최소 단어 이상 선택하여야 합니다.
최대 10 단어까지만 선택 가능합니다.
다음과 같은 기능을 한번의 로그인으로 사용 할 수 있습니다.
NTIS 바로가기다음과 같은 기능을 한번의 로그인으로 사용 할 수 있습니다.
DataON 바로가기다음과 같은 기능을 한번의 로그인으로 사용 할 수 있습니다.
Edison 바로가기다음과 같은 기능을 한번의 로그인으로 사용 할 수 있습니다.
Kafe 바로가기국가/구분 | United States(US) Patent 등록 |
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국제특허분류(IPC7판) |
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출원번호 | US-0511950 (2006-08-28) |
등록번호 | US-9042212 (2015-05-26) |
발명자 / 주소 |
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출원인 / 주소 |
|
대리인 / 주소 |
|
인용정보 | 피인용 횟수 : 0 인용 특허 : 45 |
Method and apparatus for progressive preamble transmission in a communication system, such as a wireless system, is disclosed. In particular, a first symbol is utilized to communicate first timing information for coarse timing acquisition. A second symbol communicates first information including net
Method and apparatus for progressive preamble transmission in a communication system, such as a wireless system, is disclosed. In particular, a first symbol is utilized to communicate first timing information for coarse timing acquisition. A second symbol communicates first information including network identification information concerning a first network for fine timing acquisition of symbols in the first network. If a second network data is desired, a progressive or selectively utilizable third symbol communicates second information including network identification information concerning a second network. The network identification information concerning the second network includes network identification information concerning the first network to minimize processing to determine fine timing acquisition for the second network data.
1. A method for transmitting network identifiers in a communication system, the method comprising: transmitting a first symbol configured to communicate at least timing information;transmitting a second symbol configured to communicate first information including network identification information i
1. A method for transmitting network identifiers in a communication system, the method comprising: transmitting a first symbol configured to communicate at least timing information;transmitting a second symbol configured to communicate first information including network identification information identifying a first network; andtransmitting a third symbol configured to communicate second information including network identification information identifying a second network, where the network identification information identifying the second network includes at least a portion of the network identification information identifying the first network. 2. The method as defined in claim 1, wherein the second symbol is configured to include the first information including the network identification information having first network identification information scrambled by pseudo random noise sequences seeding with the symbol with the first network identification information. 3. The method as defined in claim 1, wherein the second symbol is configured to include the first information including the network identification information having first network identification information scrambled by pseudo random noise sequences seeding with the symbol with the first network identification information while transmitting Wide/Local area identifier information in the third symbol. 4. A method for determining network identifiers in a communication system in a transceiver, the method comprising: processing a first received symbol configured to communicate timing information identifying a first network to the transceiver;processing a second received symbol configured to communicate information including network identification information identifying the first network; andselectively processing a third received symbol configured to communicate information including network identification information identifying a second network, where the network identification information identifying the second network includes at least a portion of the network identification information identifying the first network when the transceiver is selectively configured to receive data from the second network. 5. The method as defined in claim 4, further comprising: acquiring fine timing in the transceiver based on information comprising at least network identification information identifying a first network, when second network information is not desired. 6. The method as defined in claim 4, further comprising: acquiring fine timing in the transceiver based on information comprising at least network identification information identifying a first network when second network information is desired. 7. The method as defined in claim 4, wherein the timing information identifying the first network is coarse timing information. 8. The method as defined in claim 7, further comprising: sampling at least one of the second received symbol and the third received symbol based on the coarse timing information. 9. The method as defined in claim 8, further comprising: estimating a noise baseline for at least one of the second received symbol and the third received symbol based on the coarse timing information. 10. The method as defined in claim 4, further comprising: estimating a noise baseline for at least one of the second and third received symbols based on the timing information identifying the first network. 11. The method as defined in claim 4, wherein the second received symbol is configured to include the information including network identification information identifying the first network in one of even interlaces or odd interlaces within the second received symbol. 12. The method as defined in claim 4, wherein the third received symbol is configured to include information including network identification information identifying the second network in one of even interlaces or odd interlaces within the third received symbol. 13. The method as defined in claim 4, further comprising: transforming at least one of the sampled second and third received symbol to frequency domain;descrambling pilot symbols embedded within at least one of the second and third received symbols using pseudorandom noise sequences;transforming the descrambled pilot symbols to time domain;determining channel estimates for at least one of the transformed descrambled pilot symbols associated with at least one of the second and third received symbols for a plurality of network identifiers;calculating a detection metric based on the determined channel estimates and the noise baseline based on; andselecting a network identifier within the network identification information from the plurality based on the largest value from the detection metric. 