Method and apparatus for pulse optimization for non-linear filtering
First Claim
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1. An apparatus for reducing the amplitude dynamic range of a communications signal, comprising:
- a baseband modulator operable to receive a digital message and generate a signal having a plurality of symbols;
an analyzer operable to generate a plurality of correction pulses at moments in time when the magnitude of said signal having a plurality of symbols falls below a predetermined threshold;
a nonlinear filter configured to receive said plurality of correction pulses and generate a correction signal, which when combined with said signal having a plurality of symbols, forms a modified communications signal having a reduced amplitude dynamic range, wherein said nonlinear filter is configured to condition said plurality of correction pulses to reduce the degree by which said plurality of correction pulses contributes to in-channel distortion of said modified communications signal.
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Abstract
Methods and apparatus for reducing signal degradation of a communications signal caused by reducing the average-to-minimum amplitude ratio (AMR) of a communications signal. According to one exemplary method, times when the amplitude of a communications signal falls below or is likely to fall below a predetermined magnitude minimum. Corrective pulses are generated, which are combined with the communications signal in the temporal vicinities when the amplitude of the communications signal falls below the predetermined magnitude minimum, to reduce the AMR of the communications signal. The corrective pulses are generated by a nonlinear filter that is configured to minimize the amount of in-channel distortion the corrective pulses introduce to the communications signal by their insertion while substantially preserving an out-of-band measure of quality of the communications signal.
50 Citations
19 Claims
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1. An apparatus for reducing the amplitude dynamic range of a communications signal, comprising:
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a baseband modulator operable to receive a digital message and generate a signal having a plurality of symbols;
an analyzer operable to generate a plurality of correction pulses at moments in time when the magnitude of said signal having a plurality of symbols falls below a predetermined threshold;
a nonlinear filter configured to receive said plurality of correction pulses and generate a correction signal, which when combined with said signal having a plurality of symbols, forms a modified communications signal having a reduced amplitude dynamic range, wherein said nonlinear filter is configured to condition said plurality of correction pulses to reduce the degree by which said plurality of correction pulses contributes to in-channel distortion of said modified communications signal. - View Dependent Claims (2, 3, 4, 5, 6)
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7. A method of optimizing perturbation pulses to be combined with a communications signal, to form a perturbed communications signal having a reduced amplitude dynamic range, said method comprising:
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defining an error function comprising the difference between a summation of perturbation pulse samples and a summation of reference pulse samples; and
minimizing said error function to determine optimized pulses, which when combined with said communications signal, do not substantially increase in-channel distortion of said communications signal. - View Dependent Claims (8)
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9. An apparatus for conditioning a communications signal, comprising:
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a modulation and signal conditioning apparatus configured to receive a communications signal and generate a sequence of symbols;
a first filter disposed in said main path operable to generate a first pulse-shaped signal from said sequence of symbols;
means for determining low magnitude events in said first pulse-shaped signal;
a second filter disposed in said auxiliary path operable to generate a perturbation signal having pulses that correspond to the determined low magnitude events; and
means for combining the first pulse-shaped signal with the perturbation signal to generate a perturbed signal having an in-channel distortion that is not substantially different from an in-channel distortion of the unperturbed first pulse-shaped signal. - View Dependent Claims (10, 11, 12, 13)
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14. A method of reducing signal degradation introduced by reducing the dynamic range of a communications signal, comprising:
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determining a time when a transition between a first symbol and a second symbol in a sequence of modulation symbols is at its lowest magnitude;
forming a pulse-shaped signal based on said sequence of modulation symbols using a first filter;
forming a perturbation pulse using a second filter; and
inserting said perturbation pulse in the pulse-shaped signal at the time when the transition between the first and second symbols is at its lowest magnitude, to reduce the dynamic range of the pulse-shaped signal, wherein said second filter is designed to minimize the amount by which the perturbation pulse contributes to an in-channel distortion of said pulse-shaped signal. - View Dependent Claims (15, 16)
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17. A method of reducing signal degradation introduced by reducing the average-to-minimum amplitude ratio (AMR) of a communications signal, comprising:
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identifying a time when a communications signal falls below or is likely to fall below a predetermined magnitude minimum;
forming a corrective pulse; and
inserting the corrective pulse in the temporal vicinity of the identified time to form a corrected communications signal having an AMR which is lower than the said communications signal, wherein forming said corrective pulse includes conditioning the corrective pulse to minimize the amount of in-channel distortion the corrective pulse introduces to the communications signal by its insertion while substantially preserving an out-of-band measure of quality of the communications signal.
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18. A signal conditioning apparatus for a wireless communications device, comprising:
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a baseband modulator configured to map a digital sequence onto a signal constellation having a plurality of constellation points;
a first filter having an impulse response configured to receive a sequence of symbols corresponding to said constellation point and generate an unperturbed communications signal;
means for determining instants in time when said unperturbed communications signal falls below or is likely to fall below a predetermined magnitude threshold and generate a perturbation sequence;
a second filter having an impulse response different from the impulse response of said first filter, said second filter configured to receive said perturbation sequence and generate a perturbation signal v(t); and
a combiner operable to combine said unperturbed communications signal with said perturbation signal to produce a perturbed communication signal characterized by an average-to-minimum amplitude ratio (AMR) that is smaller than an AMR of said unperturbed communications signal, wherein said second filter is configured to operate on said perturbation sequence to provide a perturbation signal that does not substantially introduce distortion into a communications channel occupied by said unperturbed communications signal. - View Dependent Claims (19)
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Specification
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Current AssigneeIntel Corporation
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Original AssigneeMatsushita Electric Industrial Company Limited (Panasonic Holdings Corporation)
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InventorsSchell, Stephan, Liang, Paul
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Application NumberUS11/591,702Publication NumberTime in Patent OfficeDaysField of SearchUS Class Current375/320CPC Class CodesH04L 25/03834 using pulse shaping
