IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0694805
(2010-01-27)
|
등록번호 |
US-8620332
(2013-12-31)
|
발명자
/ 주소 |
- Laroia, Rajiv
- Li, Junyi
- Uppala, Sathyadev
|
출원인 / 주소 |
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
6 인용 특허 :
147 |
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. The various states require different amounts of communications resources, e.g., bandwidth. Four supported states of operation are an o
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 an 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.
대표청구항
▼
1. A communications method, the method comprising: operating a wireless terminal, at different times, in each one of at least three different operational states, the three different operational states including a first state, a second state and a third state;wherein operating the wireless terminal i
1. A communications method, the method comprising: operating a wireless terminal, at different times, in each one of at least three different operational states, the three different operational states including a first state, a second state and a third state;wherein operating the wireless terminal in the first state causes the wireless terminal to monitor an assignment control channel, a fast paging channel, and a slow paging channel;wherein operating the wireless terminal in the second state causes the wireless terminal to monitor the fast paging channel, and the slow paging channel, and causes the wireless terminal not to monitor the assignment control channel;wherein operating the wireless terminal in the third state causes the wireless terminal to monitor the slow paging channel, and causes the wireless terminal not to monitor the assignment control channel and the fast paging channel; andwherein the fast paging channel is employed to receive one or more commands instructing the wireless terminal to transition between the operational states. 2. The method of claim 1, wherein the assignment control channel does not have a dedicated segment assigned to the wireless terminal, the assignment control channel is employed to receive one or more traffic channel assignments. 3. The method of claim 1, wherein the fast paging channel is periodic having one or more dedicated segments assigned to the wireless terminal and the wireless terminal only monitors the fast paging channel for a duration sufficient to monitor segments assigned to the wireless terminal. 4. The method of claim 1, wherein the slow paging channel is periodic having one or more dedicated segments assigned to the wireless terminal and is employed to receive one or more commands instructing the wireless terminal to transition between states, the internal between periods of the slow paging channel is greater than an interval between periods of the fast paging channel, the wireless terminal only monitors the fast paging channel for a duration sufficient to monitor segments assigned to the wireless terminal. 5. The method of claim 1, further comprising the wireless terminal determining when to transition between states based upon monitoring a level of messages on at least one of the assignment control channel, the fast paging channel, or the slow paging channel. 6. The method of claim 5, wherein at least one of: if the wireless terminal is in the first state and the level of messages directed to the wireless terminal on the assignment channel is zero or reduced for preselected period of time, the wireless terminal transitions to the second state; andif the wireless terminal is in the second state and the level of messages directed to the wireless terminal on the paging channel is zero or reduced for preselected period of time, the wireless terminal transitions to the third state. 7. The method of claim 1, wherein physical transmission resources used to implement the fast paging channel and are also used to implement the slow paging channel by staggering the periods of the fast and slow paging channels such that they do not overlap. 8. A wireless terminal, comprising: a device status control module for controlling said wireless terminal to operate, at different times, in each one of at least three different operational states, the three different operational states including a first state, a second state and a third state;wherein operating the wireless terminal in the first state causes the wireless terminal to monitor an assignment control channel, a fast paging channel, and a slow paging channel;wherein operating the wireless terminal in the second state causes the wireless terminal to monitor the fast paging channel, and the slow paging channel, and causes the wireless terminal not to monitor the assignment control channel; andwherein operating the wireless terminal in the third state causes the wireless terminal to monitor the slow paging channel, and causes the wireless terminal not to monitor the assignment control channel and the fast paging channel. 9. The wireless terminal of claim 8, wherein the assignment control channel does not have a dedicated segment assigned to the wireless terminal, the assignment control channel is employed to receive one or more traffic channel assignments. 10. The wireless terminal of claim 8, wherein the fast paging channel is periodic having one or more dedicated segments assigned to the wireless terminal and is employed to receive one or more commands instructing the wireless terminal to transition between states, the wireless terminal only monitors the fast paging channel for a duration sufficient to monitor segments assigned to the wireless terminal. 11. The wireless terminal of claim 8, wherein the slow paging channel is periodic having one or more dedicated segments assigned to the wireless terminal and is employed to receive one or more commands instructing the wireless terminal to transition between states, the internal between periods of the slow paging channel is greater than an interval between periods of the fast paging channel, the wireless terminal only monitors the fast paging channel for a duration sufficient to monitor segments assigned to the wireless terminal. 12. The wireless terminal of claim 8, the device status control module determining when to transition between states based upon monitoring a level of messages on at least one of the assignment control channel, the fast paging channel, or the slow paging channel. 13. The wireless terminal of claim 12, wherein at least one of: if the wireless terminal is in the first state and the level of messages directed to the wireless terminal on the assignment channel is zero or reduced for preselected period of time, the device status control module causes the wireless terminal transitions to the second state; andif the wireless terminal is in the second state and the level of messages directed to the wireless terminal on the paging channel is zero or reduced for preselected period of time, the device status control module causes the wireless terminal transitions to the third state. 14. The wireless terminal of claim 8, wherein physical transmission resources used to implement the fast paging channel and are also used to implement the slow paging channel by staggering the periods of the fast and slow paging channels such that they do not overlap. 15. A wireless terminal, comprising: means for controlling said wireless terminal to operate, at different times, in each one of at least three different operational states, the three different operational states including a first state, a second state and a third state;wherein operating the wireless terminal in the first state causes the wireless terminal to monitor an assignment control channel, a fast paging channel, and a slow paging channel;wherein operating the wireless terminal in the second state causes the wireless terminal to monitor the fast paging channel, and the slow paging channel, and causes the wireless terminal not to monitor the assignment control channel;wherein operating the wireless terminal in the third state causes the wireless terminal to monitor the slow paging channel, and causes the wireless terminal not to monitor the assignment control channel and the fast paging channel; andmeans for receiving the assignment control channel, the fast paging channel, and the slow paging channel. 16. The wireless terminal of claim 15, wherein the assignment control channel does not have a dedicated segment assigned to the wireless terminal, the assignment control channel is employed to receive one or more traffic channel assignments. 17. The wireless terminal of claim 15, wherein the fast paging channel is periodic having one or more dedicated segments assigned to the wireless terminal and is employed to receive one or more commands instructing the wireless terminal to transition between states, the wireless terminal only monitors the fast paging channel for a duration sufficient to monitor segments assigned to the wireless terminal. 18. The wireless terminal of claim 15, wherein the slow paging channel is periodic having one or more dedicated segments assigned to the wireless terminal and is employed to receive one or more commands instructing the wireless terminal to transition between states, the internal between periods of the slow paging channel is greater than an interval between periods of the fast paging channel, the wireless terminal only monitors the fast paging channel for a duration sufficient to monitor segments assigned to the wireless terminal. 19. The wireless terminal of claim 15, the means for controlling determining when to transition between states based upon monitoring a level of messages on at least one of the assignment control channel, the fast paging channel, or the slow paging channel. 20. The wireless terminal of claim 19 wherein at least one of: if the wireless terminal is in the first state and the level of messages directed to the wireless terminal on the assignment channel is zero or reduced for preselected period of time, the means for controlling causes the wireless terminal transitions to the second state; and if the wireless terminal is in the second state and the level of messages directed to the wireless terminal on the paging channel is zero or reduced for preselected period of time, the means for controlling causes the wireless terminal transitions to the third state.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.