14. A processor for use in a transmitter, the processor configured to: transmit a first symbol configured to communicate at least timing information;transmit a second symbol configured to communicate first information including network identification information identifying a first network; andtransmit a third symbol configured to communicate second information including network identification information identifying a second network, where the network identification information identifying the second network includes at least a portion of the network identification information identifying the first network. 15. The processor as defined in claim 14, wherein the second symbol is configured to include the first information including the network identification information having first network identification information scrambled by pseudo random noise sequences seeding with the symbol with the first network identification information. 16. The processor as defined in claim 14, wherein the second symbol is configured to include the first information including the network identification information having first network identification information scrambled by pseudo random noise sequences seeding with the symbol with the first network identification information. 17. A processor for use in a transceiver, the processor configured to: process a first received symbol configured to communicate first timing information to the transceiver;process a second received symbol configured to communicate first information including network identification information identifying a first network; andselectively process a third received symbol configured to communicate second information including network identification information identifying a second network, where the network identification information identifying the second network includes at least a portion of the network identification information identifying the first network when the transceiver is selectively configured to receive data from the second network. 18. The processor as defined in claim 17, wherein the processor is further configured to acquire fine timing in the transceiver based on at least one of the first information including network identification information identifying a first network when second network information is not desired. 19. The processor as defined in claim 17, wherein the processor is further configured to acquire fine timing in the transceiver based on at least one of the first and second information including network identification information identifying a first network when second network information is desired. 20. The processor as defined in claim 17, wherein the first timing information is coarse timing information. 21. The processor as defined in claim 20, wherein the processor is further configured to sample at least one of the second received symbol and the third received symbol based on the coarse timing information. 22. The processor as defined in claim 21, wherein the processor is further configured to estimate a noise baseline for at least one of the second and third received symbols for at least one of the second received symbol and the third received symbol based on the coarse timing information. 23. The processor as defined in claim 17, wherein the processor is further configured to estimate a noise baseline for at least one of the second and third received symbols based on the first timing information. 24. The processor as defined in claim 17, wherein the second received symbol is configured to include the first information including network identification information identifying the first network in one of even interlaces or odd interlaces within the second received symbol. 25. The processor as defined in claim 17, wherein the third received symbol is configured to include the second information identifying the second network in one of even interlaces or odd interlaces within the third received symbol. 26. The processor as defined in claim 17, wherein the processor is further configured to: transform at least one of the sampled second and third received symbol to frequency domain;descramble pilot symbols embedded within at least one of the second and third received symbols using pseudorandom noise sequences;transform the descrambled pilot symbols to time domain;determine channel estimates for at least one of the transformed descrambled pilot symbols associated with at least one of the second and third received symbols for a plurality of network identifiers;calculate a detection metric based on the determined channel estimates and the noise baseline based on; andselect a network identifier within the network identification information from the plurality based on the largest value from the detection metric. 27. A processor for use in a transmitter, comprising: means for transmitting a first symbol configured to communicate at least timing information;means for transmitting a second symbol configured to communicate first information including network identification information identifying a first network; andmeans for transmitting a third symbol configured to communicate second information including network identification information identifying a second network, where the network identification information identifying the second network includes at least a portion of the network identification information identifying the first network. 28. The processor as defined in claim 27, wherein the second symbol is configured to include the first information including the network identification information having first network identification information scrambled by pseudo random noise sequences seeding with the symbol with the first network identification information. 29. The processor as defined in claim 27, wherein the second symbol is configured to include the first information including the network identification information having first network identification information scrambled by pseudo random noise sequences seeding with the symbol with the first network identification information while transmitting Wide/Local area identifier information in the third symbol. 30. A processor for use in a transceiver, comprising: means for processing a first received symbol configured to communicate first timing information to the transceiver;means for processing a second received symbol configured to communicate first information including network identification information identifying a first network; andmeans for selectively processing a third received symbol configured to communicate second information including network identification information identifying a second network, where the network identification information identifying the second network includes at least a portion of the network identification information identifying the first network when the transceiver is selectively configured to receive data from the second network. 31. The processor as defined in claim 30, further comprising: means for acquiring fine timing in the transceiver based on information comprising at least network identification information identifying a first network, when second network information is not desired. 