Systems and methodologies are described that facilitate performing fast cell selection in a user device wherein the user device can select a serving sector from a list of sectors in its virtual active set (VAS), while in communication with a wireless network. The serving sector can be different from
Systems and methodologies are described that facilitate performing fast cell selection in a user device wherein the user device can select a serving sector from a list of sectors in its virtual active set (VAS), while in communication with a wireless network. The serving sector can be different from a nominal sector whose scrambling code the user device employs for transmission on the uplink, which scrambling code can be known to all sectors listed in the VAS for the user device. In this manner, all sectors in whose coverage area the user device is located can be included in the user device's VAS and can receive and demodulate transmissions there from.
대표청구항▼
1. A method of selecting a serving sector for a user device employing a first scrambling code in a wireless communication environment, the method comprising: generating a virtual active set (VAS) in the user device that comprises a list of sectors attempting to receive and demodulate transmission si
1. A method of selecting a serving sector for a user device employing a first scrambling code in a wireless communication environment, the method comprising: generating a virtual active set (VAS) in the user device that comprises a list of sectors attempting to receive and demodulate transmission signals from the user device based at least in part on knowledge of the first scrambling code, wherein the list of sectors comprises a sector assigned the first scrambling code and an advanced multi-user detection (AMUD) sector assigned a second scrambling code, and wherein the first and second scrambling codes are different;evaluating a beacon signal strength from each sector in the VAS;determining, by the user device, a sector with a highest signal-to-interference-plus-noise ratio (SINR) of the sectors in the VAS based on the evaluated beacon channel strengths; andselecting, by the user device, a sector from the list of sectors in the VAS as the serving sector based at least in part on the determined sector with the highest SINR, wherein the first scrambling code comprises a scrambling code of the nominal sector, which is employed by the user device, and is provided to all other sectors listed in the user device's VAS. 2. The method of claim 1, further comprising the user device receiving resource assignments from a nominal sector of the VAS for transmission of signals from the user device. 3. The method of claim 2, further comprising the user device transmitting signals, employing the first scrambling code associated with the resource assignments, during time slots associated with the resource assignments. 4. The method of claim 1, wherein the AMUD sector comprises one or more base stations that attempt to receive and demodulate transmissions from the user device using an AMUD sector technique. 5. The method of claim 1, wherein information related to resources assigned to the user device is known to all other sectors listed in the user device's VAS. 6. The method of claim 5, wherein all sectors in the user device's VAS are permitted to attempt to receive and demodulate transmissions from the user device based at least in part on knowledge of assigned resources employed by the user device to transmit a signal. 7. The method of claim 2, wherein the resources comprise a transmission channel and time slots for transmission. 8. The method of claim 1, further comprising the user device employing the serving sector for downlink data channel transmissions and control channel transmissions. 9. The method of claim 1, further comprising updating the VAS upon detection of one or more new sectors attempting to receive and demodulate transmissions from the user device. 10. The method of claim 9, wherein the updating further comprises updating the VAS as the user device travels into the new sector. 11. The method of claim 1, the wireless communication environment is a TDD UMTS wireless communication environment. 12. The method of claim 1, the wireless communication environment is at least one of an OFDMA wireless communication environment and an SC-FDMA wireless communication environment. 13. An apparatus in a user device employing a first scrambling code, which facilitates fast cell selection in a wireless communication environment, the apparatus comprising: a memory that stores a virtual active set (VAS) comprising a list of sectors trying to demodulate a transmission from the user device based at least in part on knowledge of the first scrambling code, wherein the list of sectors comprises a sector assigned the first scrambling code and an advanced multi-user detection (AMUD) sector assigned a second scrambling code, and wherein the first and second scrambling codes are different;a beacon channel analyzer that evaluates a signal-to-interference-plus-noise ratio (SINR) for a beacon channel associated with each sector in the list of sectors;a sector selector that determines a strongest beacon channel SINR;a processor, coupled to the memory, that selects a serving sector from the VAS based at least in part on the strongest beacon channel SINR determined by the sector selector, wherein the first scrambling code comprises a scrambling code of the nominal sector, which is employed by the user device, and is provided to all other sectors listed in the user device's VAS. 14. The apparatus of claim 13, wherein the list of sectors further comprising a nominal sector that allocates communication resources and the first scrambling code to the user device for transmissions from the user device. 