초록 ▼

A technique for implementing closed loop power control in a Code Division Multiple Access (CDMA) type wireless system which dynamically assigns coded channels on a demand basis. The technique maintains a proper power level, even when no traffic channels are allocated, by determining a link quality m

A technique for implementing closed loop power control in a Code Division Multiple Access (CDMA) type wireless system which dynamically assigns coded channels on a demand basis. The technique maintains a proper power level, even when no traffic channels are allocated, by determining a link quality metric based upon the reverse link power received. This determination is made in response to a heartbeat signal sent at a rate which is only sufficiently fast to maintain code phase lock, for example, depending upon the expected maximum rate at which the subscriber unit will travel.

대표청구항 ▼

1. A method for providing wireless communication of digital signals, the digital signals being communicated between a plurality of wireless subscriber units and a base station, the digital signals being communicated using at least one radio frequency channel via Code Division Multiple Access (CDMA)

1. A method for providing wireless communication of digital signals, the digital signals being communicated between a plurality of wireless subscriber units and a base station, the digital signals being communicated using at least one radio frequency channel via Code Division Multiple Access (CDMA) modulated radio signals, the digital signals also having a given nominal data rate, the method comprising the steps of:a) making available a plurality of subchannels within each CDMA radio channel, wherein a data rate of each subchannel is much less than the nominal data rate of the digital signals;b) allocating available subchannels only on an as-needed basis, with the number of subchannels allocated thereby changing during the duration of a given session;c) on a reverse link, providing a standby mode connection for subscriber units which are powered on, but not presently having traffic channels allocated, the standby mode connection sending a heartbeat signal from the subscriber unit to the base station, the heartbeat signal being sent from the subscriber unit to the base station at a data rate which is sufficiently fast enough to maintain bit synchronization on the reverse link; andd) during the standby mode, sending a link quality report message to the subscriber unit in response to the heartbeat signal, the link quality report message containing a link quality report that is used to control the transmit power level of the subscriber unit.2. A method for providing wireless communication of digital signals, the digital signals being communicated between a plurality of wireless subscriber units a base station, the digital signals being communicated using at least one radio frequency channel via Code Division Multiple Access (CDMA) modulated radio signals, the digital signals also having a given nominal data rate, the method comprising the steps of:a) making available a plurality of subchannels within each CDMA radio channel, wherein a data rate of each subchannel is much less than the nominal data rate of the digital signals;b) allocating available subchannels only on an as-needed basis, with the number of subchannels allocated thereby changing during the duration of a given session;c) on a reverse link, providing a standby mode connection for subscriber units which are powered on, but not presently actively sending data, the standby mode connection sending a heartbeat signal from the subscriber unit to the base station, the heartbeat signal being sent from the subscriber unit to the base station at a data rate which is sufficiently fast enough to maintain bit synchronization on the reverse link, the heartbeat signal being time slotted between inactive subchannels; andd) during the standby mode, sending a link quality report message to the subscriber unit in response to the heartbeat signal, the link quality report message containing a link quality report that is used to control the transmit power level of the subscriber unit.3. A method as in claim 1 or 2 wherein a plurality of subchannels are made available on a single radio frequency carrier by assigning different codes for each subchannel.4. A method as in claim 1 or 2 wherein the link quality report message is sent on a pilot channel.5. A method as in claim 1 or 2 wherein the link quality report message is sent on a sync channel.6. A method as in claim 1 or 2 wherein the link quality report contains a data value indicating an amount by which the subscriber unit should change its transmit power level for the corresponding subchannel.7. A method as in claim 1 or 2 wherein the link quality report contains a data value indicating a bit error rate.8. A method as in claim 1 or 2 wherein the link quality report contains a value indicating noise energy.9. A method as in claim 1 or 2 additionally comprising the step of:calculating a subscriber unit transmit power level using a data value indicated by the link quality report.10. A method as in claim 1 or 2 wherein the link quality report message is sent on a paging channel.11. A system for providing wireless communication of digital signals, the digital signals being communicated between a