32. The processor as defined in claim 30, further comprising: means for acquiring fine timing in the transceiver based on information comprising at least network identification information identifying a first network when second network information is desired. 33. The processor as defined in claim 30, wherein the timing information identifying the first network is coarse timing information. 34. The processor as defined in claim 33, further comprising: means for sampling at least one of the second received symbol and the third received symbol based on the coarse timing information. 35. The processor as defined in claim 34, further comprising: means for estimating a noise baseline for at least one of the second received symbol and the third received symbol based on the coarse timing information. 36. The processor as defined in claim 30, further comprising: means for estimating a noise baseline for at least one of the second and third received symbols based on the timing information identifying the first network. 37. The processor as defined in claim 30, wherein the second received symbol is configured to include the information including network identification information identifying the first network in one of even interlaces or odd interlaces within the second received symbol. 38. The processor as defined in claim 30, wherein the third received symbol is configured to include information including network identification information identifying the second network in one of even interlaces or odd interlaces within the third received symbol. 39. The processor as defined in claim 30, further comprising: means for transforming at least one of the sampled second and third received symbol to frequency domain;means for descrambling pilot symbols embedded within at least one of the second and third received symbols using pseudorandom noise sequences;means for transforming the descrambled pilot symbols to time domain;means for determining channel estimates for at least one of the transformed descrambled pilot symbols associated with at least one of the second and third received symbols for a plurality of network identifiers;means for calculating a detection metric based on the determined channel estimates and the noise baseline based on; andmeans for selecting a network identifier within the network identification information from the plurality based on the largest value from the detection metric. 40. A non-transitory computer-readable medium encoded with a set of instructions, the instructions comprising: an instruction, executed by a processor, for transmitting a first symbol configured to communicate at least timing information;an instruction, executed by a processor, for transmitting a second symbol configured to communicate first information including network identification information identifying a first network; andan instruction, executed by a processor, for transmitting a third symbol configured to communicate second information including network identification information identifying a second network, where the network identification information identifying the second network includes at least a portion of the network identification information identifying the first network. 41. The non-transitory computer-readable medium as defined in claim 40, wherein the second symbol is configured to include the first information including the network identification information having first network identification information scrambled by pseudo random noise sequences seeding with the symbol with the first network identification information. 42. The non-transitory computer-readable medium as defined in claim 40, wherein the second symbol is configured to include the first information including the network identification information having first network identification information scrambled by pseudo random noise sequences seeding with the symbol with the first network identification information while transmitting Wide/Local area identifier information in the third symbol. 43. A non-transitory computer-readable medium encoded with a set of instructions, the instructions comprising: an instruction, executed by a processor, for processing a first received symbol configured to communicate at least timing information to the transceiver;an instruction, executed by a processor, for processing a second received symbol configured to communicate first information including network identification information identifying a first network; andan instruction, executed by a processor, for selectively processing a third received symbol configured to communicate second information including network identification information identifying a second network, where the network identification information identifying the second network includes at least a portion of the network identification information identifying the first network when the transceiver is selectively configured to receive data from the second network. 44. The non-transitory computer-readable medium as defined in claim 43, wherein the instructions further comprise: an instruction, executed by a processor, for acquiring fine timing in the transceiver based on information comprising at least network identification information identifying a first network, when second network information is not desired. 45. The non-transitory computer-readable medium as defined in claim 43, wherein the instructions further comprise: an instruction, executed by a processor, for acquiring fine timing in the transceiver based on information comprising at least network identification information identifying a first network when second network information is desired. 46. The non-transitory computer-readable medium as defined in claim 43, wherein the timing information identifying the first network is coarse timing information. 47. The non-transitory computer-readable medium as defined in claim 46, wherein the instructions further comprise: an instruction, executed by a processor, for sampling at least one of the second received symbol and the third received symbol based on the coarse timing information. 48. The non-transitory computer-readable medium as defined in claim 43, wherein the instructions further comprise: an instruction, executed by a processor, for estimating a noise baseline for at least one of the second received symbol and the third received symbol based on the coarse timing information. 49. The non-transitory computer-readable medium as defined in claim 43, wherein the instructions further comprise: an instruction, executed by a processor, for estimating a noise baseline for at least one of the second and third received symbols based on the timing information identifying the first network. 50. The non-transitory computer-readable medium as defined in claim 43, wherein the second received symbol is configured to include the information including network identification information identifying the first network in one of even interlaces or odd interlaces within the second received symbol. 