RU2001130046A - Forward link power control of multiple data streams transmitted to a mobile station using a common power control channel - Google Patents

Claims (57)

1. In a mobile radiotelephone communication system, a method for controlling transmission power levels of a plurality of different data streams transmitted from at least one base station to a mobile station, comprising the steps of: (a) transmitting a first data stream of at least from one base station to the mobile station, and transmitting a second data stream from at least one base station to the mobile station, (b) receiving the first and second data streams in the mobile station, (c) generating a first control command stream m power in the mobile station in accordance with the first or second received data stream, (d) generate a power control signal in the mobile station from the first power control command stream, (e) transmit the power control signal from the mobile station to at least one base station , (f) receive a power control signal in at least one base station, (g) form a first received stream of power control commands from a received power control signal in at least one base station, and (h) control the transmit power level of the first data stream from at least one base station in accordance with the first received power control command stream and control the transmit power level of the second data stream from at least one base station in accordance with the first received power control command stream . 2. The method according to claim 1, characterized in that the radiotelephone communication system includes first and second base stations, and step (a) comprises (a) transmitting a first data stream from the first and second base stations to a mobile station and transmitting a second stream data from the second base station to the mobile station, step (b) comprises (b) receiving, in the mobile station, a first data stream from the first base station and from the second base station and receiving a second data stream from the second base station in the mobile station, step (c ) contains (c) the formation of the first a current of power control commands in a mobile station, the first stream of power control commands being determined in accordance with one of the first or second data streams received from the first base station, and generating a second stream of power control commands in the mobile station, the second stream of power control commands in accordance with the second data stream received from the second base station, step (d) comprises (d) generating an alternating power control signal in the mobile station by changing the first and second streams of power control commands, step (e) comprises (e) transmitting the power control signal interleaved from the mobile station to the first and second base stations, step (f) comprising (f) receiving the power control signal interleaved in the first and the second base station, step (g) comprises (g) generating a first received stream of power control commands in a first base station by reverse alternating the received power control signal with alternation, and generating a second received stream of command commands power in the second base station by deinterleaving the received interleaved power control signal, and step (h) comprises (h) controlling a transmit power level of a first data stream that is transmitted from the first base station in accordance with a first received power control command stream transmit power level of the second data stream, which is transmitted from the first base station in accordance with the first received power control command stream, transmit power level control a second data stream that is transmitted from the second base station in accordance with the second received stream of power control commands. 3. The method according to claim 1, characterized in that the radiotelephone communication system includes a first and second base station, and step (a) comprises (a) transmitting a first data stream from the first and second base stations to a mobile station, and transmitting a second a data stream from the first and second base stations to the mobile station, step (b) comprises (b) receiving at the mobile station a first data stream from the first base station and from the second base station, and receiving a second data stream from the first base station in the mobile station and from the second base station, step ( ) comprises (c) generating a first stream of power control commands in the mobile station, the first stream of power control commands being determined in accordance with one of the first or second data stream received from the first base station, and generating a second stream of power control commands in the mobile station, moreover, the second stream of power control commands is determined in accordance with one of the first or second data streams received from the second base station, step (d) comprises (d) generating a control signal m with interleaving in the mobile station by interleaving the first and second streams of power control commands, step (e) comprises (e) transmitting a power control signal interleaving from the mobile station to the first and second base stations, step (f) comprises (f) receiving a signal alternating power control in the first and second base station, step (g) comprises (g) generating a first received stream of power control commands in f of the first base station by reverse alternating the received power control signal with alternating and generating a second received stream of power control commands in the second base station by deinterleaving the received power control signal with alternation, and step (h) comprises (h) controlling the transmit power level of the first data stream that is transmitted from the first base station in accordance with the first received power control command stream, controlling the transmit power level of the second data stream, which is transmitted from the first base station in accordance with the first received command stream power control, controlling a transmit power level of a first data stream that is transmitted from a second base station in accordance with a second received power control command stream, and controlling a transmit power level of a second data stream that is transmitted from a second base station in accordance with a second received control command stream power. 4. The method according to claim 3, characterized in that the first received stream of power control commands corresponds essentially to the first stream of power control commands determined in step (c). 5. The method according to claim 4, characterized in that the second received stream of power control commands corresponds essentially to the second stream of power control commands determined in step (c). 