plurality of wireless subscriber units and a base station, the digital signals being communicated using at least one radio frequency channel via Code Division Multiple Access (CDMA) modulated radio signals, the digital signals also having a given nominal data rate, the system having a base station comprising:a radio transceiver making available a plurality of subchannels within each CDMA radio channel, wherein a data rate of each subchannel is much less than the nominal data rate of the digital signals;a bandwidth manager allocating available subchannels only on an as-needed basis, with the number of subchannels allocated thereby changing during the duration of a given session;the bandwidth manager providing a standby mode connection on a reverse link for subscriber units which are powered on, but not presently having traffic channels allocated;the radio transceiver receiving a heartbeat signal over the standby mode connection from a subscriber unit at a data rate which is sufficiently fast enough to maintain bit synchronization on the reverse link; andthe radio transceiver sending a link quality report message to the subscriber unit during the standby mode in response to the heartbeat signal, the link quality report message containing a link quality report that is used to control the transmit power level of the subscriber unit.12. A system for providing wireless communication of digital signals, the digital signals being communicated between a plurality of wireless subscriber units and a base station, the digital signals being communicated using at least one radio frequency channel via Code Division Multiple Access (CDMA) modulated radio signals, the digital signals also having a given nominal data rate, the system having a base station comprising:a radio transceiver making available a plurality of subchannels within each CDMA radio channel, wherein a data rate of each subchannel is much less than the nominal data rate of the digital signals;a bandwidth manager allocating available subchannels only on an as-needed basis, with the number of subchannels allocated thereby changing during the duration of a given session;the bandwidth manager providing a standby mode connection on a reverse link for subscriber units which are powered on, but not presently actively sending data;the radio transceiver receiving a heartbeat signal over the standby mode connection from a subscriber unit at a data rate which is sufficiently fast enough to maintain bit synchronization on the reverse link, the heartbeat signal being time slotted between inactive subchannels; andthe radio transceiver sending a link quality report message to the subscriber unit during the standby mode in response to the heartbeat signal, the link quality report message containing a link quality report that is used to control the transmit power level of the subscriber unit.13. A system as in claim 11 or 12 wherein the radio transceiver provides a plurality of subchannels on a single radio frequency carrier by assigning different codes for each subchannel.14. A system as in claim 11 or 12 wherein the link quality report message is sent on a pilot channel.15. A system as in claim 11 or 12 wherein the link quality report message is sent on a sync channel.16. A system as in claim 11 or 12 wherein the link quality report contains a data value indicating an amount by which the subscriber unit should change its transmit power level for the corresponding subchannel.17. A system as in claim 11 or 12 wherein the link quality report contains a data value indicating a bit error rate.18. A system as in claim 11 or 12 wherein the link quality report contains a value indicating noise energy.19. A system as in claim 11 or 12 wherein the link quality report message is sent on a paging channel.20. A system for providing wireless communication of digital signals, the digital signals being communicated between a plurality of wireless subscriber units and a base station, the digital signals being communicated using at least one radio frequency channel via Code Division Multiple Access (CDMA) modulated radio signals, the digital signals also having a given nominal data rate, the system having a base station comprising:transceiver means for making available a plurality of subchannels within each CDMA radio channel, wherein a data rate of each subchannel is much less than the nominal data rate of the digital signals;bandwidth management means for allocating available subchannels only on an as-needed basis, with the number of subchannels allocated thereby changing during the duration of a given session;the bandwidth management means providing a standby mode connection on a reverse link for subscriber units which are powered on, but not presently having traffic channels allocated;the transceiver means receiving a heartbeat signal over the standby mode connection from a subscriber unit at a data rate which is sufficiently fast enough to maintain bit synchronization on the reverse link; andthe transceiver means sending a link quality report message to the subscriber unit during the standby mode in response to the heartbeat signal, the link quality report message containing a link quality report that is used to control the transmit power level of the subscriber unit.21. A system for providing wireless communication of digital signals, the digital