15. The apparatus of claim 14, wherein all sectors in the list of sectors have knowledge of the first scrambling code employed by the user device and resources employed to transmit from the user device, such that all sectors in the list of sectors can attempt to receive and demodulate transmissions from the user device. 16. The apparatus of claim 13, wherein the user device transmits on an uplink using the first scrambling code associated with a nominal sector, the first scrambling code is known to all sectors in the list of sectors to permit such sectors to attempt demodulation of transmissions from the user device. 17. The apparatus of claim 13, wherein the processor updates the list of sectors stored in the memory as the user device enters and/or leaves a sector's coverage area. 18. The apparatus of claim 13, wherein the user device is at least one of a cellular phone, a smartphone, a laptop, a PDA, a handheld communication device, a handheld computing device, a satellite radio, and a global positioning system. 19. The apparatus of claim 13, the user device receives power control commands and rate control commands from all sectors listed in the list of sectors of the user device. 20. The apparatus of claim 13, the wireless communication environment is a TDD UMTS wireless communication environment. 21. The apparatus of claim 13, the wireless communication environment is at least one of an OFDMA wireless communication environment and an SC-FDMA wireless communication environment. 22. An apparatus in a user device employing a first scrambling code, which facilitates fast cell selection in a wireless communication environment, the apparatus comprising: means for generating a virtual active set (VAS) for the user device, the VAS comprises a list of sectors capable of communicating with the user device based at least in part on knowledge of the first scrambling code, wherein the list of sectors comprises a sector assigned the first scrambling code and an advanced multi-user detection (AMUD) sector assigned a second scrambling code, and wherein the first and second scrambling codes are different;means for updating the VAS as the user device traverses coverage areas of a plurality of sectors;means for analyzing a beacon channel signal-to-interference-plus-noise ratio (SINR) of each sector in the VAS to determine the sector with a greatest beacon channel SINR; andmeans for dynamically selecting a sector as a serving sector based at least in part on the sector with the greatest beacon channel SINR, wherein the first scrambling code comprises a scrambling code of the nominal sector, which is employed by the user device, and is provided to all other sectors listed in the user device's VAS. 23. The apparatus of claim 22, wherein a sector is capable of communicating with a user device when the user device is in the coverage area of a base station in the sector. 24. The apparatus of claim 23, the means for updating the VAS adds and removes sectors as the user device traverses sector coverage areas. 25. The apparatus of claim 24, wherein all sectors listed in the VAS are provided information related to the first scrambling code used by the user device and time slots during which the user device transmits communication signals with the first scrambling code. 26. The apparatus of claim 22, the wireless communication environment is a TDD UMTS wireless communication environment. 27. The apparatus of claim 22, the wireless communication environment is at least one of an OFDMA wireless communication environment and an SC-FDMA wireless communication environment. 28. A non-transitory computer-readable storage medium having stored thereon computer-executable instructions for: generating a virtual active set (VAS) comprising a list of sectors attempting to receive and demodulate transmission signals from a user device employing a first scrambling code based at least in part on knowledge of the first scrambling code, wherein the list of sectors comprises a sector assigned the first scrambling code and an advanced multi-user detection (AMU D) sector assigned a second scrambling code, and wherein the first and second scrambling codes are different;updating the list of sectors as the user device traverses sectors;monitoring a beacon channel signal-to-interference-plus-noise ratio (SINR) for each sector listed in the list of sectors;determining a highest SINR from the monitored beacon channel SINRs; andselecting a sector from the list of sectors as a serving sector over which data and control commands will be transmitted to the user device based at least in part on the sector with the highest SINR, wherein the first scrambling code comprises a scrambling code of the nominal sector, which is employed by the user device, and is provided to all other sectors listed in the user device's VAS. 29. The non-transitory computer-readable storage medium of claim 28, further comprising instructions for providing to all sectors in the list of sectors, through a controller, information relating to the first scrambling code employed by the user device during transmissions from the user device, to permit all sector in the list of sectors to receive and demodulate transmissions from the user device. 