6. The method according to claim 1, characterized in that the radiotelephone communication system includes a first set of two or more base stations, the first set of base stations including at least the first and second base stations, and step (a ) contains (a) transmitting a first data stream from each base station from a first set of base stations to a mobile station, and transmitting a second data stream from a second base station to a mobile station, step (b) comprises (b) receiving a first data stream from each base stations of the first set of base stations anci in the mobile station and receiving a second data stream from the second base station in the mobile station, step (c) comprises (c) generating a first plurality of power control command streams in the mobile station, wherein each power control command stream in the first plurality of power control command streams is associated with one of the base stations of the first set of base stations, each power control command stream in the first set, different from the power control stream associated with the second base station, is determined in according to the first data stream received from one of the base stations of the first set of base stations, and the power control command stream in the first set associated with the second base station is determined in accordance with one of the first or second data streams received from the second base station, step (d) comprises (d) generating a power control signal interleaved in the mobile station by interleaving the first plurality of power control command streams, step (e) comprising (e) transmitting the power control signal c interleaving from the mobile station to the base stations of the first set of base stations, step (f) comprises (f) receiving a power control signal, alternating at base stations of the first set of base stations, step (g) comprising (g) generating a first plurality of received power control command streams wherein each of the received streams of power control commands in the first set is generated in a different one of the base stations of the first set of base stations by reverse alternating the received power control signal with interleaving, and the first set includes a received stream of power control commands associated with the second base station, and step (h) comprises (h) controlling a transmit power level of a first data stream that is transmitted from each base station of a first set of base stations different from the second base station, according to the corresponding one of the first plurality of received streams of power control commands, and controlling the transmit power level of the first and second data streams transmitted from the second base station and in accordance with the received stream of power control commands associated with the second base station. 7. The method according to claim 1, characterized in that the first data stream is a voice message signal. 8. The method according to claim 7, characterized in that the second data stream is a facsimile transmission. 9. The method according to claim 7, characterized in that the second data stream is a transmission over the Internet. 10. The method according to claim 1, characterized in that the mobile station generates a first stream of power control commands in step (c) by monitoring the error rate associated with the first or second received data stream. 11. The method according to claim 1, characterized in that the mobile station generates a first stream of power control commands in step (c) by monitoring the signal-to-noise ratio associated with the first or second received data stream. 12. The method according to claim 1, characterized in that each of the power control commands in the first stream of power control commands is a command to increase or decrease the transmission power associated with the first or second data streams transmitted in step (a). 13. The method according to claim 1, characterized in that the first and second data streams are transmitted to the mobile station in step (a) in a common frequency band. 14. The method according to item 13, characterized in that the first and second data streams are transmitted to the mobile station using modulation based on code division multiple access. 15. The method according to claim 2, characterized in that the first stream of power control commands has a first bit rate in the interleaved power control signal, and the second stream of power control commands has a second bit rate in the interleaved power control signal. 16. The method according to claim 3, characterized in that the first stream of power control commands has a first bit rate in the interleaved power control signal, and the second stream of power control commands has a second bit rate in the interleaved power control signal. 17. The method according to claim 2, characterized in that the mobile station is in the flexible switching mode between the first and second base stations when performing steps (a) to (h). 18. The method according to claim 3, characterized in that the mobile station is in the flexible switching mode between the first and second base stations when performing steps (a) to (h). 19. In a mobile radiotelephone communication system, a method for controlling transmission power levels of a plurality of different data streams transmitted from at least one base station to a mobile station, comprising the steps of: (a) transmitting a first data stream of at least from one base station to the mobile station, and transmitting a second data stream from at least one base station to the mobile station, (b) receiving the first and second data streams in the mobile station, (c) generating a first control command stream m sensitivity in the mobile station in accordance with the first received data stream, and form a second stream of power control commands in the mobile station in accordance with the second received data stream, (d) generate a power control signal in the mobile station by interleaving the first and second streams of power control commands, (e) transmitting the interleaved power control signal from the mobile station to at least one base station; (f) receiving the interleaved power control signal in at least one base station stations, (g) form the first and second received streams of power control commands for the deinterleaving paths of the received power control signal with alternation in at least one base station, and (h) control the transmit power level of the first data stream from at least one base station in accordance with the first received stream of power control commands, and control the transmit power level of the second data stream from at least one base station in accordance with the second received stream of control commands Nia power. 