IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0904776
(2004-11-29)
|
등록번호 |
US-7321771
(2008-01-22)
|
우선권정보 |
TW-92134476 A(2003-12-05); TW-93123275 A(2004-08-03) |
발명자
/ 주소 |
- Lin,Chun Hsiung
- Lin,Sung Yao
|
출원인 / 주소 |
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
1 인용 특허 :
2 |
초록
▼
A control method, capable of reducing the call dropped rate of a mobile station in a wireless communication system, includes monitoring receiving power levels of a plurality of neighbor cells of the wireless communication system according to an information of a serving cell of the wireless communica
A control method, capable of reducing the call dropped rate of a mobile station in a wireless communication system, includes monitoring receiving power levels of a plurality of neighbor cells of the wireless communication system according to an information of a serving cell of the wireless communication system; and if the Base Station Identification Codes (BSICs) of the six neighbor cells corresponding to the six strongest receiving power levels are known, and if the BSIC of at least one neighbor cell corresponding to at least one receiving power level other than the six strongest ones is unknown, performing frequency correction and synchronization of the mobile station with respect to the at least one neighbor cell's Broadcast Control Channel (BCCH) to decode the at least one neighbor cell's BSIC.
대표청구항
▼
What is claimed is: 1. A control method capable of reducing a call dropped rate of a mobile station in a wireless communication system, the control method comprising: monitoring receiving power levels of a plurality of neighbor cells of the wireless communication system according to an information
What is claimed is: 1. A control method capable of reducing a call dropped rate of a mobile station in a wireless communication system, the control method comprising: monitoring receiving power levels of a plurality of neighbor cells of the wireless communication system according to an information of a serving cell of the wireless communication system; the mobile station reconfirming the synchronization of the mobile station with respect to the BCCHs of neighbor cells having known BSICs in response to Base Station Identification Codes (BSICs) of the six neighbor cells corresponding to the six strongest receiving power levels being known; and entering a second priority mode for performing frequency correction and synchronization of the mobile station with respect to at least one neighbor cell's Broadcast Control Channel (BCCH) to decode the at least one neighbor cell's BSIC only when the mobile station reconfirming the synchronization of the mobile station with respect to the BCCHs of neighbor cells having known BSICs is completed, wherein the at least one neighbor cell corresponds to at least one receiving power level other than the six strongest ones. 2. The control method of claim 1, wherein the information is the latest information in the BCCH Allocation List (BA List). 3. The control method of claim 1, wherein one of the receiving power levels is the carrier power level of the BCCH of the corresponding neighbor cell. 4. The control method of claim 1, wherein the wireless communication system is a GSM system or a CPRS system. 5. The control method of claim 1, wherein frequency correction and synchronization of the mobile station with respect to the BCCH of the neighbor cell having the stronger receiving power level is performed first. 6. The control method of claim 1 further comprising: when all the monitored neighbor cells' BSTCs are known, or the time period, during which the mobile station performs reconfirmation of the synchronization of the mobile station with respect to the BCCHs of the neighbor cells having known BSICs, reaches a predetermined duration, entering a reconfirmation mode to thereby perform a reconfirmation operation to reconfirm the synchronization of the mobile station with respect to the BCCHs of the neighbor cells having known BSICs. 7. The control method of claim 1 further comprising: when one of the BSICs of the six neighbor cells corresponding to the six strongest receiving power levels is unknown, entering a first priority mode for performing frequency correction and synchronization of the mobile station with respect to the unknown neighbor cell's BCCH to decode the neighbor cell's BSIC. 8. A control circuit capable of reducing the call dropped rate of a mobile station in a wireless communication system, the control circuit comprising: a first module for monitoring receiving power levels of a plurality of neighbor cells of the wireless communication system according to an information of a serving cell of the wireless communication system; and a second module coupled to the first module, wherein the mobile station reconfirms the synchronization of the mobile station with respect to the BCCHs of neighbor cells having known BSICs in response to the Base Station Identification Codes (BSICs) of the six neighbor cells corresponding to the six strongest receiving power levels being known, and the second module enters a second priority mode for making the first module perform frequency correction and synchronization of the mobile station with respect to at least one neighbor cell's BOCH to decode the at least one neighbor cell's BSIC only when the mobile station reconfirming the synchronization of the mobile station with respect to the BCCHs of neighbor cells having known BSICs is completed, wherein the at least one neighbor cell corresponds to at least one receiving power level other than the six strongest ones. 9. The control circuit of claim 8, wherein the information is the latest information in the BCCH Allocation List (BA List). 10. The control circuit of claim 8, wherein the first module is a lower layer of the mobile station, and the second module is an upper layer of the mobile station. 11. The control circuit of claim 8, wherein the first module comprises a lower layer and a first portion of an upper layer of die mobile station, and the second module is a state machine installed in the upper layer. 12. The control circuit of claim 11, wherein the upper layer consists of the state machine and the first portion. 13. The control circuit of claim 8, wherein the first and second modules are components of a lower layer of the mobile station. 