Methods and apparatus for operating mobile nodes in multiple a states
First Claim
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1. A communications method, the method comprising:
- operating a first wireless terminal, at different times, in each one of three different operational states, the three different operational states including a first state, a second state and a third state, said first state being an on state, said second state being a hold state, and said third state being a sleep state, wherein operating the first wireless terminal in the first state includes using a first amount of a control communications resource to communicate control information between said first wireless terminal and a base station;
wherein operating the first wireless terminal in the second state includes using a second amount of the control communications resource to communicate control information between said first wireless terminal and the base station, the second amount of control communications resource being less than the first amount; and
wherein operating the first wireless terminal in the third state includes using less of the control communications resource than is used by the first wireless terminal in either of the first or second states; and
operating a second wireless terminal, at different times, in each one of said on state, said hold state and said sleep state;
wherein operating the second wireless terminal in the on state includes using a fourth amount of control communications bandwidth to communicate control information between said second wireless terminal and said base station; and
wherein operating the second wireless terminal in the hold state includes using a fifth amount of the control communications bandwidth to communicate control information between said second wireless terminal and the base station, the fifth amount of control communications bandwidth being less than the first amount.
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Abstract
The use of multiple states of mobile communication device operation to allow a single base station to support a relatively large number of mobile nodes is described. The various states require different amounts of communications resources, e.g., bandwidth. Four supported states of operation are a on-state, a hold-state, a sleep-state, and an access-state. Each mobile node in the on-state is allocated communication resources to perform transmission power control signaling, transmission timing control signaling and to transmit data as part of a data uplink communications operation. Each mobile node in the hold-state is allocated communication resources to perform transmission timing control signaling and is provided a dedicated uplink for requesting a state transition and a shared resource for transmitting acknowledgements. In the sleep state a mobile node is allocated minimal resources and does not conduct power control signaling or timing control signaling. Data may be received in the on and hold states.
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Citations
39 Claims
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1. A communications method, the method comprising:
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operating a first wireless terminal, at different times, in each one of three different operational states, the three different operational states including a first state, a second state and a third state, said first state being an on state, said second state being a hold state, and said third state being a sleep state, wherein operating the first wireless terminal in the first state includes using a first amount of a control communications resource to communicate control information between said first wireless terminal and a base station;
wherein operating the first wireless terminal in the second state includes using a second amount of the control communications resource to communicate control information between said first wireless terminal and the base station, the second amount of control communications resource being less than the first amount; and
wherein operating the first wireless terminal in the third state includes using less of the control communications resource than is used by the first wireless terminal in either of the first or second states; and
operating a second wireless terminal, at different times, in each one of said on state, said hold state and said sleep state;
wherein operating the second wireless terminal in the on state includes using a fourth amount of control communications bandwidth to communicate control information between said second wireless terminal and said base station; and
wherein operating the second wireless terminal in the hold state includes using a fifth amount of the control communications bandwidth to communicate control information between said second wireless terminal and the base station, the fifth amount of control communications bandwidth being less than the first amount. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18)
operating the first wireless terminal to perform power control signaling operations and timing control signaling operations.
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3. The method of claim 2, further comprising:
operating the first wireless terminal to transition from the first state to the second state, said transitioning including reducing the rate of power control signaling operations performed by said first wireless terminal.
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4. The method of claim 3, further comprising:
operating the first wireless terminal to transition from said second state to the third state, the step of transitioning from said second state to said third state including ceasing to perform transmission timing control updates.
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5. The method of claim 3, wherein reducing the rate of power control signaling includes ceasing to monitor for power control signals from the base station.
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6. The method of claim 3, wherein reducing the rate of power control signaling operations includes performing transmission power control update operations at a greater interval than transmission power control update operations were performed in said first state.
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7. The method of claim 6, wherein transitioning from the second state to the third state includes operating the first wireless terminal to cease performing transmission power control update operations.
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8. The method of claim 2, further comprising the step of:
operating the first wireless terminal to transition from said third state to one of said first and said second states, the step of transitioning to one of said first and second states including resuming transmission timing control update operations.
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9. The method of claim 8, wherein operating the first wireless terminal to transition from said third state to one of said first state and said second state includes operating the first wireless terminal to resume transmission power control signaling operations.
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10. The method of claim 1, wherein said control communications resource is control signaling bandwidth used for communicating control signals between said base station and a plurality of wireless terminals served by said base station.
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11. The method of claim 10, further comprising:
operating the first wireless terminal to transmit and receive data as part of a communications session with another terminal during at least a portion of said on state.
