Reduced terminal power consumption via use of active hold state

Abstract

An access terminal (AT) in a cellular communication system is configured to operate in an active hold (AH) state, a transitional state between traffic and dormant states. The AT applies power to its transmit chain with a low duty cycle while in the AH state, conserving battery power. To improve robustness of the communications, the radio network may power control the AT to a higher level relative to the power control level of the AT in the traffic state. Transition from the traffic state to the AH state may be initiated after a brief period of inactivity on the reverse link. The AT may remain in the AH state while receiving forward link payload data. Transmission of a reverse link payload packet in the AH state may initiate transition to the traffic state. A prolonged period of inactivity may initiate a transition from the AH state to the dormant state.

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Technology	Declaration Information			Specification Information	Explicitly Disclosed	Patent Type
Technology	Declaration Date	Declaration Reference	Declaring Company	Specification Number	Explicitly Disclosed	Patent Type
5G	12/09/2019	ISLD-201912-009	QUALCOMM INC	S1 TS Number: TS 138 211 Version No: Illustrative part: ---- Release: S2 TS Number: TS 138 214 Version No: Illustrative part: ---- Release: +1 -1	No	Family Member
5G	12/03/2020	ISLD-202003-021	QUALCOMM INC	S1 TS Number: TS 138 133 Version No: Illustrative part: ---- Release: S2 TS Number: TS 138 214 Version No: Illustrative part: ---- Release: +1 -1	No	Family Member

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Technologies

2G 3G 4G 5G

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SEP Database Augmented SEP Database

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Publication No	Technology	Declaration Information			Specification Information	Explicitly Disclosed	Patent Type
Publication No	Technology	Declaration Date	Declaration Reference	Declaring Company	Specification Number	Explicitly Disclosed	Patent Type
EP1992075A1	5G	12/09/2019	ISLD-201912-009	QUALCOMM INC	S1 TS Number: TS 138 211 Version No: ---- Section No: Release : ---- S2 TS Number: TS 138 214 Version No: ---- Section No: Release : ---- +1 -1	No	Family Member
EP1992075A1	5G	12/03/2020	ISLD-202003-021	QUALCOMM INC	S1 TS Number: TS 138 133 Version No: ---- Section No: Release : ---- S2 TS Number: TS 138 214 Version No: ---- Section No: Release : ---- +1 -1	No	Family Member
JP2009528003A	5G	12/09/2019	ISLD-201912-009	QUALCOMM INC	S1 TS Number: TS 138 211 Version No: ---- Section No: Release : ---- S2 TS Number: TS 138 214 Version No: ---- Section No: Release : ---- +1 -1	No	Family Member
JP2009528003A	5G	12/03/2020	ISLD-202003-021	QUALCOMM INC	S1 TS Number: TS 138 214 Version No: ---- Section No: Release : ---- S2 TS Number: TS 138 133 Version No: ---- Section No: Release : ---- +1 -1	No	Family Member
JP4768827B2	5G	12/09/2019	ISLD-201912-009	QUALCOMM INC	S1 TS Number: TS 138 214 Version No: ---- Section No: Release : ---- S2 TS Number: TS 138 211 Version No: ---- Section No: Release : ---- +1 -1	No	Family Member
JP4768827B2	5G	12/03/2020	ISLD-202003-021	QUALCOMM INC	S1 TS Number: TS 138 214 Version No: ---- Section No: Release : ---- S2 TS Number: TS 138 133 Version No: ---- Section No: Release : ---- +1 -1	No	Family Member
KR101026090B1	5G	12/09/2019	ISLD-201912-009	QUALCOMM INC	S1 TS Number: TS 138 211 Version No: ---- Section No: Release : ---- S2 TS Number: TS 138 214 Version No: ---- Section No: Release : ---- +1 -1	No	Family Member
KR101026090B1	5G	12/03/2020	ISLD-202003-021	QUALCOMM INC	S1 TS Number: TS 138 133 Version No: ---- Section No: Release : ---- S2 TS Number: TS 138 214 Version No: ---- Section No: Release : ---- +1 -1	No	Family Member
KR20080097472A	5G	12/09/2019	ISLD-201912-009	QUALCOMM INC	S1 TS Number: TS 138 211 Version No: ---- Section No: Release : ---- S2 TS Number: TS 138 214 Version No: ---- Section No: Release : ---- +1 -1	No	Family Member
KR20080097472A	5G	12/03/2020	ISLD-202003-021	QUALCOMM INC	S1 TS Number: TS 138 133 Version No: ---- Section No: Release : ---- S2 TS Number: TS 138 214 Version No: ---- Section No: Release : ---- +1 -1	No	Family Member
US2007195723A1	5G	12/09/2019	ISLD-201912-009	QUALCOMM INC	S1 TS Number: TS 138 211 Version No: ---- Section No: Release : ---- S2 TS Number: TS 138 214 Version No: ---- Section No: Release : ---- +1 -1	No	Family Member
US2007195723A1	5G	12/03/2020	ISLD-202003-021	QUALCOMM INC	S1 TS Number: TS 138 133 Version No: ---- Section No: Release : ---- S2 TS Number: TS 138 214 Version No: ---- Section No: Release : ---- +1 -1	No	Family Member
US8689025B2	5G	12/09/2019	ISLD-201912-009	QUALCOMM INC	S1 TS Number: TS 138 211 Version No: ---- Section No: Release : ---- S2 TS Number: TS 138 214 Version No: ---- Section No: Release : ---- +1 -1	No	Family Member
US8689025B2	5G	12/03/2020	ISLD-202003-021	QUALCOMM INC	S1 TS Number: TS 138 133 Version No: ---- Section No: Release : ---- S2 TS Number: TS 138 214 Version No: ---- Section No: Release : ---- +1 -1	No	Family Member

