Adaptive Selection of Signal-Detection Mode
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Accused Products
Abstract
A wireless device detects a synchronization signal by obtaining (210), from a received signal, a sequence of samples, and calculating (220) a differentially decoded sequence from the obtained sequence of samples. The wireless device correlates (230) the calculated differentially decoded sequence with a first reference sequence corresponding to the synchronization signal, at each of a plurality of time offsets, and identifies which of the plurality of time offsets results in a largest correlation result. In response to determining (240) that the largest correlation result does not meet a predetermined reliability criterion, the wireless device correlates (250) the obtained sequence of samples with a second reference sequence, at each of a plurality of time and frequency offsets, and identifies which combination of time offset and frequency offset results in a largest correlation result. The first reference sequence comprises a differentially decoded version of the second reference sequence.
2 Citations
53 Claims
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1-28. -28. (canceled)
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29. A method, in a wireless device, for detecting time and frequency offsets for a synchronization signal in a received signal, the method comprising:
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obtaining, from the received signal, a sequence of samples for a first time interval; calculating a differentially decoded sequence from the obtained sequence of samples, each element of the differentially decoded sequence representing a phase shift between a pair of samples from the obtained sequence of samples; correlating the calculated differentially decoded sequence with a first reference sequence corresponding to the synchronization signal, at each of a plurality of time offsets, to generate a corresponding plurality of first correlation results, and identifying which of the plurality of time offsets results in a largest one of the first correlation results; determining that the largest one of the first correlation results does not meet a predetermined reliability criterion; and in response to said determining, coherently detecting the synchronization signal by correlating the obtained sequence of samples with a second reference sequence, at each of a plurality of time offsets and at each of a plurality of frequency offsets, to generate a corresponding plurality of second correlation results, and identifying which combination of time offset and frequency offset results in a largest one of the second correlation results; wherein the first reference sequence comprises a differentially decoded version of the second reference sequence. - View Dependent Claims (30, 31, 32, 33, 34, 35, 37, 38, 39, 40)
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41. A wireless device arranged to detect time and frequency offsets for a synchronization signal in a received signal, the wireless device comprising:
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a receiver and sampling circuit configured to obtain, from the received signal, a sequence of samples for a first time interval; and a processing circuit configured to calculate a differentially decoded sequence from the obtained sequence of samples, each element of the differentially decoded sequence representing a phase shift between a pair of samples from the obtained sequence of samples, correlate the calculated differentially decoded sequence with a first reference sequence corresponding to the synchronization signal, at each of a plurality of time offsets, to generate a corresponding plurality of first correlation results, and identify which of the plurality of time offsets results in a largest one of the first correlation results, determine, that the largest one of the first correlation results does not meet a predetermined reliability criterion, and in response to said determining, coherently detect the synchronization signal by correlating the obtained sequence of samples with a second reference sequence, at each of a plurality of time offsets and at each of a plurality of frequency offsets, to generate a corresponding plurality of second correlation results, and identify which combination of time offset and frequency offset results in a largest one of the second correlation results; wherein the first reference sequence comprises a differentially decoded version of the second reference sequence. - View Dependent Claims (42, 43, 44, 45, 46, 47, 48, 49, 50, 51, 52)
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53. A non-transitory computer-readable medium comprising, stored thereupon, a computer program product comprising computer program instructions for execution by a wireless device, wherein the computer program instructions are arranged such that, when executed by a processing circuit in the wireless device, the computer program instructions cause the wireless device to detect time and frequency offsets for a synchronization signal in a received signal by:
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obtaining, from the received signal, a sequence of samples for a first time interval; calculating a differentially decoded sequence from the obtained sequence of samples, each element of the differentially decoded sequence representing a phase shift between a pair of samples from the obtained sequence of samples; correlating the calculated differentially decoded sequence with a first reference sequence corresponding to the synchronization signal, at each of a plurality of time offsets, to generate a corresponding plurality of first correlation results, and identify which of the plurality of time offsets results in a largest one of the first correlation results; determining that the largest one of the first correlation results does not meet a predetermined reliability criterion; and in response to said determining, coherently detecting the synchronization signal by correlating the obtained sequence of samples with a second reference sequence, at each of a plurality of time offsets and at each of a plurality of frequency offsets, to generate a corresponding plurality of second correlation results, and identify which combination of time offset and frequency offset results in a largest one of the second correlation results; wherein the first reference sequence comprises a differentially decoded version of the second reference sequence.
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Specification