Traveling pilots within single user, multiple user, multiple access, and/or MIMO wireless communications
First Claim
Patent Images
1. A wireless communication device comprising:
- a communication interface; and
processing circuitry that is coupled to the communication interface, wherein at least one of the communication interface or the processing circuitry is configured to;
select a fast Fourier transform (FFT) structure from a plurality of FFT structures;
generate a plurality of OFDM symbols that includes data and pilots modulated on an occupied subset of a plurality of sub-carriers associated with the FFT structure; and
transmit the plurality of OFDM symbols to another wireless communication device to be used by the another wireless communication device to perform channel estimation of a wireless communication channel between the wireless communication device and the another wireless communication device, wherein;
a first FFT structure of the plurality of FFT structures specifies a first number of sub-carriers, a first occupied subset of sub-carriers within the first number of sub-carriers for the first FFT structure, and a first pilot periodicity of a first number of symbols associated with a first pilot pattern of the first FFT structure;
a second FFT structure of the plurality of FFT structures specifies a second number of sub-carriers that is different than the first number of sub-carriers, a second occupied subset of sub-carriers within the second number of sub-carriers for the second FFT structure, and a second pilot periodicity of a second number of symbols associated with a second pilot pattern for the respective FFT;
the plurality of FFT structures includes the first FFT structure, the second FFT structure, and a third FFT structure;
the second FFT structure is double size of the first FFT structure;
the third FFT structure is double size of the second FFT structure;
the first FFT structure has the first pilot periodicity of the first number of symbols; and
the second FFT structure and the third FFT structure both have the second pilot periodicity of the second number of symbols that is different than the first pilot periodicity of the first number of symbols.
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Abstract
Pilot tones are included within symbols (e.g., orthogonal frequency division multiplexing (OFDM) symbols) transmitted between wireless communication devices. The pilot tones occupy fewer than all tone locations in any given symbol, and the pilot tones occupy different respective locations within different symbols. Generally, these traveling pilots are assigned to different respective tone locations in different symbols. In total, the pilot tones did not cover every single tone location within the symbols used to convey information between devices. Considering for example, when pilots occupy fewer than all tone locations, even among multiple symbols, a device may perform interpolation to generate a pilot tone estimate corresponding to a tone location not occupied by pilot tone within any symbol. Also, power or magnitude of the pilot tones themselves may be boosted or amplified relative to power magnitude of other tones within such symbols.
59 Citations
20 Claims
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1. A wireless communication device comprising:
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a communication interface; and processing circuitry that is coupled to the communication interface, wherein at least one of the communication interface or the processing circuitry is configured to; select a fast Fourier transform (FFT) structure from a plurality of FFT structures; generate a plurality of OFDM symbols that includes data and pilots modulated on an occupied subset of a plurality of sub-carriers associated with the FFT structure; and transmit the plurality of OFDM symbols to another wireless communication device to be used by the another wireless communication device to perform channel estimation of a wireless communication channel between the wireless communication device and the another wireless communication device, wherein; a first FFT structure of the plurality of FFT structures specifies a first number of sub-carriers, a first occupied subset of sub-carriers within the first number of sub-carriers for the first FFT structure, and a first pilot periodicity of a first number of symbols associated with a first pilot pattern of the first FFT structure; a second FFT structure of the plurality of FFT structures specifies a second number of sub-carriers that is different than the first number of sub-carriers, a second occupied subset of sub-carriers within the second number of sub-carriers for the second FFT structure, and a second pilot periodicity of a second number of symbols associated with a second pilot pattern for the respective FFT; the plurality of FFT structures includes the first FFT structure, the second FFT structure, and a third FFT structure; the second FFT structure is double size of the first FFT structure; the third FFT structure is double size of the second FFT structure; the first FFT structure has the first pilot periodicity of the first number of symbols; and the second FFT structure and the third FFT structure both have the second pilot periodicity of the second number of symbols that is different than the first pilot periodicity of the first number of symbols. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
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9. A wireless communication device comprising:
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a communication interface; and processing circuitry that is coupled to the communication interface, wherein at least one of the communication interface or the processing circuitry configured to; select a fast Fourier transform (FFT) structure from a plurality of FFT structures; generate a plurality of OFDM symbols that includes data and pilots modulated on an occupied subset of a plurality of sub-carriers associated with the FFT structure; and transmit the plurality of OFDM symbols to another wireless communication device to be used by the another wireless communication device to perform channel estimation of a wireless communication channel between the wireless communication device and the another wireless communication device, wherein; a first FFT structure of the plurality of FFT structures specifies a first number of sub-carriers, a first occupied subset of sub-carriers within the first number of sub-carriers for the first FFT structure, and a first pilot periodicity of a first number of symbols associated with a first pilot pattern of the first FFT structure; a second FFT structure of the plurality of FFT structures specifies a second number of sub-carriers that is different than the first number of sub-carriers, a second occupied subset of sub-carriers within the second number of sub-carriers for the second FFT structure, and a second pilot periodicity of a second number of symbols associated with a second pilot pattern for the respective FFT; the plurality of FFT structures includes the first FFT structure, the second FFT structure, a third FFT structure, a fourth FFT structure, and a fifth FFT structure; the first FFT structure is a 32 FFT structure and has the first pilot periodicity of the first number of symbols; the second FFT structure is a 64 FFT structure and has the second pilot periodicity of the second number of symbols; the third FFT structure is a 128 FFT structure and has a third pilot periodicity of a third number of symbols; the fourth FFT structure is a 256 FFT structure and has a fourth pilot periodicity of a fourth number of symbols; and the fifth FFT structure is a 512 FFT structure and has the fourth pilot periodicity of the fourth number of symbols that is different than at least one of the first pilot periodicity of the first number of symbols, the second pilot periodicity of the second number of symbols, or the third pilot periodicity of the third number of symbols. - View Dependent Claims (10, 11, 12, 13)
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14. A method for execution by a wireless communication device, the method comprising:
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selecting a fast Fourier transform (FFT) structure from a plurality of FFT structures; generating a plurality of OFDM symbols that includes data and pilots modulated on an occupied subset of a plurality of sub-carriers associated with the FFT structure; and transmitting, via a communication interface of the wireless communication device, the plurality of OFDM symbols to another wireless communication device to be used by the another wireless communication device to perform channel estimation of a wireless communication channel between the wireless communication device and the another wireless communication device, wherein; a first FFT structure of the plurality of FFT structures specifies a first number of sub-carriers, a first occupied subset of sub-carriers within the first number of sub-carriers for the first FFT structure, and a first pilot periodicity of a first number of symbols associated with a first pilot pattern of the first FFT structure; a second FFT structure of the plurality of FFT structures specifies a second number of sub-carriers that is different than the first number of sub-carriers, a second occupied subset of sub-carriers within the second number of sub-carriers for the second FFT structure, and a second pilot periodicity of a second number of symbols associated with a second pilot pattern for the respective FFT; the plurality of FFT structures includes the first FFT structure, the second FFT structure, and a third FFT structure; the second FFT structure is double size of the first FFT structure; the third FFT structure is double size of the second FFT structure; the first FFT structure has the first pilot periodicity of the first number of symbols; and the second FFT structure and the third FFT structure both have the second pilot periodicity of the second number of symbols that is different than the first pilot periodicity of the first number of symbols. - View Dependent Claims (15, 16, 17, 18, 19, 20)
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Specification
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Current AssigneeAvago Technologies International Sales Pte Limited (Broadcom, Inc.)
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Original AssigneeAvago Technologies International Sales Pte Limited (Broadcom, Inc.)
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InventorsPorat, Ron
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Primary Examiner(s)Oveissi, Mansour
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Assistant Examiner(s)Wood, Jonathan
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Application NumberUS14/865,425Publication NumberTime in Patent Office1,432 DaysField of SearchUS Class CurrentCPC Class CodesH04L 25/0204 of multiple channelsH04L 25/0232 by interpolation between so...H04L 27/2613 Structure of the reference ...H04L 27/2666 Acquisition of further OFDM...H04L 5/0026 Division using four or more...H04L 5/0048 Allocation of pilot signals...H04L 5/0051 of dedicated pilots, i.e. p...H04W 84/12 WLAN [Wireless Local Area N...