Publication No	Technology	Declaration Information			Specification Information				Explicitly Disclosed	Patent Type	Status	National Phase Entries
Publication No	Technology	Declaration Date	Declaration Reference	Declaring Company	Specification Information				Explicitly Disclosed	Patent Type	Status	National Phase Entries
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Technologies

Waveform Configuration

Product

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Use Cases

Wireless communication

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Claim

1. A wireless access terminal for communicating with a base transceiver station of a radio network, the wireless access terminal comprising: a receiver configured to receive forward link transmissions from the base transceiver station; a transmitter configured to send reverse link transmissions to the base transceiver station; a memory storing program code; and a controller coupled to the receiver, transmitter, and the memory, wherein the controller is configured to execute the program code to cause the wireless access terminal to: initiate a transition from a traffic state to an active hold state in response to absence of reverse link traffic during a first predetermined time period, initiate a transition from the active hold state to the traffic state in response to presence of reverse link traffic, initiate a transition from the active hold state to a dormant state in response to absence of forward link traffic and reverse link traffic during a second predetermined period, initiate a transition from the dormant state to the traffic state in response to presence of reverse link traffic, remain in the active hold state after transitioning into the active hold state during simultaneous presence of forward link traffic and absence of reverse link traffic, and power off at least one component of the transmitter in the active hold state so that duty cycle of said at least one component is less than twenty-five percent in the active hold state.

2. The wireless access terminal of claim 1, wherein the controller is further configured to execute the program code to cause the wireless access terminal to power on said at least one component of the transmitter for at least a majority of time in the traffic state.

3. The wireless access terminal of claim 2, wherein the controller is further configured to execute the program code to cause the wireless access terminal to provide feedback to the base transceiver station with a first frequency in the active hold state, and to provide feedback to the base transceiver station with a second frequency in the traffic state, the second frequency being greater than the first frequency.

4. The wireless access terminal of claim 3, wherein the second frequency is twice the first frequency.

5. The wireless access terminal of claim 3, wherein the second frequency is four time the first frequency.

6. The wireless access terminal of claim 3, wherein the feedback comprises reverse link pilot and forward link rate control.

7. The wireless access terminal of claim 2, wherein the controller is further configured to execute the program code to cause the wireless access terminal to provide feedback to the base transceiver station once in eight slots in the active hold state, and to provide feedback to the base transceiver station once in four slots in the traffic state.

8. The wireless access terminal of claim 2, wherein the controller is further configured to execute the program code to cause the wireless access terminal to provide feedback to the base transceiver station once in sixteen slots in the active hold state, and to provide feedback to the base transceiver station once in four slots in the traffic state.

9. The wireless access terminal of claim 1, wherein the controller is further configured to execute the program code to cause the wireless access terminal to transition from the dormant state to the active hold state in response to simultaneous presence of forward link traffic and absence of reverse link traffic

10. A machine-readable medium comprising instructions, the instructions, when executed by at least one processor of a wireless access terminal for communicating with a base transceiver station of a radio network, cause the wireless access terminal to perform operations comprising: initiating a transition from a traffic state to an active hold state in response to absence of reverse link traffic during a first predetermined time period, initiating a transition from the active hold state to the traffic state in response to presence of reverse link traffic, initiating a transition from the active hold state to the dormant state in response to absence of forward link traffic and reverse link traffic during at least a second predetermined period, initiating a transition from the dormant state to the traffic state in response to presence of reverse link traffic, after transitioning into the active hold state, remaining in the active hold state during simultaneous presence of forward link traffic and absence of reverse link traffic, and in the active hold state, powering off at least one component of the transmitter so that duty cycle of said at least one component is less than twenty-five percent in the active hold state