14. The control circuit of claim 8, wherein one of the receiving power levels is the carrier power level of the BCCH of the corresponding neighbor cell. 15. The control circuit of claim 8, wherein the wireless communication system is a GSM system or a GPRS system. 16. The control circuit of claim 8, wherein frequency correction and synchronization of the mobile station with respect to the BCCH of the neighbor cell having the stronger receiving power level is performed first. 17. The control circuit of claim 8, wherein when all the monitored neighbor cells'BSICs are known, or the time period, during which the mobile station performs reconfirmation of the synchronization of the mobile station with respect to the BCCHs of the neighbor cells having known BSICs, reaches a predetermined duration, the second module enters a reconfirmation mode to make the first module reconfirm the synchronization of the mobile station with respect to the BCCHs of the neighbor cells having known BSICs. 18. The control circuit of claim 8, wherein when one of the BSICs of the six neighbor cells corresponding to the six strongest receiving power levels is unknown, the second module enters a first priority mode to make the first module perform the frequency correction and synchronization of the mobile station with respect to the unknown neighbor cell's BCCH to decode the neighbor cell's BSIC. 19. A mobile station comprising: an antenna, for transmitting and receiving wireless communication signals; a first module, coupled to the antenna, for monitoring receiving power levels of a plurality of neighbor cells of the wireless communication system according to an information of a serving cell of the wireless communication system; and a second module, coupled to the first module, wherein the mobile station reconfirming the synchronization of the mobile station with respect to the BCCHs of neighbor cells having known BSICs in response to the the Base Station Identification Codes (BSICs) of the six neighbor tells corresponding to the six strongest receiving power levels being known, and the second module enters a second priority mode for making the first module perform frequency correction and synchronization of the mobile station with respect to at least one neighbor cell's BCCH to decode the at least one neighbor cell's BSIC only when the mobile station reconfirming the synchronization of the mobile station with respect to the BCCHs of neighbor cells having known BSICs is completed, wherein the at least one neighbor cell corresponds to at least one receiving power level other than the six strongest ones. 20. The mobile station of claim 19, wherein the information is the latest information in the BCCH Allocation List (BA List). 21. The mobile station of claim 19, wherein one of the receiving power levels is the carrier power level of the BCCH of the corresponding neighbor cell. 22. The mobile station of claim 19, wherein the wireless communication system is a GSM system or a GPRS system. 23. The mobile station of claim 19, wherein frequency correction and synchronization of the mobile station with respect to the BCCH of the neighbor cell having the stronger receiving power level is performed first. 24. The mobile station of claim 19, wherein when all the monitored neighbor cells'BSlCs are known, or the time period, during which the mobile station performs reconfirmation of the synchronization of the mobile station with respect to the BCCHs of the neighbor cells having known BSICs, reaches a predetermined duration, the second module enters a reconfirmation mode to make the first module reconfirm the synchronization of the mobile station with respect to the BCCHs of the neighbor cells having known BSICs. 25. The mobile station of claim 19, wherein when one of the BSICs of the six neighbor cells corresponding to the six strongest receiving power levels is unknown, the second module enters a first priority mode to make the first module perform the frequency correction and synchronization of the mobile station with respect to the unknown neighbor cell's BCCH to decode the neighbor cell's BSIC. 26. The control method of claim 1, wherein monitoring receiving power levels of the plurality of neighbor cells is performed every first predetermined time period. 27. The control method of claim 6, wherein entering the reconfirmation mode to thereby perform the reconfirmation operation to reconfirm the synchronization of the mobile station with respect to the BCCHs of the neighbor cells having known BSICs is performed every second predetermined time period. 28. The control method of claim 7, wherein entering the first priority mode for performing frequency correction and synchronization of the mobile station with respect to the unknown neighbor cell's BCCH to decode the neighbor cell's BSIC is predetermined every third predetermined time period. 29. The control circuit of claim 8, wherein the first module monitors receiving power levels of the plurality of neighbor cells every first predetermined time period. 30. The control circuit of claim 17, wherein the second module enters the reconfirmation mode to make the first module reconfirm synchronization of the mobile station with respect to the BCCHs of the neighbor cells having known BSlCs every second predetermined time period. 31. The control circuit of claim 18, wherein the second module enters the first priority mode to make the first module perform the frequency correction and synchronization of the mobile station with respect to the unknown neighbor cell's BCCH to decode the neighbor cell's BSIC every third predetermined time period. 32. The control circuit of claim 19, wherein the first module monitors receiving power levels of the plurality of neighbor cells every first predetermined time period. 33. The control circuit of claim 24, wherein the second module enters the reconfirmation mode to make the first module reconfirm synchronization of the mobile station with respect to the BCCHs of the neighbor cells having known BSICs every second predetermined time period. 34. The control circuit of claim 25, wherein the second module enters the first priority mode to make the first module perform the frequency correction and synchronization of the mobile station with respect to the unknown neighbor cell'BCCH to decode the neighbor cell's BSIC every third predetermined time period.
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