51. The non-transitory computer-readable medium as defined in claim 43, wherein the third received symbol is configured to include information including network identification information identifying the second network in one of even interlaces or odd interlaces within the third received symbol. 52. The non-transitory computer-readable medium as defined in claim 43, wherein the instructions further comprise: an instruction, executed by a processor, for transforming at least one of the sampled second and third received symbol to frequency domain;an instruction, executed by a processor, for descrambling pilot symbols embedded within at least one of the second and third received symbols using pseudorandom noise sequences;an instruction, executed by a processor, for transforming the descrambled pilot symbols to time domain;an instruction, executed by a processor, for determining channel estimates for at least one of the transformed descrambled pilot symbols associated with at least one of the second and third received symbols for a plurality of network identifiers;an instruction, executed by a processor, for calculating a detection metric based on the determined channel estimates and the noise baseline based on; andan instruction, executed by a processor, for selecting a network identifier within the network identification information from the plurality based on the largest value from the detection metric. 53. A method for transmitting network identifiers in a communication system, the method comprising: transmitting a first symbol configured to communicate first information including network identification information identifying a first network; andtransmitting a second symbol configured to communicate second information including network identification information identifying a second network, where the network identification information identifying the second network includes at least a portion of the network identification information identifying the first network. 54. The method as defined in claim 53, wherein the first symbol is configured to include the first information including the network identification information having first network identification information scrambled by pseudo random noise sequences seeding with the symbol with the first network identification information. 55. The method as defined in claim 53, wherein the first symbol is configured to include the first information including the network identification information having first network identification information scrambled by pseudo random noise sequences seeding with the symbol with the first network identification information while transmitting Wide/Local area identifier information in the second symbol. 56. A method for determining network identifiers in a communication system in a transceiver, the method comprising: processing a first received symbol configured to communicate information including network identification information identifying a first network; andselectively processing a second received symbol configured to communicate information including network identification information identifying a second network, where the network identification information identifying the second network includes at least a portion of the network identification information identifying the first network when the transceiver is selectively configured to receive data from the second network. 57. The method as defined in claim 56, further comprising: acquiring fine timing in the transceiver based on information comprising at least network identification information identifying a first network, when second network information is not desired. 58. The method as defined in claim 56, further comprising: acquiring fine timing in the transceiver based on information comprising at least network identification information identifying a first network when second network information is desired. 59. The method as defined in claim 56, wherein the timing information identifying the first network is coarse timing information. 60. The method as defined in claim 59, further comprising: sampling at least one of the first received symbol and the second received symbol based on the coarse timing information. 61. The method as defined in claim 60, further comprising: estimating a noise baseline for at least one of the first received symbol and the second received symbol based on the coarse timing information. 62. The method as defined in claim 56, further comprising: estimating a noise baseline for at least one of the first and second received symbols based on the timing information identifying the first network. 63. The method as defined in claim 56, wherein the first received symbol is configured to include the information including network identification information identifying the first network in one of even interlaces or odd interlaces within the first received symbol. 64. The method as defined in claim 56, wherein the second received symbol is configured to include information including network identification information identifying the second network in one of even interlaces or odd interlaces within the second received symbol. 65. The method as defined in claim 56, further comprising: transforming at least one of the sampled first and second received symbol to frequency domain;descrambling pilot symbols embedded within at least one of the first and second received symbols using pseudorandom noise sequences;transforming the descrambled pilot symbols to time domain;determining channel estimates for at least one of the transformed descrambled pilot symbols associated with at least one of the first and second received symbols for a plurality of network identifiers;calculating a detection metric based on the determined channel estimates and the noise baseline based on; andselecting a network identifier within the network identification information from the plurality based on the largest value from the detection metric. 66. A processor for use in a transmitter, the processor configured to: transmit a first symbol configured to communicate first information including network identification information identifying a first network; andtransmit a second symbol configured to communicate second information including network identification information identifying a second network, where the network identification information identifying the second network includes at least a portion of the network identification information identifying the first network. 67. The processor as defined in claim 66, wherein the first symbol is configured to include the first information including the network identification information having first network identification information scrambled by pseudo random noise sequences seeding with the symbol with the first network identification information. 68. The processor as defined in claim 66, wherein the first symbol is configured to include the first information including the network identification information having first network identification information scrambled by pseudo random noise sequences seeding with the symbol with the first network identification information. 