Joint channel estimation and modulation detection
First Claim
Patent Images
1. A receiver that receives a received signal from a communication link, the received signal comprising a training sequence modulated onto a carrier, the receiver comprising:
- a demodulator to estimate channel impulse response and timing synchronization information for the received signal and to select a modulation technique for demodulating the received signal; and
a channel decoder to produce a binary sequence from the received signal demodulated according to the selected modulation technique;
wherein the demodulator;
demodulates the received signal according to a first modulation technique and a second modulation technique to produce a first demodulated signal and a second demodulated signal, respectively;
calculates a minimum distance between a first reconstructed signal including the training sequence and the first demodulated signal to estimate the channel impulse response and timing synchronization information;
calculates a minimum distance between a second reconstructed signal including the training sequence and the second demodulated signal to estimate the channel impulse response and timing synchronization information;
compares the minimum distance corresponding to the first demodulated signal with the minimum distance corresponding to the second demodulated signal; and
selects the modulation technique, from among the first and second modulation techniques, that corresponds to a smaller minimum distance;
wherein the first modulation technique is 8-Phase Shift Keying (8-PSK) and the second modulation technique is Gaussian minimum shift keying (GMSK);
wherein the received signal is a wireless radio frequency (RF) signal and the receiver further comprises an RF module that down-converts the received signal;
wherein the wireless RF signal is located in a licensed RF spectrum;
wherein the training sequence in the received signal comprises a plurality of orthogonal symbols; and
wherein the demodulator is operable to calculate the minimum distance between the first reconstructed signal and the first demodulated signal by correlating the training sequence in the first reconstructed signal with the training sequence in the first demodulated signal at each of a plurality of time offsets; and
to calculate the minimum distance between the second reconstructed signal and the second demodulated signal by correlating the training sequence in the second reconstructed signal with the training sequence in the second demodulated signal at each of a plurality of time offsets.
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Abstract
A receiver comprises a demodulator to estimate channel impulse response and timing synchronization information for the received signal and to select a modulation technique for demodulating the received signal; and a channel decoder to produce a binary sequence from the received signal demodulated according to the selected modulation technique; wherein the demodulator: demodulates the received signal according to a first modulation technique and a second modulation technique to produce a first demodulated signal and a second demodulated signal, respectively; calculates a minimum distance between a first reconstructed signal including the training sequence and the first demodulated signal to estimate the channel impulse response and timing synchronization information; calculates a minimum distance between a second reconstructed signal including the training sequence and the second demodulated signal to estimate the channel impulse response and timing synchronization information; compares the minimum distance corresponding to the first demodulated signal with the minimum distance corresponding to the second demodulated signal; and selects the modulation technique, from among the first and second modulation techniques, that corresponds to the smaller minimum distance.
22 Citations
10 Claims
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1. A receiver that receives a received signal from a communication link, the received signal comprising a training sequence modulated onto a carrier, the receiver comprising:
- a demodulator to estimate channel impulse response and timing synchronization information for the received signal and to select a modulation technique for demodulating the received signal; and
a channel decoder to produce a binary sequence from the received signal demodulated according to the selected modulation technique;
wherein the demodulator;
demodulates the received signal according to a first modulation technique and a second modulation technique to produce a first demodulated signal and a second demodulated signal, respectively;
calculates a minimum distance between a first reconstructed signal including the training sequence and the first demodulated signal to estimate the channel impulse response and timing synchronization information;
calculates a minimum distance between a second reconstructed signal including the training sequence and the second demodulated signal to estimate the channel impulse response and timing synchronization information;
compares the minimum distance corresponding to the first demodulated signal with the minimum distance corresponding to the second demodulated signal; and
selects the modulation technique, from among the first and second modulation techniques, that corresponds to a smaller minimum distance;
wherein the first modulation technique is 8-Phase Shift Keying (8-PSK) and the second modulation technique is Gaussian minimum shift keying (GMSK);
wherein the received signal is a wireless radio frequency (RF) signal and the receiver further comprises an RF module that down-converts the received signal;
wherein the wireless RF signal is located in a licensed RF spectrum;
wherein the training sequence in the received signal comprises a plurality of orthogonal symbols; and
wherein the demodulator is operable to calculate the minimum distance between the first reconstructed signal and the first demodulated signal by correlating the training sequence in the first reconstructed signal with the training sequence in the first demodulated signal at each of a plurality of time offsets; and
to calculate the minimum distance between the second reconstructed signal and the second demodulated signal by correlating the training sequence in the second reconstructed signal with the training sequence in the second demodulated signal at each of a plurality of time offsets. - View Dependent Claims (2, 3)
- a demodulator to estimate channel impulse response and timing synchronization information for the received signal and to select a modulation technique for demodulating the received signal; and
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4. A communication system, comprising:
- a transmitter operable to transmit a modulated signal, the transmitter comprising;
a channel encoder to encode data bits; and
a modulator to modulate the encoded data bits using one of a first modulation technique and a second modulation technique, wherein the modulator includes a training sequence in the modulated signal; and
a receiver operable to receive the modulated signal, the receiver comprising;
