초록 ▼

A radio frequency receiver for discriminating a modulation type to decode a signal field of an encoded signal in a wireless communication system. The radio frequency (RF) receiver receives an encoded signal having a preamble training sequence associated with a frame, the preamble training sequence i

A radio frequency receiver for discriminating a modulation type to decode a signal field of an encoded signal in a wireless communication system. The radio frequency (RF) receiver receives an encoded signal having a preamble training sequence associated with a frame, the preamble training sequence including the signal field. The radio frequency receive generates at least a first log-likelihood ratio (LLR) stream and a second LLR stream for each of a plurality of sub-symbols for a predetermined portion of the received encoded signal based upon an m-bit wide modulation reference, wherein m represents the bit width of the modulation reference. The first LLR stream and the second LLR stream each include a plurality of LLR values. The plurality of LLR values of the first LLR stream are summed to produce a first cumulative LLR, and the plurality of LLR values of the second LLR stream are summed to produce a second cumulative LLR. The first cumulative LLR is discriminated with the second cumulative LLR to produce a discriminated modulation type output. The receiver decodes the signal field based on the discriminated modulation type output.

대표청구항 ▼

What is claimed is: 1. A method of discriminating a modulation type for decoding a signal field of an encoded signal in a wireless communication system, the method comprises: receiving, via a receiver, the encoded signal having a preamble training sequence associated with a frame, the preamble trai