11. The machine-readable medium of claim 10, wherein the instructions, when executed by said at least one processor, further cause the wireless access terminal to perform operations comprising: powering on said at least one component of the transmitter for at least a majority of time in the traffic state

12. The machine-readable medium of claim 11, wherein the instructions, when executed by said at least one processor, further cause the wireless access terminal to perform operations comprising: providing feedback to the base transceiver station in the active hold state, the step of providing feedback in the active hold state being performed with a first frequency; and providing feedback to the base transceiver station in the traffic state, the step of providing feedback in the traffic state being performed with a second frequency, the second frequency being greater than the first frequency

13. The machine-readable medium of claim 12, wherein the feedback comprises reverse link pilot and rate control

14. The machine-readable medium of claim 10, wherein the instructions, when executed by said at least one processor, further cause the wireless access terminal to perform operations comprising: transitioning from the dormant state to the active hold state in response to simultaneous presence of forward link traffic and absence of reverse link traffic

15. A wireless access terminal for communicating with a base transceiver station of a radio network, the wireless access terminal comprising: a means for receiving forward link transmissions from the base transceiver station; a means for sending reverse link transmissions to the base transceiver station; a means for storing program code; and a controller means for executing the program code to cause the wireless access terminal to perform steps comprising: initiating a transition from a traffic state to an active hold state in response to absence of reverse link traffic during a first predetermined time period, initiating a transition from the active hold state to the traffic state in response to presence of reverse link traffic, initiating a transition from the active hold state to a dormant state in response to absence of forward link traffic and reverse link traffic during at least a second predetermined period, initiating a transition from the dormant state to the traffic state in response to presence of reverse link traffic, after transitioning into the active hold state, remaining in the active hold state during simultaneous presence of forward link traffic and absence of reverse link traffic, and powering off at least one component of the transmitter so that duty cycle of said at least one component is less than twenty-five percent in the active hold state

16. A method of operating a wireless access terminal for communicating with a base transceiver station of a radio network, the method comprising: initiating a transition from a traffic state to an active hold state in response to absence of reverse link traffic between the wireless access terminal and the base transceiver station during a first predetermined time period, initiating a transition from the active hold state to the traffic state in response to presence of reverse link traffic between the wireless access terminal and the base transceiver station, initiating a transition from the active hold state to the dormant state in response to absence of forward link traffic and reverse link traffic between the wireless access terminal and the base transceiver station during at least a second predetermined period, initiating a transition from the dormant state to the traffic state in response to presence of reverse link traffic between the wireless access terminal and the base transceiver station, after transitioning into the active hold state, causing the wireless access terminal to remain in the active hold state during simultaneous presence of forward link traffic and absence of reverse link traffic between the wireless access terminal and the base transceiver station, and in the active hold state, powering off at least one component of a transmit chain of the wireless access terminal so that duty cycle of said at least one component is less than a predefined duty cycle threshold in the active hold state.17. The method of claim 16, wherein the predefined duty cycle threshold is twenty- five percent.18. The method of claim 17, further comprising: causing the wireless access terminal to power on said at least one component of the transmitter for at least a majority of time in the traffic state.19. The method of claim 18, further comprising: providing feedback from the wireless access terminal to the base transceiver station in the active hold state, the step of providing feedback in the active hold state being performed with a first frequency; and providing the feedback from the wireless access terminal to the base transceiver station in the traffic state, the step of providing feedback in the traffic state being performed with a second frequency, the second frequency being greater than the first frequency.

20. The method of claim 19, wherein the second frequency is at least twice the first frequency.

21. The method of claim 19, wherein the second frequency is at least four times the first frequency.

22. The method of claim 19, wherein the second frequency is about 150 Hertz, and the first frequency is about 75 Hertz.

23. The method of claim 19, wherein the second frequency is about 150 Hertz, and the first frequency is about 37.5 Hertz.

24. The method of claim 19, wherein the feedback comprises reverse link pilot and rate control.

25. The method of claim 19, wherein the feedback comprises data rate control (DRC).

26. The method of claim 19, wherein the feedback comprises data source control (DSC).

27. The method of claim 18, further comprising: providing feedback from the wireless access terminal to the base transceiver station once in eight slots in the active hold state; and providing feedback from the wireless access terminal to the base transceiver station once in four slots in the traffic state.

28. The method of claim 18, further comprising: providing feedback from the wireless access terminal to the base transceiver station once in sixteen slots in the active hold state; and providing feedback from the wireless access terminal to the base transceiver station once in four slots in the traffic state.