a demodulator to estimate channel impulse response and timing synchronization information for the received signal and to select a modulation technique for demodulating the received signal; and
a channel decoder to produce a binary sequence from the received signal demodulated according to the selected modulation technique;
wherein the demodulator;
demodulates the received signal according to a first modulation technique and a second modulation technique to produce a first demodulated signal and a second demodulated signal, respectively;
calculates a minimum distance between a first reconstructed signal including the training sequence and the first demodulated signal to estimate the channel impulse response and timing synchronization information;
calculates a minimum distance between a second reconstructed signal including the training sequence and the second demodulated signal to estimate the channel impulse response and timing synchronization information;
compares the minimum distance corresponding to the first demodulated signal with the minimum distance corresponding to the second demodulated signal; and
selects the modulation technique, from among the first and second modulation techniques, that corresponds to a smaller minimum distance; and
wherein the first modulation technique is 8-Phase Shift Keying (8-PSK) and the second modulation technique is Gaussian minimum shift keying (GMSKO);
wherein the transmitter further comprises a radio frequency (RF) module that up-converts the modulated signal and the receiver further comprises a radio frequency module that down-converts the received signal;
wherein the transmitter is operable to transmit a wireless RF signal and the receiver is operable to receive a wireless RF signal;
wherein the transmitter is operable to transmit a wireless RF signal in a licensed RF spectrum. - View Dependent Claims (5, 6, 7)
- a transmitter operable to transmit a modulated signal, the transmitter comprising;
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8. A method of processing a received signal having a training sequence, the method comprising:
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demodulating the received signal according to a first modulation technique to produce a first demodulated signal;
demodulating the received signal according to a second modulation technique to produce a second demodulated signal;calculating a minimum distance between a first reconstructed signal including the training sequence and the first demodulated signal to estimate the channel impulse response and timing synchronization information; calculating a minimum distance between a second reconstructed signal including the training sequence and the second demodulated signal to estimate the channel impulse response and timing synchronization information; comparing the minimum distance corresponding to the first demodulated signal with the minimum distance corresponding to the second demodulated signal; and
selecting the modulation technique, from among the first and second modulation techniques, that corresponds to a smaller minimum distance;further comprising; decoding the demodulated signal corresponding to the selected modulation technique; and wherein the training sequence comprises a plurality of orthogonal symbols; and
wherein calculating the minimum distance between the first reconstructed signal and the first demodulated signal comprises correlating the training sequence in the first reconstructed signal with the training sequence in the first demodulated signal at each of a plurality of time offsets; andwherein calculating the minimum distance between the second reconstructed signal and the second demodulated signal comprises correlating the training sequence in the second reconstructed signal with the training sequence in the second demodulated signal at each of a plurality of time offsets and wherein the first modulation technique is 8-Phase Shift Keying (8-PSK) and the second modulation technique is Gaussian minimum shift keying (GMSK). - View Dependent Claims (9)
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10. A tangible processor-readable medium on which program instructions are embodied, wherein the program instructions are operable, when executed by at least one programmable processor included in a device that demodulates received communication signals, to cause the device to:
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demodulate the received signal according to a first modulation technique to produce a first demodulated signal; demodulate the received signal according to a second modulation technique to produce a second demodulated signal; calculate a minimum distance between a first reconstructed signal including the training sequence and the first demodulated signal to estimate the channel impulse response and timing synchronization information; calculating a minimum distance between a second reconstructed signal including the training sequence and the second demodulated signal to estimate the channel impulse response and timing synchronization information; compare the minimum distance corresponding to the first demodulated signal with the minimum distance corresponding to the second demodulated signal; and select the modulation technique, from among the first and second modulation techniques, that corresponds to a smaller minimum distance; wherein the program instructions are further operable to cause the device to; demodulate the received signal using 8-Phase Shift Keying (8-PSK) to produce the first demodulated signal; and demodulate the received signal using Gaussian minimum shift keying (GMSK) to produce the second demodulated signal; and
wherein the program instructions are further operable to cause the device to;calculate the minimum distance between the first reconstructed signal and the first demodulated signal by correlating the training sequence in the first reconstructed signal with the training sequence in the first demodulated signal at each of a plurality of time offsets; calculate the minimum distance between the second reconstructed signal and the second demodulated signal by correlating the training sequence in the second reconstructed signal with the training sequence in the second demodulated signal at each of a plurality of time offsets.
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Current AssigneeAltobridge Limited (Singapore Technologies Engineering Limited)
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Original AssigneeAltobridge Limited (Singapore Technologies Engineering Limited)
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InventorsXie, Kai, Elyasi, Sattar
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Primary Examiner(s)Liu, Shuwang
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Assistant Examiner(s)Tayong, Helene
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Application NumberUS12/422,545Publication NumberTime in Patent Office1,254 DaysField of Search375/279, 375/340, 375/259, 375/271, 375/322, 370/215, 329/315, 329/300, 329/304US Class Current375/279CPC Class CodesH04L 25/0226 sounding signals per seH04L 27/0012 arrangements for identifyin...