What is claimed is: 1. A method of discriminating a modulation type for decoding a signal field of an encoded signal in a wireless communication system, the method comprises: receiving, via a receiver, the encoded signal having a preamble training sequence associated with a frame, the preamble training sequence including the signal field; generating at least a first log-likelihood ratio (LLR) stream and a second LLR stream for each of a plurality of sub-symbols for a predetermined portion of the received encoded signal based upon an m-bit wide modulation reference, wherein m represents the bit width of the modulation reference, the first LLR stream and the second LLR stream includes a plurality of LLR values; summing the plurality of LLR values of the first LLR stream to produce a first cumulative LLR; summing the plurality of LLR values of the second LLR stream to produce a second cumulative LLR; discriminating the first cumulative LLR with the second cumulative LLR to produce a discriminated modulation type output by: comparing the first cumulative LLR with the second cumulative LLR; upon a favorable comparison of the first cumulative LLR with the second cumulative LLR, setting the discriminated modulation type to a first specified modulation type of a plurality of specified modulation types; and upon an unfavorable comparison of the first cumulative LLR with the second cumulative LLR, setting the modulation type to one of a second or a third specified modulation type by: when the first cumulative LLR is greater than the second cumulative LLR, setting the discriminated modulation type to the second specified modulation type; and when the first cumulative LLR is less than the second cumulative LLR, setting the discriminated modulation type to the third specified modulation type; and decoding the signal field of the preamble training sequence based on the discriminated modulation type output. 2. The method of claim 1 wherein the third specified modulation type is a rotated second specified modulation type. 3. The method of claim 1 wherein the modulation reference is a QPSK modulation type. 4. The method of claim 1 wherein the second specified modulation type is a BPSK modulation type. 5. The method of claim 1 wherein the third specified modulation type is a rotated BPSK modulation type. 6. The method of claim 1 wherein the predetermined portion is a signal field. 7. The method claim 1 wherein the generating step further comprises: selecting the predetermined portion based on a format from a plurality of formats of the frame. 8. A modulation-type discriminator for a radio frequency receiver comprises: a log-likelihood ratio (LLR) module operable to receive a signal field of an encoded signal having a preamble training sequence associated with a frame, the LLR module operable to generate a first and a second LLR stream for each of a plurality of sub-symbols for a predetermined portion of the received encoded signal based on a two-bit wide modulation reference; a summing module disposed to receive the first and the second LLR streams and operable to cumulate the first LLR stream to produce a first cumulative LLR and the second LLR stream to produce a second cumulative LLR; and a discriminator module operable to receive the first and the second cumulative LLR, and further operable to compare each of the first and the second cumulative LLR to provide a discriminated modulation type from a plurality of specified modulation types by: comparing the first cumulative LLR with the second cumulative LLR; upon a favorable comparison result that discriminates the received signal field as substantially equivalent to the modulation reference, setting the discriminated modulation type to a first specified modulation type of the plurality of specified modulation types; and upon an unfavorable comparison result that discriminates the received signal field as being non-equivalent to the modulation reference, setting the discriminated modulation type to one of a second or a third specified modulation type of the plurality of specified modulation types by: when the first cumulative LLR is greater than the second cumulative LLR, setting the discriminated modulation type to the second specified modulation type; and when the first cumulative LLR is less than the second cumulative LLR, setting the discriminated modulation type to the third specified modulation type. 9. The modulation-type discriminator of claim 8 wherein the modulation reference is a QPSK modulation type. 10. The modulation-type discriminator of claim 8 wherein the first specified modulation type of the plurality of specified modulation types is a QPSK modulation type. 11. The modulation-type discriminator of claim 8 wherein the second specified modulation type of the plurality of specified modulation types is a BPSK modulation type. 12. The modulation-type discriminator of claim 8 wherein the third specified modulation type of the plurality of specified modulation types is a rotated-BPSK modulation type. 13. The modulation-type discriminator of claim 8 wherein the predetermined portion is a signal field. 14. The modulation-type discriminator of claim 8 wherein the predetermined portion is based on a format from a plurality of formats for the frame. 15. An integrated circuit radio transceiver comprises: transmit signal path circuitry operable to transmit radio-frequency signals; receive signal path circuitry operable to receive radio-frequency signals having a preamble associated with a frame, the preamble having a signal field, the receive signal path circuitry includes modulation-type discriminator circuitry coupled to discriminate a signal field modulation type from a predetermined portion of a received radio-frequency signal, the modulation-type discriminator circuitry includes logic circuitry that comprises: a digital receiver processing module; and memory coupled to the digital receiver processing module, wherein the memory stores operational instructions that prompts the digital receiver processing module to: generate at least a first log-likelihood ratio (LLR) stream and a second LLR stream for each of a plurality of sub-symbols for a predetermined portion of the received encoded signal based upon an m-bit wide modulation reference, wherein m represents the bit width of the modulation reference, the first LLR stream and the second LLR stream includes a plurality of LLR values; sum the plurality of LLR values of the first LLR stream to produce a first cumulative LLR; sum the plurality of LLR values of the second LLR stream to produce a second cumulative LLR; discriminate the first cumulative LLR with the second cumulative LLR to produce a discriminated modulation type output by: upon a favorable comparison result that discriminates the signal field of the received radio-frequency signal as substantially equivalent to a two-bit wide modulation reference, setting the discriminated modulation type to a first specified modulation type of a plurality of specified modulation types; and upon an unfavorable comparison result that discriminates the signal field of the received radio-frequency signal as being non-equivalent to the two-bit wide modulation reference, setting the discriminated modulation type to one of a second or a third specified modulation type of the plurality of specified modulation types by:  when the first cumulative log likelihood ratio is greater than the second cumulative log likelihood ratio, setting the discriminated modulation type to the second specified modulation type; and  when the first cumulative log likelihood ratio is less than the second cumulative log likelihood ratio, setting the discriminated modulation type to the third specified modulation type; and decode the signal field based upon the discriminated modulation type output. 16. The integrated circuit radio transceiver of claim 15 wherein the modulation reference is a QPSK modulation type. 17. The integrated circuit radio transceiver of claim 15 wherein the first specified modulation type of the plurality of specified modulation types is a QPSK modulation type. 18. The integrated circuit radio transceiver of claim 15 wherein the second specified modulation type of the plurality of specified modulation types is a BPSK modulation type. 19. The modulation-type discriminator of claim 15 wherein the predetermined portion is a signal field. 20. A method of discriminating a modulation type for decoding a signal field of an encoded signal in a wireless communication system, the method comprises: receiving, via a receiver, the encoded signal having a preamble training sequence associated with a frame, the preamble training sequence including the signal field; processing a plurality of sub-symbols of the received encoded signal associated with the signal field to produce a stream having a real portion and an imaginary portion for each of the sub-symbols, each of the portions having a magnitude; for each sub-symbol, discriminating the magnitude of the real portion with the magnitude of the imaginary portion to produce a discriminated modulation type output, wherein: when the magnitude of the real portion and the imaginary portion approximate each other, the discriminated modulation type output is a first modulation type; when the magnitude of the real portion and the imaginary portion are not approximate to each other, the discriminated modulation type output is one of a second or a third modulation type, such that: when the magnitude of the real portion is greater than that of the imaginary portion, the discriminated modulation type output is the second specified modulation type; and when the magnitude of the real portion is less than that of the imaginary portion, the discriminated modulation type output is the third specified modulation type; and decoding the signal field of the preamble training sequence based on the discriminated modulation type output. 21. The method of claim 20 wherein processing the plurality of sub-symbols further comprises: multiplying the received encoded signal with the conjugate of a channel estimate. 22. The method of claim 20 wherein the first modulation type is a QPSK modulation type. 23. The method of claim 22 wherein the second modulation type is a BPSK modulation type. 24. The method of claim 23 wherein the third specified modulation type is a rotated BPSK modulation type.