signals being communicated between a plurality of wireless subscriber units and a base station, the digital signals being communicated using at least one radio frequency channel via Code Division Multiple Access (CDMA) modulated radio signals, the digital signals also having a given nominal data rate, the system having a subscriber unit comprising:a radio transceiver tuning to at least one subchannel of a plurality of subchannels within a CDMA radio channel, wherein a data rate of each subchannel is much less than the nominal data rate of the digital signals;a bandwidth manager allocating the at least one subchannel only on an as-needed basis, with the number of subchannels allocated thereby changing during the duration of a given session;the bandwidth manager opening a standby mode connection on a reverse link during a standby mode, the bandwidth manager not presently having traffic channels allocated;the radio transceiver sending a heartbeat signal over the standby mode connection to a base station at a data rate which is sufficiently fast enough to maintain bit synchronization on the reverse link; andthe radio transceiver receiving a link quality report message from the base station during the standby mode in response to the heartbeat signal, the link quality report message containing a link quality report that is used to control the transmit power level of the subscriber unit.22. A system for providing wireless communication of digital signals, the digital signals being communicated between a plurality of wireless subscriber units and a base station, the digital signals being communicated using at least one radio frequency channel via Code Division Multiple Access (CDMA) modulated radio signals, the digital signals also having a given nominal data rate, the system having a subscriber unit comprising:a radio transceiver tuning to at least one subchannel of a plurality of subchannels within a CDMA radio channel, wherein a data rate of each subchannel is much less than the nominal data rate of the digital signals;a bandwidth manager allocating the at least one subchannel only on an as-needed basis, with the number of subchannels allocated thereby changing during the duration of a given session;the bandwidth manager opening a standby mode connection on a reverse link during a standby mode, the bandwidth manager not presently having traffic channels allocated;the radio transceiver sending a heartbeat signal over the standby mode connection to a base station at a data rate which is sufficiently fast enough to maintain bit synchronization on the reverse link, the heartbeat signal being time slotted between inactive subchannels; andthe radio transceiver receiving a link quality report message from the base station during the standby mode in response to the heartbeat signal, the link quality report message containing a link quality report that is used to control the transmit power level of the subscriber unit.23. A system as in claim 21 or 22 wherein the link quality report message is received on a pilot channel.24. A system as in claim 21 or 22 wherein the link quality report message is received on a sync channel.25. A system as in claim 21 or 22 wherein the link quality report contains a data value indicating an amount by which the subscriber unit should change its transmit power level for the corresponding subchannel.26. A system as in claim 21 or 22 wherein the link quality report contains a data value indicating a bit error rate.27. A system as in claim 21 or 22 wherein the link quality report contains a value indicating noise energy.28. A system as in claim 21 or 22 wherein a subscriber unit transmit power level is calculated using a data value indicated by the link quality report.29. A system as in claim 21 or 22 wherein the link quality report message is received on a paging channel.30. A system for providing wireless communication of digital signals, the digital signals being communicated between a plurality of wireless subscriber units and a base station, the digital signals being communicated using at least one radio frequency channel via Code Division Multiple Access (CDMA) modulated radio signals, the digital signals also having a given nominal data rate, the system having a subscriber unit comprising:transceiver means for tuning to at least one subchannel of a plurality of subchannels within a CDMA radio channel, wherein a data rate of each subchannel is much less than the nominal data rate of the digital signals;bandwidth management means for allocating the at least one subchannel only on an as-needed basis, with the number of subchannels allocated thereby changing during the duration of a given session;the bandwidth management means opening a standby mode connection on a reverse link during a standby mode, the bandwidth manager not presently having traffic channels allocated;the transceiver means sending a heartbeat signal over the standby mode connection to a base station at a data rate which is sufficiently fast enough to maintain bit synchronization on the reverse link; andthe transceiver means receiving a link quality report message from the base station during the standby mode in response to the heartbeat signal, the link quality report message containing a link quality report that is used to control the transmit power level of the subscriber unit.