METHOD AND APPARATUS FOR ADAPTIVE REAL-TIME SIGNAL CONDITIONING, PROCESSING, ANALYSIS, QUANTIFICATION, COMPARISON, AND CONTROL
First Claim
1. A method for signal processing wherein said signal being processed is representative of a physical property, said method operable to transform an input signal into an output signal, comprising the steps of:
- a. forming a plurality of comparator outputs of a respective plurality of comparators by passing said input signal and a plurality of feedbacks of Offset Rank Signals through a respective plurality of said comparators, said Offset Rank Signals having Offset Quantile Parameters;
b. forming a weighted difference of said feedbacks of the Offset Rank Signals;
c. forming a plurality of differences between the comparators outputs and the respective Offset Quantile Parameters of said Offset Rank Signals;
d. forming a plurality of time derivatives of said Offset Rank Signals by multiplying each of said plurality of differences by said weighted difference;
e. producing the plurality of said Offset Rank Signals by time-integrating said plurality of time derivatives; and
f. producing said output signal as a weighted average of said Offset Rank Signals.
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Abstract
Various components of the present invention are collectively designated as Adaptive Real-Time Embodiments for Multivariate Investigation of Signals (ARTEMIS). It is a method, processes, and apparatus for measurement and analysis of variables of different type and origin. In this invention, different features of a variable can be quantified either locally as individual events, or on an arbitrary spatio-temporal scale as scalar fields in properly chosen threshold space. The method proposed herein overcomes limitations of the prior art by directly processing the data in real-time in the analog domain, identifying the events of interest so that continuous digitization and digital processing is not required, performing direct, noise-resistant measurements of salient signal characteristics, and outputting a signal proportional to these characteristics that can be digitized without the need for high-speed front-end sampling. The application areas of ARTEMIS are numerous, e.g., it can be used for adaptive content-sentient real-time signal conditioning, processing, analysis, quantification, comparison, and control, and for detection, quantification, and prediction of changes in signals, and can be deployed in automatic and autonomous measurement, information, and control systems. ARTEMIS can be implemented through various physical means in continuous action machines as well as through digital means or computer calculations. Particular embodiments of the invention include various analog as well as digital devices, computer programs, and simulation tools.
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Citations
9 Claims
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1. A method for signal processing wherein said signal being processed is representative of a physical property, said method operable to transform an input signal into an output signal, comprising the steps of:
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a. forming a plurality of comparator outputs of a respective plurality of comparators by passing said input signal and a plurality of feedbacks of Offset Rank Signals through a respective plurality of said comparators, said Offset Rank Signals having Offset Quantile Parameters; b. forming a weighted difference of said feedbacks of the Offset Rank Signals; c. forming a plurality of differences between the comparators outputs and the respective Offset Quantile Parameters of said Offset Rank Signals; d. forming a plurality of time derivatives of said Offset Rank Signals by multiplying each of said plurality of differences by said weighted difference; e. producing the plurality of said Offset Rank Signals by time-integrating said plurality of time derivatives; and f. producing said output signal as a weighted average of said Offset Rank Signals. - View Dependent Claims (2, 3)
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4. A method for image processing an image, said method operable to transform an input image signal into an output signal, comprising the steps of:
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a. forming a plurality of comparator outputs of a respective plurality of comparators by passing said input image signal and a plurality of feedbacks of Offset Rank Signals through a respective plurality of said comparators, said Offset Rank Signals having Offset Quantile Parameters; b. forming a weighted difference of said feedbacks of the Offset Rank Signals; c. forming a plurality of differences between the comparator outputs and the respective Offset Quantile Parameters of said Offset Rank Signals; d. forming a plurality of time derivatives of said Offset Rank Signals by multiplying each of said plurality of differences by said weighted difference; e. producing the plurality of said Offset Rank Signals by time-integrating said plurality of time derivatives; and f. producing said output signal as a weighted average of said Offset Rank Signals.
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5. A method for image processing as recited in claim 5 wherein said comparators are selected from the group consisting of delayed comparators and averaging comparators.
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6. An apparatus for signal processing wherein said signal being processed is representative of a physical property said method operable to transform an input signal into an output signal comprising:
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a. a plurality of comparators each operable to form an output, thus forming a plurality of outputs by passing said input signal and a plurality of feedbacks of Offset Rank Signals through said plurality of comparators, said Offset Rank Signals having Offset Quantile Parameters; b. a component operable to form a weighted difference of said feedbacks of the Offset Rank Signals; c. a component operable to form a plurality of differences between the outputs of said plurality of comparators and the respective Offset Quantile Parameters of said Offset Rank Signals; d. a component operable to form a plurality of time derivatives of said Offset Rank Signals by multiplying each of said plurality of differences by said weighted difference; e. a component operable to produce the plurality of said Offset Rank Signals by time-integrating said plurality of time derivatives; and f. a component operable to produce said output signal as a weighted average of said Offset Rank Signals. - View Dependent Claims (7)
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8. A method for signal demodulation comprising:
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a. forming a product of an input signal consisting of one or more components and a demodulating signal consisting of one or more components; b. filtering said product with a threshold filter to obtain a threshold filtered product consisting of one or more components, wherein a threshold domain of said threshold filter is defined by a control level signal consisting of one or more components; and c. filtering said threshold filtered product with an averaging filter to produce a demodulated signal consisting of one or more components. - View Dependent Claims (9)
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Specification