20. The method according to claim 19, characterized in that the radiotelephone communication system includes first and second base stations, and step (a) comprises (a) transmitting a first data stream from the first and second base stations to a mobile station, and transmitting a second a data stream from the second base station to the mobile station, step (b) comprises (b) receiving, in the mobile station, a first data stream from the first base station and from the second base station, and receiving a second data stream from the second base station in the mobile station, step ( c) contains (c) the formation of the first a second power control command stream in the mobile station, wherein the first power control command stream is determined in accordance with the first data stream received from the first base station, and the second power control command stream is determined in accordance with the first data stream received from the second base station, and generating a third stream of power control commands in the mobile station, the third stream of power control commands being determined in accordance with the second data stream received from the second ba of the new station, step (d) comprises (d) generating an alternating power control signal in the mobile station by interleaving the first, second and third streams of power control commands, step (e) comprising (e) transmitting the alternating power control signal from the mobile station to the first and second base stations, step (f) comprises (f) receiving the power control signal interleaved in the first and second base stations, step (g) comprising (g) generating the first and second received power control command streams in the first base c by reversing the received power control signal with alternation and generating a third received stream of power control commands in the second base station by reversing interleaving the received power control signal with alternation, step (h) comprises (h) controlling the transmit power level of the first data stream that is transmitted from the first base station in accordance with the first received stream of power control commands, controlling the transmit power level of the second data stream, which is not is transmitted from the first base station in accordance with the second received stream of power control commands, controlling the transmit power level of the second data stream, which is transmitted from the second base station in accordance with the third received stream of power control commands. 21. The method according to claim 19, characterized in that the radiotelephone communication system includes first and second base stations, and step (a) comprises (a) transmitting a first data stream from the first and second base stations to a mobile station, and transmitting a second a data stream from the first and second base stations to the mobile station, step (b) comprises (b) receiving at the mobile station a first data stream from the first base station and from the second base station, and receiving a second data stream from the first base station in the mobile station and from the second base station, stage (c) comprises (c) generating a first and second stream of power control commands in a mobile station, wherein the first stream of power control commands is determined in accordance with the first data stream received from the first base station, and the second stream of power control commands is determined in accordance with the first the data stream received from the second base station, and the formation of the third and fourth streams of power control commands in the mobile station, and the third stream of power control commands is determined in accordance and with a second data stream received from the first base station, and the fourth stream of power control commands is determined in accordance with the second data stream received from the second base station, step (d) comprises (d) generating an interleaved power control signal in the mobile station by interleaving the first, second, third and fourth streams of power control commands, step (e) comprises (e) transmitting a power control signal interleaved from the mobile station to the first and second base stations, step (f) comprises (f) receiving an alternating power control signal in the first and second base station, step (g) comprises (g) generating the first and second received power control command streams in the first base station by reverse alternating the received alternating power control signal, and generating the third and fourth received the power control command streams in the second base station by deinterleaving the received interleaved power control signal, and step (h) comprises (h) transmit power level control the first data stream that is transmitted from the first base station in accordance with the first received power control command stream, transmit power control of the second data stream that is transmitted from the first base station in accordance with the second received power control command stream, transmit power control of the first a data stream that is transmitted from the second base station in accordance with the third received stream of power control commands, and controlling the transmit power level of the second th data stream, which is transmitted from the second base station in accordance with the fourth received stream of power control commands. 22. The method according to claim 19, characterized in that the radiotelephone communication system includes a first set of two or more base stations, and the first set of base stations includes at least a first and a second base station, and step (a ) comprises (a) transmitting a first data stream from each base station of a first set of base stations to a mobile station, and transmitting a second data stream from a second base station to a mobile station, step (b) comprises (b) receiving a first data stream from each base station the first set of base stations in the mobile station, and receiving a second data stream from the second base station in the mobile station, step (c) comprises (c) generating a first plurality of power control command streams in the mobile station, wherein each power control command stream in the first set is determined in accordance with the first stream data received from one of the base stations of the first set of base stations, and the formation of another stream of power control commands in the mobile station, and another stream of power control commands is determined in accordance with In accordance with the second data stream received from the second base station, step (d) comprises (d) generating an interleaved power control signal in the mobile station by interleaving the first