초록 ▼

A Wireless Communication Device (WCD) inter-operates with a Code Division Multiple Access (CDMA) communication system. The WCD operates in an idle mode wherein the WCD transitions between a sleep state to conserve power and an awake state to receive one or more paging signals. The WCD attempts to re

A Wireless Communication Device (WCD) inter-operates with a Code Division Multiple Access (CDMA) communication system. The WCD operates in an idle mode wherein the WCD transitions between a sleep state to conserve power and an awake state to receive one or more paging signals. The WCD attempts to reacquire a first pilot signal associated with a first paging signal that was previously being demodulated, and a second pilot signal that was previously being tracked. The WCD performs a handoff from the first paging signal to a second paging signal associated with the second pilot signal when the attempt to reacquire the first pilot signal fails and the attempt to reacquire the second pilot signal is successful.

대표청구항 ▼

What we claim as our invention is: 1. A method of performing a handoff operation in a Wireless Communication Device (WCD) operating in a communication system, the WCD operating in an idle mode wherein the WCD transitions between a sleep state to conserve power and an awake state to receive one or m

What we claim as our invention is: 1. A method of performing a handoff operation in a Wireless Communication Device (WCD) operating in a communication system, the WCD operating in an idle mode wherein the WCD transitions between a sleep state to conserve power and an awake state to receive one or more paging signals, comprising: a. determining during an awake state that a handoff from a first paging signal to a second paging signal is required; b. determining during the awake state whether to postpone the handoff until a next awake state; and c. transitioning from the awake state to a sleep state without performing the required handoff when it is determined to postpone the handoff, wherein the WCD is scheduled to transition from the awake state to the sleep state at a scheduled time, and wherein: step (a) comprises determining at a first time during the awake state that the handoff is required; step (b) comprises determining whether the first time precedes the scheduled time by less than a predetermined time period; and step (c) comprises transitioning from the awake state to the sleep state at the scheduled time without performing the required handoff when it is determined that the first time proceeds the scheduled time by less than the predetermined time period. 2. The method of claim 1, wherein during a previous awake state, a preferred pilot signal and a next best pilot signal had been acquire, wherein step (a) further comprises: attempting to reacquire only the preferred pilot signal and the next best pilot signal, wherein the preferred pilot signal is associated with a first paging signal that was being demodulated during a the previous awake state and wherein attempting to reacquire the next best pilot signal is associated with a second paging signal that was being tracked during the previous awake state; determining that the handoff is required when the attempt to reacquire the preferred pilot signal fails and the attempt to reacquire the next best pilot signal is successful. 3. The method of claim 2, wherein the first and second paging signals are slotted paging signals associated with a predetermined cycle of time slots, and said step of transitioning from the previous sleep state to the current awake state comprises transitioning to the current awake state so that the current awake state overlaps in time with a time slot of the cycle of time slots that is assigned to the WCD. 4. The method of claim 2, wherein the communication system is a Code Division Multiple Access (CDMA) communication system, and wherein the first pilot signal is spread using a first code and the second pilot signal is spread using a second code, the second code being either a different code from the first code or a time shifted version of the first code, and wherein: the attempting to reacquire the preferred pilot signal further comprises attempting using the first code; and the attempting to reacquire the next best pilot signal further comprises attempting using the second code. 5. The method of claim 4, wherein the second paging signal is spread using a third code related to the second code, and wherein the performing of the handoff comprises demodulating the second paging signal using the third code. 6. The method of claim 2, wherein the WCD includes a receiver that was configured to demodulate the first paging signal during the previous awake state, and wherein the performing of the handoff comprises reconfiguring the WCD to demodulate the second paging signal. 7. The method of claim 1, further comprising: d. performing the required handoff from the first paging signal to the second paging signal after the WCD transitions from the sleep state to the next awake state; and e. demodulating the second paging signal during the next awake state as a result of step (d). 8. The method of claim 1, wherein the communication system is a Code Division Multiple Access (CDMA) communication system and the second paging signal is a spread spectrum signal, and step (e) comprises despreading the second paging signal using a code. 9. The method of claim 1, further comprising: prior to step (a), monitoring a first power level of a first pilot signal associated with the first paging signal and a second power level of a second pilot signal associated with the second paging signal; and wherein step (a) comprises determining the handoff is required based on the first and second power levels. 