30. The non-transitory computer-readable storage medium of claim 29, further comprising instructions for updating the list of sectors as the user device enters and leaves different sector coverage areas. 31. The non-transitory computer-readable storage medium of claim 30, further comprising instructions for selecting a new serving sector when a sector in the list of sectors is determined to have a greater beacon channel SINR than a current serving sector. 32. The non-transitory computer-readable storage medium of claim 28, wherein the computer-executable instructions are operable in a TDD UMTS wireless communication environment. 33. The non-transitory computer-readable storage medium of claim 28, wherein the computer-executable instructions are operable in at least one of an OFDMA wireless communication environment and an SC-FDMA wireless communication environment. 34. A processor that executes instructions for performing fast cell selection in a wireless communication environment, the instructions comprising: generating a virtual active set (VAS) comprising a sector list comprising the identities of sectors attempting to receive and demodulate transmission signals from a user device employing a first scrambling code based at least in part on knowledge of the first scrambling code, wherein the sector list comprises a sector assigned the first scrambling code and an advanced multi-user detection (AMUD) sector assigned a second scrambling code, and wherein the first and second scrambling codes are different;updating the sector list as the user device traverses sectors;monitoring a beacon channel signal-to-interference-plus-noise ratio (SINR) for each sector listed in the sector list;determining a highest SINR from the monitored beacon channel SINRs; andselecting a sector from the sector list as a serving sector over which data and control commands will be transmitted to the user device based at least in part on the sector with the highest SINR, wherein the first scrambling code comprises a scrambling code of the nominal sector, which is employed by the user device, and is provided to all other sectors listed in the user device's VAS. 35. The processor of claim 34, further comprising instructions for providing to all sectors in the sector list, through a controller, information relating to the first scrambling code employed by the user device during transmissions from the user device, to permit all sector in the sector list to receive and demodulate transmissions from the user device. 36. The processor of claim 35, further comprising instructions for updating the sector list as the user device enters and leaves different sector coverage areas. 37. The processor of claim 36, further comprising instructions for selecting a new serving sector when a sector in the sector list is determined to have a greater beacon channel SINR than a current serving sector. 38. The processor of claim 34, the wireless communication environment is a TDD UMTS wireless communication environment. 39. The processor of claim 34, the wireless communication environment is at least one of an OFDMA wireless communication environment and an SC-FDMA wireless communication environment. 40. A mobile device employing a first scrambling code that facilitates communicating over a wireless network, the mobile device comprising: a processor that generates a virtual active set (VAS) comprising a list of sectors trying to receive or demodulate a transmission from the mobile device based at least in part on knowledge of the first scrambling code, wherein the list of sectors comprises a sector assigned the first scrambling code and an advanced multi-user detection (AMU D) sector assigned a second scrambling code, and wherein the first and second scrambling codes are different,updates the VAS as the mobile device traverses a plurality of sectors, andincludes in the VAS a nominal sector with the first scrambling code that is employed by a user device for transmissions from the user device;a memory that stores the VAS; anda beacon channel signal-to-interference-plus-noise ratio (SINR) analyzer that evaluates beacon channel strength from each sector in the VAS and provides such information to the processor;wherein the processor selects a sector in the VAS as a serving sector for data transmission to the user device based at least in part on the sector with a strongest beacon channel;wherein the first scrambling code comprises a scrambling code of the nominal sector, which is employed by the user device, and is provided to all other sectors listed in the user device's VAS. 41. The mobile device of claim 40, wherein the device is at least one of a cellular phone, a smartphone, a laptop, a PDA, a handheld communication device, a satellite radio, a handheld computing device, and a global positioning system. 42. The mobile device of claim 40, the wireless network employs a TDD UMTS wireless communication protocol. 43. The mobile device of claim 40, the wireless network employs at least one of an OFDMA wireless communication protocol and an SC-FDMA wireless communication protocol. 44. The method of claim 1, further comprising the user device receiving resource assignments from a nominal sector of the VAS for transmission of signals from the user device, wherein the AMUD sector comprises one or more base stations that attempt to receive and demodulate transmissions from the user device using an AMUD sector technique.
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