plurality of power control instruction streams and another power control instruction stream, step (e) comprises ( e) transmitting an alternating power control signal from a mobile station to base stations of a first set of base stations, step (f) comprises (f) receiving an alternating power control signal in base stations of a first set of bases x stations, step (g) comprises (g) generating a first set of received power control command streams, each of the received power control command streams in the first set being formed in a different one of the base stations of the first set of base stations by reverse alternating the received power control signal with interleaving, and generating another received stream of power control commands, wherein another received stream of power control commands is generated in the second base station by inverting interleaving the received interleaved power control signal, and step (h) comprises (h) controlling a transmit power level of a first data stream that is transmitted from each base station of a first set of base stations according to a corresponding one of a first plurality of received power control command streams, and controlling the transmit power level of the second data stream, which is transmitted from the second base station in accordance with another received power control command stream. 23. The method according to item 22, wherein the radiotelephone communication system includes a second set of two or more base stations, and the second set of base stations is a subset of the first set of base stations, and step (a) comprises (a) transmitting the first a data stream from a first set of base stations to a mobile station, and transmitting a second data stream from a second set of base stations to a mobile station, step (b) comprises (b) receiving a first data stream from each base station of a first set of base stations in a mobile station, and the reception a data stream from each base station of a second set of base stations in the mobile station, step (c) comprises (c) generating a first plurality of power control command streams in the mobile station, wherein each power control command stream in the first set is determined in accordance with the first data stream received from one of the base stations of the first set of base stations, and the formation of the second plurality of streams of power control commands in the mobile station, each stream of power control commands in A second set is determined in accordance with a second data stream received from one of the base stations of the second set of base stations, step (d) comprises (d) generating an interleaved power control signal in the mobile station by interleaving the first multiple streams of power control commands and the second multiple streams power control commands, step (e) comprises (e) transmitting a power control signal interleaved from the mobile station to base stations of a first set of base stations, step (f) comprises (f) receiving a signal to control power interleaved in base stations of a first set of base stations, step (g) comprises (g) generating a first set of received power control command streams, each of the received power control command streams in the first set being formed in a different one of the base stations of the first set base stations by reverse alternating the received power control signal with alternation, and generating a second set of received power control command streams, each of which of the second streams of power control commands in the second set is generated in a different one of the base stations of the second set of base stations by reverse interleaving the received power control signal with alternation, and step (h) comprises (h) controlling the transmit power level of the first data stream that is transmitted from each a base station of a first set of base stations according to a corresponding one of a first plurality of received power control command streams, and controlling a transmit power level of a second eye data, which is transmitted the second set of base stations from each base station in accordance with a corresponding one of the second plurality of received streams of power control commands. 24. In a mobile radiotelephone communication system, a method for controlling transmission power levels of a plurality of different data streams transmitted from at least a first and second base station to a mobile station, comprising the steps of: (a) transmitting a first data stream from a first and the second base stations to the mobile station, and transmitting the second data stream from the first base station to the mobile station, (b) receive in the mobile station a first data stream from the first base station and from the second base station, and receive a second data stream from the first base station in the mobile station, (c) generating a first stream of power control commands in the mobile station, the first stream of power control commands being determined in accordance with the first data stream received from the first base station and the first data stream received from the second base station, and form a second stream of power control commands in the mobile station, and the second stream of power control commands is determined in accordance with the second data stream received from the first base stations, (d) generate the power control signal in the mobile station from the first stream of power control commands and the second stream of power control commands, (e) transmit the power control signal from the mobile station to the first base station, (f) receive the power control signal in the first base stations, (g) form a first received stream of power control commands and a second received stream of power control commands from the received power control signal in the first base station, and (h) control the transmit power level n the first- data stream from the first base station in accordance with the first received stream of power control commands, and controlling the transmit power level of the second data stream from the first base station in accordance with the second received stream of power control commands. 25. The method according to paragraph 24, wherein the first received stream of power control commands corresponds to essentially the first stream of power control commands determined in step (c), and the second received stream of power control commands corresponds to essentially the second stream power control commands determined in step (c). 