Processing for improved performance and reduced pilot
First Claim
1. A user equipment (UE) including a receiver for receiving at least one of a plurality of channels in a communication signal, the receiver comprising:
- an adaptive matched filter for receiving communication signals producing a filtered signal by using a weighting signal;
a rake receiver for receiving the communication signals and a pseudo-noise signal generated for a selected channel and producing a filter weighting signal;
means for defining the filter weighting signal with a correction signal, said correction signal to produce the weighting signal used by said adaptive matched filter;
a channel despreader for said selected channel coupled to said adaptive matched filter output for despreading said filtered signal using the pseudo-noise signal generated for said selected channel to produce a despread channel signal of said selected channel;
a pilot channel despreader for a pilot channel coupled to said adaptive matched filter output for despreading said filtered signal using a pseudo-noise signal generator for said pilot channel to produce a despread pilot signal of said pilot channel;
a hard decision processor in association with a complex conjugate processor for receiving the despread channel signal of said selected channel and producing said correction signal; and
a phase-locked loop utilizing at least said despread pilot signal for producing a phase correction signal which is applied to produce phase-corrected channel signals.
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Abstract
The present invention is a user equipment (UE), including a receiver and method for receiving one of a plurality of channels in a communication signal. An adaptive matched filter produces a filtered signal by using a weighting signal. A rake receiver produces a filter weighting signal using a pseudo-noise signal generator. A channel despreader despreads the filtered signal using the pseudo-noise signal generated to produce a despread channel signal of the selected channel. A pilot channel despreader despreads the filtered signal using a pseudo-noise signal generator to produce a despread pilot signal of the pilot channel. A hard decision processor receives the despread channel signal of the selected channel and produces a correction signal. A phase-locked loop utilizes at least the despread pilot signal and produces a phase correction signal which is applied to produce phase-corrected channel signals.
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Citations
21 Claims
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1. A user equipment (UE) including a receiver for receiving at least one of a plurality of channels in a communication signal, the receiver comprising:
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an adaptive matched filter for receiving communication signals producing a filtered signal by using a weighting signal;
a rake receiver for receiving the communication signals and a pseudo-noise signal generated for a selected channel and producing a filter weighting signal;
means for defining the filter weighting signal with a correction signal, said correction signal to produce the weighting signal used by said adaptive matched filter;
a channel despreader for said selected channel coupled to said adaptive matched filter output for despreading said filtered signal using the pseudo-noise signal generated for said selected channel to produce a despread channel signal of said selected channel;
a pilot channel despreader for a pilot channel coupled to said adaptive matched filter output for despreading said filtered signal using a pseudo-noise signal generator for said pilot channel to produce a despread pilot signal of said pilot channel;
a hard decision processor in association with a complex conjugate processor for receiving the despread channel signal of said selected channel and producing said correction signal; and
a phase-locked loop utilizing at least said despread pilot signal for producing a phase correction signal which is applied to produce phase-corrected channel signals. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14)
a hard decision processor in association with said complex conjugate processor with a local feedback loop for each of said corresponding channel despreader inputs to produce an error estimate signal for a respective channel signal;
each said error estimate signal and said despreader pilot signal coupled to an inverse tangent processor to produce a corresponding phase correction signal; and
said respective channel phase correction signal and pilot phase correction signal coupled to a maximum likelihood combiner producing a combination correction signal coupled to an integrator to produce said phase correction signal.
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8. The UE according to claim 7 wherein the number of channel despreaders is three.
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9. The UE according to claim 1 wherein said phase-locked loop phase correction signal is at a symbol level and is applied to said filter weighting signal and to said despread channel signals of said channel and pilot channel despreaders.
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10. The UE according to claim 9 further comprising a plurality of channel despreaders, each coupled to said adaptive matched filter output for despreading said filtered signal using an associated pseudo-noise signal generator to produce a plurality of despread channel signals.
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11. The UE according to claim 10 wherein the number of channel despreaders is three.
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12. The UE according to claim 10 wherein said phase-locked loop further comprises a plurality of signal inputs corresponding with said plurality of channel despreaders.
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13. The UE according to claim 12 wherein said phase-locked loop further comprises:
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a hard decision processor in association with a complex conjugate processor with a local feedback loop for each of said plurality of signal inputs, each producing an error estimate for a respective channel signal;
each of said channel error estimates and said despreader pilot signal coupled to an inverse tangent processor outputting a channel phase correction signal; and
said channel and pilot phase correction signals coupled to a maximum likelihood combiner producing a combination correction signal coupled to an integrator to produce said phase correction signal.
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14. The UE according to claim 13 wherein the number of channel despreaders is three.
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15. A method for a user equipment to receive at least one of a plurality of channels comprising the steps:
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receiving communication signals;
filtering said received communication signals with an adaptive matched filter to produce a filtered signal by using a weighting signal;
producing a filter weighting signal with a rake receiver using said communication signals and a pseudo-noise signal generated for a selected channel;
refining said filter weighting signal with a correction signal;
despreading said selected channel from said filtered signal using the pseudo-noise signal for said selected channel to produce a despread channel signal of said selected channel;
despreading a pilot channel from said filtered signal using a pseudo-noise signal generated for said pilot channel to produce a despread pilot signal of said pilot channel;
processing said selected despread channel signal with a hard decision processor in association with a complex conjugate processor to produce said correction signal; and
generating a phase correction signal from said despread pilot signal with a phased-locked loop to phase-correct said selected channel signal. - View Dependent Claims (16, 17, 18, 19, 20, 21)
assigning a received symbol to one of four possible quadrature constellation points for said despread selected channel signal and each of said despread channel signals;
derotating each of said assigned symbols for said despread selected channel signal and each of said despread channel signals by determining the complex conjugate of each of said assigned points to produce respective error estimate signals;
coupling each of said error estimate signals and said despread pilot signal to inverse tangent processors to produce corresponding phase correction signals; and
combining said channel phase correction signal and said pilot phase correction signal to produce said phase correction signal.
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19. The method according to claim 15 wherein said phase correction signal is at a symbol level.
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20. The method according to claim 19 wherein the step of despreading said selected channel also includes despreading a plurality of channels to produce despread channel signals.
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21. The method according to claim 20 wherein said step of generating a phase correction signal further includes the steps of:
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assigning a received symbol to one of four possible quadrature constellation points for said despread selected channel signal and each of said despread channel signals;
derotating each of said assigned symbols for said despread selected channel signal and each of said despread channel signals by determining the complex conjugate of each of said assigned points to produce respective error estimate signals;
coupling of each said error estimate signals and said despread pilot signal to inverse tangent processors to produce corresponding phase correction signals; and
combining said channel phase correction signal and said pilot phase correction signal to produce said phase correction signal.
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Specification