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12. The method of claim 11, further comprising:
operating the first wireless terminal to receive data from another terminal during at least a portion of said hold state without transmitting data at any time while operating in said hold state.
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13. The method of claim 12, wherein operating said first wireless terminal in said sleep state includes controlling said wireless terminal so that data corresponding to a communications session is neither transmitted from said first wireless terminal or received by said first wireless terminal during any portion of said sleep state.
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14. The method of claim 1, further comprising
operating the second wireless terminal to transmit and receive data as part of a communications session with another terminal during at least a portion of time during which said second terminal is operated in said on state. -
15. The method of claim 14, further comprising:
operating the second wireless terminal to receive data from another terminal during at least a portion of the time said second wireless terminal is operated in said hold state without transmitting data at any time while operating said second wireless terminal in said hold state.
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16. The method of claim 15, wherein operating said second wireless terminal in said sleep state includes controlling said second wireless terminal so that data corresponding to a communications session is neither transmitted from said second wireless terminal or received by said second wireless terminal during any portion of time said wireless terminal is operated in said sleep state.
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17. The method of claim 14,
wherein said data to be transmitted as part of a communications session includes IP packets at least some of which include speech data; - and
wherein said second wireless terminal transmits said IP packets to said base station using orthogonal frequency division multiplexed signals.
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18. The method of claim 1,
wherein operating the first wireless terminals in the first state further includes: operating the first wireless terminal to receive timing adjustment signals from the base station instructing the wireless terminal to advance or delay symbol transmission timing as part of a timing synchronization operation.
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19. A communications method, the method comprising:
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operating a first wireless terminal, at different times, in each one of three different operational states, the three different operational states including a first state, a second state and a third state, wherein operating the first wireless terminal in the first state includes using a first amount of a control communications resource to communicate control information between said first wireless terminal and a base station;
wherein operating the first wireless terminal in the second state includes using a second amount of the control communications resource to communicate control information between said first wireless terminal and the base station, the second amount of control communications resource being less than the first amount; and
wherein operating the first wireless terminal in the third state includes using less of the control communications resource than is used by the first wireless terminal in either of the first or second states; and
wherein operating the first wireless terminal in the first state to use a first amount of a control communications resource includes operating the first wireless terminal to perform power control signaling operations and timing control signaling operations;
operating the first wireless terminal to transition from said third state to one of said first and said second states, the step of transitioning to one of said first and second states including;
resuming transmission timing control signaling, said step of resuming transmission timing control signaling including transmitting a request to the base station for the allocation of communications resources required to perform transmission timing control signaling. - View Dependent Claims (20, 21)
transmitting said request using a shared segment of a communications channel.
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21. The method of claim 20, further comprising:
operating the first wireless terminal to transition from said second state to said first state, the step of transitioning from said second state to said first state including transmitting a request for a dedicated communications resource that can be used to transmit data to be communicated to said base station.
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22. A communications method, the method comprising:
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operating a first wireless terminal, at different times, in each one of three different operational states, the three different operational states including a first state, a second state and a third state, wherein operating the first wireless terminal in the first state includes using a first amount of a control communications resource to communicate control information between said first wireless terminal and a base station;
wherein operating the first wireless terminal in the second state includes using a second amount of the control communications resource to communicate control information between said first wireless terminal and the base station, the second amount of control communications resource being less than the first amount; and
wherein operating the first wireless terminal in the third state includes using less of the control communications resource than is used by the first wireless terminal in either of the first or second states;
wherein operating the first wireless terminal in the first state to use a first amount of a control communications resource includes operating the first wireless terminal to perform power control signaling operations and timing control signaling operations;
operating the first wireless terminal to transition from said third state to one of said first and said second states, the step of transitioning to one of said first and second states including;
i) resuming transmission timing control update operations; and
ii) operating the first wireless terminal to resume transmission power control signaling operations; and
operating the first wireless terminal to transmit a request for a dedicated communications resource that can be used to transmit data by transmitting the resource request to the base station using a dedicated resource request uplink assigned to the first wireless terminal. wireless terminal during any portion of time said wireless terminal is operated in said sleep state.