26. The method according to paragraph 24, wherein step (c) further comprises generating a third stream of power control commands in the mobile station, which is different from the first stream of power control commands, the third stream of power control commands being determined in accordance with the first data stream received from the first base station and the first data stream received from the second base station, step (d) further comprises generating a second power control signal in the mobile station from the first command stream yn power control, a second stream of power control commands and a third stream of power control commands, step (e) further comprises transmitting a power control signal from the mobile station to the second base station, step (f) further comprises receiving a power control signal in the second base station, step ( g) further comprises generating a third received stream of power control commands from the received power control signal in the second base station, and step (h) further comprises level control m of transmit power of the first data stream from the second base station in accordance with the third received stream of power control commands. 27. The method according to paragraph 24, wherein step (a) comprises (a) transmitting a first data stream from a first active set of three or more base stations to a mobile station, and transmitting a second data stream from a second active set of one or more base stations to the mobile station, the first and second base stations both entering the first active set of base stations, and the first base station entering the second active set of base stations, step (b) comprises (b) receiving, in the mobile station, the first stream data from each base station and a first active set of base stations and receiving a second data stream from each base station of a second set of base stations in the mobile station, and step (c) comprises (c) generating a first stream of power control commands in the mobile station, the first stream of power control commands being determined in in accordance with the first data stream received from each base station of the first active set of base stations, and the formation of the second stream of power control commands in the mobile station, the second stream of control commands Lenia capacity is determined in accordance with the second data stream received from the second active set of base stations. 28. The method according to item 27, wherein the second active set of base stations is a subset of the first active set of base stations. 29. The method according to paragraph 24, wherein the first data stream is a voice message signal. 30. The method according to clause 29, wherein the second data stream is a facsimile transmission. 31. The method according to clause 29, wherein the second data stream is a transmission on the Internet. 32. The method according to paragraph 24, wherein the mobile station generates a first stream of power control commands in step (c) by monitoring the error rate associated with the first received data stream from the first base station, and the error rate associated with the first received data stream from the second base station. 33. The method according to paragraph 24, wherein the mobile station generates a first stream of power control commands in step (c) by monitoring the error rate associated with the first received data stream from the first base station, and the error rate associated with the first received data stream from the second base station. 34. The method according to paragraph 24, wherein the mobile station generates a first stream of power control commands in step (c) by monitoring the signal-to-noise ratio associated with the first received data stream from the first base station, and the signal-to-noise ratio, associated with the first received data stream from the second base station. 35. The method according to paragraph 24, wherein each of the power control commands in the first stream of power control commands is a command to increase or decrease the transmission power associated with the first data stream transmitted from the first base station in step (a). 36. The method according to clause 35, wherein each of the power control commands in the second stream of power control commands is a command to increase or decrease the transmit power associated with the second data stream transmitted from the first base station in step (a). 37. The method according to p. 26, wherein each of the power control commands in the third stream of power control commands is a command to increase or decrease the transmission power associated with the first data stream transmitted from the second base station in step (a). 38. The method according to paragraph 24, wherein the first and second data streams are transmitted to the mobile station in step (a) in a common frequency band. 39. The method according to § 38, wherein the first and second data streams are transmitted to the mobile station with using code division multiple access modulation. 40. The method according to paragraph 24, wherein the mobile station is in a flexible switching mode between the first and second base stations when performing steps (a) to (h). 41. The method according to p, characterized in that the mobile station is in the flexible switching mode between the first and second base stations when performing steps (a) to (h). 42. The method according to item 27, wherein the mobile station is in the flexible switching mode between the first and second base stations when performing steps (a) to (h). 43. In a mobile radiotelephone communication system, a method for controlling transmission power levels of a plurality of different data streams transmitted from at least a first and second base station to a mobile station, comprising the steps of: (a) transmitting a first data stream from a first and the second base stations to the mobile station, and transmitting the second data stream from the first base station to the mobile station, (b) receive in the mobile station a first data stream from the first base station and from the second base station, and receive a second data stream from the first base station in the mobile station, (c) generating a first stream of power control commands in the mobile station, the first stream of power control commands being determined in accordance with the first data stream received from the first base station and the first data stream received from the second base station, and form a second stream of power control commands in the mobile station, and the second stream of power control commands is determined in accordance with the second data stream received from the first base stations, (d) generate the power control signal in the mobile station from the first stream of power control commands and the second stream of power control commands, (e) transmit the power control signal from the mobile station to the first base station and the second base station, (f) receive the control signal power in the first base station and the second base station, (g) form the first received stream of power control commands in the first base station and the second received stream of power control commands from the received power control signal in the second base station, and (h) control the transmit power level of the first data stream from the first base station in accordance with the first received power control command stream, control the transmit power level of the second data stream from the first base station in accordance with the first received control command stream power, and control the transmit power level of the first data stream from the second base station in accordance with the second received stream of power control commands. 