29. The method of claim 17, further comprising: causing the wireless access terminal to transition from the dormant state to the active hold state in response to simultaneous presence of forward link traffic and absence of reverse link traffic.

30. The method of claim 17, wherein the step of initiating the transition from the traffic state to the active hold state comprises sending a spare reverse rate indicator (RRI) codeword to the base transceiver station.

31. The method of claim 30, further comprising: receiving from the base transceiver station an acknowledgement of the spare RRI codeword; and transitioning the wireless access terminal to the active hold state in response to the acknowledgement.

32. A method of operating a wireless access terminal for communicating with a base transceiver station of a radio network through a forward link and a reverse link, the method comprising: step for causing the wireless access terminal to enter a dormant state in response to a period of traffic inactivity on the forward and reverse links between the wireless access terminal and the base transceiver station; step for causing the wireless access device to enter a traffic state in response to traffic activity on the reverse link; and step for causing the wireless access terminal to enter an active hold state in response to a period of traffic inactivity on the reverse links, the step for causing the wireless access terminal to enter the active hold state being performed regardless of traffic activity on the forward link, wherein the wireless access terminal in the active hold state powers on and off at least a portion of a transmit chain of the wireless access terminal with a duty cycle smaller than twenty-five percent.

33. A base transceiver station in a radio network, the base transceiver station comprising: a receiver configured to receive data from a wireless access terminal on a reverse link; a transmitter configured to transmit data to the wireless access terminal on a forward link; and a processor coupled to the receiver and to the transmitter, wherein the processor is configured to cause the base transceiver station to perform steps comprising: granting a request from the wireless access terminal to enter an active hold state, wherein the wireless access terminal generates the request in response to a period of traffic inactivity on the reverse link, and wherein the wireless access terminal decreases feedback update frequency for the forward link in the active hold state relative to a traffic state, transmitting forward link traffic while the wireless access terminal is in the active hold state, and receiving reverse link traffic in the traffic state.

34. The base transceiver station of claim 33, wherein the processor is further configured to cause the base transceiver station to vary power control set point of the wireless access terminal depending on state of the wireless access terminal, wherein the power control set point is higher in the active hold state than in the traffic state for the same signal to interference and noise ratio (SINR).

35. The base transceiver station of claim 33, wherein the processor is further configured to cause the base transceiver station to increase power control set point of the wireless access terminal when the wireless access terminal is in the active hold state and the power control set point is below a predetermined power limit.

36. The base transceiver station of claim 33, wherein the processor is further configured to cause the base transceiver station to vary power control set point of the wireless access terminal depending on the feedback update frequency.

37. A base transceiver station in a radio network, the base transceiver station comprising: a means for receiving data from a wireless access terminal on a reverse link; a means for transmitting data to the wireless access terminal on a forward link; and a control means for processing, the control means being coupled to the receiver and to the transmitter, wherein the control means is configured to cause the base transceiver station to perform steps comprising: granting a request from the wireless access terminal to enter an active hold state, wherein the wireless access terminal generates the request in response to a period of traffic inactivity on the reverse link, and wherein the wireless access terminal decreases feedback update frequency for the forward link while in the active hold state relative to a traffic state, and transmitting forward link traffic while the wireless access terminal is in the active hold state.

38. A method of operating a base transceiver station in a radio network to control a wireless access terminal, the method comprising: granting a request from the wireless access terminal to enter an active hold state, wherein the wireless access terminal generates the request in response to a period of traffic inactivity on a reverse link between the wireless access terminal and the base transceiver station, wherein the wireless access terminal in the active hold state provides feedback for a forward link between the wireless access terminal and the base transceiver station with a first frequency, and wherein the wireless access terminal provides feedback for the forward link in a traffic state with a second frequency, the second frequency being greater than the first frequency; and transmitting traffic on the forward link while the wireless access terminal is in the active hold state.

39. A machine-readable medium comprising instructions, the instructions, when executed by at least one processor of a base transceiver station of a radio network, cause the base transceiver station to perform operations comprising: granting a request from a wireless access terminal to enter an active hold state, wherein the wireless access terminal generates the request in response to a period of traffic inactivity on a reverse link between the wireless access terminal and the base transceiver station, wherein the wireless access terminal in the active hold state provides feedback for a forward link between the wireless access terminal and the base transceiver station with a first frequency, an wherein the wireless access terminal provides feedback for the forward link in a traffic state with a second frequency, the second frequency being greater than the first frequency; and transmitting traffic on the forward link while the wireless access terminal is in the active hold state.']

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The information in blue was extracted from the third parties (Standard Setting Organisation, Espacenet)

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Explicitly disclosed patent:openly and comprehensibly describes all details of the invention in the patent document.

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