초록 ▼

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. Various states require different amounts of communications resources, e.g., bandwidth and/or control signaling. Different numbers of c

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. Various states require different amounts of communications resources, e.g., bandwidth and/or control signaling. Different numbers of control channels are monitored during different states of operation. A mobile node monitors during a first state of operation, e.g., the on-state, a first control channel to detect control signals in segments of the first control channel intended for the mobile node, detects a period of reduced control signaling to said mobile node on said first control channel, and then, in response to detecting a period of reduced control signal signaling to the mobile node, transitions from said first state to a second state of operation. During the second state of operation fewer control channels are monitored and the first control channel is not monitored.

대표청구항 ▼

What is claimed is: 1. A device comprising a processor configured to control said device to implement a method of operating a mobile node capable of operating in a plurality of states of operation, the method comprising: monitoring, during a first state of operation, a first control channel to dete

What is claimed is: 1. A device comprising a processor configured to control said device to implement a method of operating a mobile node capable of operating in a plurality of states of operation, the method comprising: monitoring, during a first state of operation, a first control channel to detect control signals in segments of the first control channel intended for said mobile node, and to detect a period of reduced control signaling to said mobile node on said first control channel; in response to detecting said period of reduced control signaling to said mobile node on said first control channel, transitioning from said first state of operation to a second state of operation, wherein transitioning from said first state of operation to the second state of operation includes ceasing to monitor said first control channel; and while in said second state of operation: monitoring a second control channel to detect control signals in segments of the second control channel intended for said mobile node, and to detect a period of reduced control signaling to said mobile node on said second control channel; and in response to detecting a period of reduced control signaling to said mobile node on said second control channel, transitioning from said second state of operation to a third state of operation. 2. The device of claim 1, wherein transitioning from said second state of operation to the third state of operation includes ceasing to monitor said second control channel. 3. The device of claim 1, wherein monitoring said first control channel during said first state of operation includes monitoring said first control channel on a continuous basis. 4. The device of claim 3, wherein said second control channel is a non-continuous control channel including at least some control segments dedicated to said mobile node. 5. The device of claim 4, wherein the only segments of said second control channel which are monitored during said second state of operation are second control channel segments dedicated to said mobile node. 6. The device of claim 1, wherein the method further comprises: monitoring, during said first state of operation, said second control channel and a third control channel in addition to said first control channel. 7. The device of claim 6, wherein the method further comprises: monitoring, during said second state of operation, said third control channel in addition to said second control channel. 8. The device of claim 7, wherein said second and third control channels are periodic control channels including segments dedicated to a plurality of different mobile nodes, at least one segment being periodically dedicated in each of the second and third control channels to said mobile node while said mobile node is operating in said second state of operation. 9. The device of claim 7, wherein the first control channel is an assignment channel used to transmit data communication resource allocation information. 10. The device of claim 9, wherein said second control channel is a paging control channel used to transmit state control information. 11. A computer readable medium embodying computer executable instructions for controlling a mobile node capable of operating in a plurality of states of operation, to implement a method, the method comprising: monitoring, during a first state of operation, a first control channel to detect control signals in segments of the first control channel intended for said mobile node, and to detect a period of reduced control signaling to said mobile node on said first control channel; in response to detecting said period of reduced control signaling to said mobile node on said first control channel, transitioning from said first state of operation to a second state of operation, wherein transitioning from said first state of operation to the second state of operation includes ceasing to monitor said first control channel; and while in said second state of operation: monitoring a second control channel to detect control signals in segments of the second control channel intended for said mobile node, and to detect a period of reduced control signaling to said mobile node on said second control channel; and in response to detecting said period of reduced control signaling to said mobile node on said second control channel, transitioning from said second state of operation to a third state of operation. 12. The computer readable medium of claim 11, wherein transitioning from said second state of operation to the third state of operation includes ceasing to monitor said second control channel. 13. The computer readable medium of claim 11, wherein monitoring said first control channel during said first state of operation includes monitoring said first control channel on a continuous basis. 14. The computer readable medium of claim 13, wherein said second control channel is a non-continuous control channel including at least some control segments dedicated to said mobile node. 15. The computer readable medium of claim 14, wherein the only segments of said second control channel which are monitored during said second state of operation are second control channel segments dedicated to said mobile node. 16. The computer readable medium of claim 11, wherein the method further comprises: monitoring, during said first state of operation, said second control channel and a third control channel in addition to said first control channel. 17. The computer readable medium of claim 16, wherein the method further comprises: monitoring, during said second state of operation, said third control channel in addition to said second control channel. 18. The computer readable medium of claim 17, wherein said second and third control channels are periodic control channels including segments dedicated to a plurality of different mobile nodes, at least one segment being periodically dedicated in each of the second and third control channels to said mobile node while said mobile node is operating in said second state of operation. 19. The computer readable medium of claim 17, wherein the first control channel is an assignment channel used to transmit data communication resource allocation information. 20. The computer readable medium of claim 19, wherein said second control channel is a paging control channel used to transmit state control information.