10. The method of claim 9, wherein step (a) further comprises determining the handoff is required when the second power level is greater than the first power level by a predetermined amount. 11. The method of claim 1, wherein the predetermined time period is less than a time period required to perform the required handoff. 12. The method of claim 1, wherein: step (b) comprises determining whether a paging slot message associated with the paging signal has been demodulated; and step (c) comprises transitioning from the awake state to the sleep state without performing the required handoff when it is determined that the paging slot message associated with the paging signal has been demodulated. 13. An apparatus for performing a handoff operation in a Wireless Communication Device (WCD) operating in a communication system, the WCD operating in an idle mode wherein the WCD transitions between a sleep state to conserve power and an awake state to receive one or more paging signals, comprising; first means for determining during an awake state that a handoff from a first paging signal to a second paging signal is required; second means for determining during the awake state whether to postpone the handoff until a next awake state; and third means for transitioning from the awake state to a sleep state without performing the required handoff when it is determined to postpone the handoff, wherein the WCD is scheduled to transition from the awake state to the sleep state at a scheduled time, and wherein: the first means comprises means for determining at a first time during the awake state that the handoff is required; the second means comprises means for determining whether the first time precedes the scheduled time by less than a predetermined time period; and the third means comprises means for transitioning from the awake state to the sleep state at the scheduled time without performing the required handoff when it is determined that the first time precedes the scheduled time by less than the predetermined time period. 14. The apparatus of claim 13, wherein during a previous awake state, a preferred pilot signal and a next best pilot signal had been acquired, wherein the first means for determining during an awake state that a handoff from a first paging signal to a second paging signal is required further comprises: means for attempting to reacquire only the preferred pilot signal and the next best pilot signal, wherein the preferred pilot signal is associated with a first paging signal that was being demodulated during the previous awake state, wherein the next best pilot signal is associated with a second paging signal that was being tracked during the previous awake state; and wherein the first means for determines the handoff is required when the attempt to reacquire the preferred pilot signal fails and the attempt to reacquire the next best pilot signal is successful. 15. The apparatus of claim 14, wherein the first and second paging signals are slotted paging signals associated with a predetermined cycle of time slots, and the WCD transitions from the previous sleep state to the current awake state so that the current awake state overlaps in time with a time slot of the cycle of time slots that is assigned to the WCD. 16. The apparatus of claim 14, wherein the communication system is a Code Division Multiple Access (CDMA) communication system, and wherein the fist pilot signal is spread using a first code and the second pilot signal is spread using a second code, the second code being either a different code from the first code or a time shifted version of the first code, and wherein; the means for attempting to reacquire includes means for attempting to reacquire the preferred pilot signal using the first code and for attempting to reacquire the next best pilot signal using the second code. 17. The apparatus of claim 16, wherein the second paging signal is spread using a third code related to the second code, and wherein the means for demodulating includes means for demodulating the second paging signal using the third code. 18. The apparatus of claim 13, further comprising: fourth means for performing the required handoff from the first paging signal to the second paging signal after the WCD transitions from the sleep state to a next awake state; and fifth means for demodulating the second paging signal during the next awake state. 19. The apparatus of claim 13, wherein the communication system is a Code Division Multiple Access (CDMA) communication system and the second paging signal is a spread spectrum signal, the fifth means comprising means for despreading the second paging signal using a code. 20. The apparatus of claim 13, further comprising: fifth means for monitoring a first power level of a first pilot signal associated with the first paging signal and a second power level of a second pilot signal associated with the second paging signal; and wherein the first means includes means fur determining the handoff is required based on the first and second power levels. 21. The apparatus of claim 20, wherein the first means further includes means for determining the handoff is required when the second power level is greater than the first power level by a predetermined amount. 22. The apparatus of claim 13, wherein the predetermined time period is less than a time period required to perform the required handoff 23. The apparatus of claim 13, wherein: the second means comprises means for determining whether a paging slot message associated with the paging signal has been demodulated; and the third means comprises means for transitioning from the awake state to the sleep state without performing the required handoff when it is determined that the paging slot message associated with the paging signal has been demodulated.