69. A processor for use in a transceiver, the processor configured to: process a first received symbol configured to communicate first information including network identification information identifying a first network; andselectively process a second received symbol configured to communicate second information including network identification information identifying a second network, where the network identification information identifying the second network includes at least a portion of the network identification information identifying the first network when the transceiver is selectively configured to receive data from the second network. 70. The processor as defined in claim 69, wherein the processor is further configured to acquire fine timing in the transceiver based on at least one of the first information including network identification information identifying a first network when second network information is not desired. 71. The processor as defined in claim 69, wherein the processor is further configured to acquire fine timing in the transceiver based on at least one of the first and second information including network identification information identifying a first network when second network information is desired. 72. The processor as defined in claim 69, wherein the first timing information is coarse timing information. 73. The processor as defined in claim 72, wherein the processor is further configured to sample at least one of the first received symbol and the second received symbol based on the coarse timing information. 74. The processor as defined in claim 73, wherein the processor is further configured to estimate a noise baseline for at least one of the first and second received symbols for at least one of the first received symbol and the second received symbol based on the coarse timing information. 75. The processor as defined in claim 69, wherein the processor is further configured to estimate a noise baseline for at least one of the first and second received symbols based on the first timing information. 76. The processor as defined in claim 69, wherein the first received symbol is configured to include the first information including network identification information identifying the first network in one of even interlaces or odd interlaces within the first received symbol. 77. The processor as defined in claim 69, wherein the second received symbol is configured to include the second information identifying the second network in one of even interlaces or odd interlaces within the second received symbol. 78. The processor as defined in claim 77, further comprising: means for sampling at least one of the first received symbol and the second received symbol based on the coarse timing information. 79. The processor as defined in claim 78, further comprising: means for estimating a noise baseline for at least one of the first received symbol and the second received symbol based on the coarse timing information. 80. The processor as defined in claim 69, wherein the processor is further configured to: transform at least one of the sampled first and second received symbol to frequency domain;descramble pilot symbols embedded within at least one of the first and second received symbols using pseudorandom noise sequences;transform the descrambled pilot symbols to time domain;determine channel estimates for at least one of the transformed descrambled pilot symbols associated with at least one of the first and second received symbols for a plurality of network identifiers;calculate a detection metric based on the determined channel estimates and the noise baseline based on; andselect a network identifier within the network identification information from the plurality based on the largest value from the detection metric. 81. A processor for use in a transmitter, comprising: means for transmitting a first symbol configured to communicate first information including network identification information identifying a first network; andmeans for transmitting a second symbol configured to communicate second information including network identification information identifying a second network, where the network identification information identifying the second network includes at least a portion of the network identification information identifying the first network. 82. The processor as defined in claim 81, wherein the first symbol is configured to include the first information including the network identification information having first network identification information scrambled by pseudo random noise sequences seeding with the symbol with the first network identification information. 83. The processor as defined in claim 81, wherein the first symbol is configured to include the first information including the network identification information having first network identification information scrambled by pseudo random noise sequences seeding with the symbol with the first network identification information while transmitting Wide/Local area identifier information in the second symbol. 84. A processor for use in a transceiver, comprising: means for processing a first received symbol configured to communicate first information including network identification information identifying a first network; andmeans for selectively processing a second received symbol configured to communicate second information including network identification information identifying a second network, where the network identification information identifying the second network includes at least a portion of the network identification information identifying the first network when the transceiver is selectively configured to receive data from the second network. 85. The processor as defined in claim 84, further comprising: means for acquiring fine timing in the transceiver based on information comprising at least network identification information identifying a first network, when second network information is not desired. 86. The processor as defined in claim 84, further comprising: means for acquiring fine timing in the transceiver based on information comprising at least network identification information identifying a first network when second network information is desired. 87. The processor as defined in claim 84, wherein the timing information identifying the first network is coarse timing information. 88. The processor as defined in claim 84, further comprising: means for estimating a noise baseline for at least one of the first and second received symbols based on the timing information identifying the first network. 89. The processor as defined in claim 84, wherein the first received symbol is configured to include the information including network identification information identifying the first network in one of even interlaces or odd interlaces within the first received symbol. 