44. The method according to item 43, wherein the second received stream of power control commands corresponds to essentially the first stream of power control commands determined in step (c), and the first received stream of power control commands corresponds to essentially the second stream power control commands determined in step (c). 45. The method according to item 43, wherein the first data stream is a voice message signal. 46. The method according to item 45, wherein the second data stream is a facsimile transmission. 47. The method according to item 45, wherein the second data stream is a transmission on the Internet. 48. The method according to item 43, wherein the mobile station generates a first stream of power control commands in step (c) by monitoring the error rate associated with the first received data stream from the first base station and the error rate associated with the first received data stream from the second base station. 49. The method according to item 43, wherein the mobile station generates a first stream of power control commands in step (c) by monitoring the error rate associated with the first received data stream from the first base station and the error rate associated with the first received data stream from the second base station. 50. The method according to item 43, wherein the mobile station generates a first stream of power control commands in step (c) by monitoring the signal-to-noise ratio associated with the first received data stream from the first base station, and the signal-to-noise ratio, associated with the first received data stream from the second base station. 51. The method according to item 43, wherein each of the power control commands in the first stream of power control commands is a command to increase or decrease the transmit power associated with the first data stream transmitted from the second base station in step (a). 52. The method according to 51, wherein each of the power control commands in the second stream of power control commands is a command to increase or decrease the transmission power associated with the first data stream transmitted from the first base station in step (a). 53. The method according to paragraph 52, wherein each of the power control commands in the second stream of power control commands is a command to increase or decrease the transmit power associated with the second data stream transmitted from the first base station in step (a). 54. The method according to item 43, wherein the first and second data streams are transmitted to the mobile station in step (a) in the common frequency band. 55. The method according to item 54, wherein the first and second data streams are transmitted to the mobile station using modulation based on code division multiple access. 56. The method according to item 43, wherein the mobile station is in a flexible switching mode between the first and second base stations when performing steps (a) to (h). 57. In a mobile radiotelephone communication system, a method for controlling transmission power levels of a first data stream that is transmitted to a mobile station from one or more base stations of a first active set of base stations, and transmission power levels of a second data stream that is transmitted from one or more base stations of a second a set of active base stations in a mobile station, comprising the steps of: (a) transmitting a first data stream from a first active set of base stations to a mobile station, and transmit the second data stream from the second active set of base stations to the mobile station, (b) receive the first data stream from the first active set of base stations in the mobile station, and receive the second data stream from the second active set of base stations in the mobile station, (c) form a first stream of power control commands in the mobile station, the first stream of power control commands being determined in accordance with a first data stream received from each base station of a second active set of base stations, and a second data stream received from each base station of the second active set of base stations, and form a second stream of power control commands in the mobile station, and the second stream of power control commands is determined in accordance with the first data stream received from each base station of the first active set of base stations but not the second set of active base stations, (d) generate a power control signal in the mobile station from the first stream of power control commands and the second stream of commands i power, (e) transmit the power control signal from the mobile station to the base stations of the first and second active sets, (f) receive the power control signal in the first base station, the first base station being in the first active set and second active set of base stations, (g) generating a first received stream of power control commands in a first base station in accordance with a received power control signal, wherein the first received stream of power control commands corresponds to a first command stream d power control generated in the mobile station, (h) control the transmit power level of the first data stream from the first base station in accordance with the first received power control command stream, and control the transmit power level of the second data stream from the first base station in accordance with the first received by a power control command stream, (i) receive a power control signal in a second base station, the second base station being in the first active set of base stations, but not in the second an active set of base stations, (j) form a second received stream of power control commands in the second base station in accordance with the received power control signal, the second received stream of power control commands corresponding to the second stream of power control commands generated in the mobile station, and (k) control the transmit power level of the first data stream from the second base station in accordance with the second received power control command stream.