein the up-step amount is greater than the down-step amount and the frame comprises control and data bits. 9. The method of claim 1, wherein the measurement comprises: adjusting the amplitude of the at least one control bit in accordance with an amplitude of a received pilot signal; and filtering the adjusted amplitude of the at least one control bit, said filtered amplitude being used to generate the forward link power control value. 10. The method of claim 1, wherein the measurement comprises: filtering the amplitude of the at least one control bit, said filtered amplitude being used to generate the forward link power control value. 11. An apparatus for controlling transmit power, comprising: means for measuring an amplitude value of at least one control bit that was transmitted in a forward link signal also comprising at least one data bit, wherein a transmit power level of the at least one control bit is independent of a rate associated with the transmission of the at least one data bit; means for comparing the measured amplitude value against a target energy level; and means for generating a forward link power control value based on the comparison. 12. The apparatus of claim 11 further comprising: means for transmitting the forward link power control value. 13. The apparatus of claim 11, wherein the forward link power control value is a power control bit. 14. The apparatus of claim 11, wherein the generation of the forward link power control value is repeated 800 times per second. 15. The apparatus of claim 11 further comprising: means for adjusting the target energy level. 16. The apparatus of claim 15, wherein the adjustment of the target energy level is repeated 20 times per second. 17. The apparatus of claim 15, wherein the adjustment of the target energy level occurs once for each frame transmitted in the forward link signal, wherein said each frame comprises control and data bits. 18. The apparatus of claim 15, wherein the adjustment means comprises: means for increasing the target energy level by an up-step amount if a frame is received without error; and means for decreasing the target energy level by a down-step amount if a frame is received with at least one error, wherein the up-step amount is greater than the down-step amount and the frame comprises control and data bits. 19. The apparatus of claim 11, wherein the measurement means comprises: means for adjusting the amplitude of the at least one control bit in accordance with an amplitude of a received pilot signal; and means for filtering the adjusted amplitude of the at least one control bit, said filtered amplitude being used to generate the forward link power control value. 20. The apparatus of claim 11, wherein the measurement means comprises: means for filtering the amplitude of the at least one control bit, said filtered amplitude being used to generate the forward link power control value. 21. A remote station, comprising: a receiver configured to receive a forward link signal comprising at least one control bit and at least one data bit; and a power control processor configured to: measure an amplitude value of the at least one control bit, wherein a transmit power level of the at least one control bit is independent of a rate associated with the transmission of the at least one data bit; compare the measured amplitude value against a target energy level; and generate a forward link power control value based on the comparison. 22. The remote station of claim 21 further comprising: a transmitter configured to transmit the forward link power control value. 23. The remote station of claim 21, wherein the forward link power control value is a power control bit. 24. The remote station of claim 21, wherein the generation of the forward link power control value is repeated 800 times per second. 25. The remote station of claim 21, wherein the power control processor comprises a threshold adjust circuit configured to adjust the target energy level. 26. The remote station of claim 25, wherein the adjustment of the target energy level is repeated 20 times per second. 27. The remote station of claim 25, wherein the adjustment of the target energy level occurs once for each frame transmitted in the forward link signal, wherein said each frame comprises control and data bits. 28. The remote station of claim 25, wherein the threshold adjust circuit is further configured to: increase the target energy level by an up-step amount if a frame is received without error; and decrease the target energy. level by a down-step amount if a frame is received with at least one error, wherein the up-step amount is greater than the down-step amount and the frame comprises control and data bits. 29. The remote station of claim 21, wherein the power control processor is further configured to: adjust the amplitude of the at least one control bit in accordance with an amplitude of a received pilot signal; and filter the adjusted amplitude of the at least one control bit, said filtered amplitude being used to generate the forward link power control value. 30. The remote station of claim 21, wherein the power control processor is further configured to: filter the amplitude of the at least one control bit, said filtered amplitude being used to generate the forward link power control value.