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23. A mobile communications device including:
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control means used to control the mobile communications device to;
i) operate in an on state in which the mobile communications device uses a first amount of control signaling resources for the communication of control information between said mobile communications device and a base station;
ii) transition the mobile communications device from the on state to a hold state in which the first mobile communications device uses less control signaling resources for the communication of control information between said mobile device and a base station than is used by the mobile communications device in the on state; and
iii) transition the mobile communications device from said hold-state to a sleep state in which the mobile communications device uses less control signaling resources than the mobile communications device uses in said hold state; and
means for controlling the mobile communications device to transition from said hold-state to said on-state, wherein transitioning from said hold-state to said-on state includes transmitting a request for a dedicated communications resource that can be used to transmit data to be communicated to said base station. - View Dependent Claims (24, 25, 26, 27)
means for controlling the mobile communications device to transition from said sleep-state to one of said on-state and said hold-state, wherein transitioning to one of said on-state and said hold-state includes resuming transmission timing control update operations.
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28. A communications system comprising:
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a base station, said base station including means for processing requests received from mobile nodes for the allocation of communications resources required to perform transmission timing control signaling and including means for controlling the allocation of control signaling resources and data transmission resources to a plurality of mobile nodes serviced by said base station, said base station being responsive to said received requests from mobile nodes and controlling a first subset of said plurality of mobile nodes to operate in an on state wherein nodes in said first subset are allocated data communication resources to transmit data and control signaling resources to perform a first level of control signaling, said base station further controlling a second subset of said plurality of mobile nodes to operate in an hold state wherein nodes in said second subset are allocated control signaling resources to perform a second level of control signaling which is less than said first level of control signaling; and
said base station further controlling a third subset of said plurality of mobile nodes to operate in a sleep state wherein nodes in said third subset are allocated less control signaling resources than mobile nodes in either said first subset or said second subset. - View Dependent Claims (29, 30, 31, 32, 33, 34, 35, 36, 37, 38, 39)
wherein each of said third subset of mobile nodes includes means for generating a request for a dedicated resource which can be used to communicate control information to said base station and means for transmitting said request to said base station when attempting to transition out of said sleep state to another state of operation.
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30. The communications system of claim 29, wherein the second subset of mobile nodes includes means for performing transmission timing control signaling operations and reduced rate transmission power control signaling operations while in said hold state.
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31. The communications system of claim 29, wherein said second subset of mobile nodes includes means for reducing the rate of transmission power control signaling operations as part of transitioning from said on state to said hold state.
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32. The communication system of claim 31, wherein said second set of mobile nodes includes means for halting transmission power control update operations when transitioning into said hold state from said on state.
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33. The communication system of claim 31, wherein said third subset of mobile nodes includes means for terminating the transmission of timing control signals when transitioning into said sleep state from said hold state.
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34. The system of claim 28, further comprising said plurality of mobile nodes, the third subset of mobile nodes including more communications devices than said second subset of mobile nodes.
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35. The system of claim 34, wherein the second subset of mobile nodes includes more nodes than said first subset of mobile nodes.
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36. The system of claim 35, wherein said third subset of mobile nodes do not perform transmission power control signaling operations.
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37. The system of claim 36, wherein said second subset of mobile nodes do not perform transmission power control signaling operations.
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38. The system of claim 36, wherein said second subset of mobile nodes perform power control signaling operations at a rate which is lower than the rate at which mobile nodes in said first subset perform transmission power control signaling operations.
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39. The system of claim 28,
wherein said base station further includes: means for transmitting timing adjustment signals instructing one of said plurality of mobile nodes to advance or delay symbol transmission timing as part of a timing synchronization operation.
Specification
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Current AssigneeQualcomm, Inc.
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Original AssigneeFlarion Technologies Inc (Qualcomm, Inc.)
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InventorsLi, Junyi, Uppala, Sathyadev Venkata, Laroia, Rajiv
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Primary Examiner(s)Nguyen, Lee
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Application NumberUS10/324,194Publication NumberTime in Patent Office627 DaysField of Search455/522, 455/574, 455/343.2, 455/343.3, 455/343.4, 370/311, 340/7.32, 340/7.33, 340/7.34, 340/7.36US Class Current455/574CPC Class CodesH04W 16/12 Fixed resource partitioningH04W 16/14 Spectrum sharing arrangemen...H04W 24/00 Supervisory, monitoring or ...H04W 36/06 Reselecting a communication...H04W 36/20 for optimising the interfer...H04W 52/0235 where the received signal i...H04W 52/08 Closed loop power controlH04W 52/281 taking into account user or...H04W 52/283 Power depending on the posi...H04W 52/286 during data packet transmis...H04W 52/287 when the channel is in stan...H04W 52/288 taking into account the usa...H04W 52/60 using different transmissio...H04W 56/00 Synchronisation arrangementsH04W 68/02 Arrangements for increasing...H04W 68/025 Indirect pagingH04W 72/00 Local resource managementH04W 72/51 based on terminal or device...Y02D 30/70 in wireless communication n...