90. The processor as defined in claim 84, wherein the second received symbol is configured to include information including network identification information identifying the second network in one of even interlaces or odd interlaces within the second received symbol. 91. The processor as defined in claim 84, further comprising: means for transforming at least one of the sampled first and second received symbol to frequency domain;means for descrambling pilot symbols embedded within at least one of the first and second received symbols using pseudorandom noise sequences;means for transforming the descrambled pilot symbols to time domain;means for determining channel estimates for at least one of the transformed descrambled pilot symbols associated with at least one of the first and second received symbols for a plurality of network identifiers;means for calculating a detection metric based on the determined channel estimates and the noise baseline based on; andmeans for selecting a network identifier within the network identification information from the plurality based on the largest value from the detection metric. 92. A non-transitory computer-readable medium encoded with a set of instructions, the instructions comprising: an instruction, executed by a processor, for transmitting a first symbol configured to communicate first information including network identification information identifying a first network; andan instruction, executed by a processor, for transmitting a second symbol configured to communicate second information including network identification information identifying a second network, where the network identification information identifying the second network includes at least a portion of the network identification information identifying the first network. 93. The non-transitory computer-readable medium as defined in claim 92, wherein the first symbol is configured to include the first information including the network identification information having first network identification information scrambled by pseudo random noise sequences seeding with the symbol with the first network identification information. 94. The non-transitory computer-readable medium as defined in claim 92, wherein the first symbol is configured to include the first information including the network identification information having first network identification information scrambled by pseudo random noise sequences seeding with the symbol with the first network identification information while transmitting Wide/Local area identifier information in the second symbol. 95. A non-transitory computer-readable medium encoded with a set of instructions, the instructions comprising: an instruction, executed by a processor, for processing a first received symbol configured to communicate first information including network identification information identifying a first network; andan instruction, executed by a processor, for selectively processing a second received symbol configured to communicate second information including network identification information identifying a second network, where the network identification information identifying the second network includes at least a portion of the network identification information identifying the first network when the transceiver is selectively configured to receive data from the second network. 96. The non-transitory computer-readable medium as defined in claim 95, wherein the instructions further comprise: an instruction, executed by a processor, for acquiring fine timing in the transceiver based on information comprising at least network identification information identifying a first network, when second network information is not desired. 97. The non-transitory computer-readable medium as defined in claim 95, wherein the instructions further comprise: an instruction, executed by a processor, for acquiring fine timing in the transceiver based on information comprising at least network identification information identifying a first network when second network information is desired. 98. The non-transitory computer-readable medium as defined in claim 95, wherein the timing information identifying the first network is coarse timing information. 99. The non-transitory computer-readable medium as defined in claim 98, wherein the instructions further comprise: an instruction, executed by a processor, for sampling at least one of the first received symbol and the second received symbol based on the coarse timing information. 100. The non-transitory computer-readable medium as defined in claim 99, wherein the instructions further comprise: an instruction, executed by a processor, for estimating a noise baseline for at least one of the first received symbol and the second received symbol based on the coarse timing information. 101. The non-transitory computer-readable medium as defined in claim 95, wherein the instructions further comprise: an instruction, executed by a processor, for estimating a noise baseline for at least one of the first and second received symbols based on the timing information identifying the first network. 102. The non-transitory computer-readable medium as defined in claim 95, wherein the first received symbol is configured to include the information including network identification information identifying the first network in one of even interlaces or odd interlaces within the first received symbol. 103. The non-transitory computer-readable medium as defined in claim 95, wherein the second received symbol is configured to include information including network identification information identifying the second network in one of even interlaces or odd interlaces within the second received symbol. 104. The non-transitory computer-readable medium as defined in claim 95, wherein the instructions further comprise: an instruction, executed by a processor, for transforming at least one of the sampled first and second received symbol to frequency domain;an instruction, executed by a processor, for descrambling pilot symbols embedded within at least one of the first and second received symbols using pseudorandom noise sequences;an instruction, executed by a processor, for transforming the descrambled pilot symbols to time domain;an instruction, executed by a processor, for determining channel estimates for at least one of the transformed descrambled pilot symbols associated with at least one of the first and second received symbols for a plurality of network identifiers;an instruction, executed by a processor, for calculating a detection metric based on the determined channel estimates and the noise baseline based on; andan instruction, executed by a processor, for selecting a network identifier within the network identification information from the plurality based on the largest value from the detection metric.
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