Two dimensional processing of pulsed Doppler signals
First Claim
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1. A method for measuring velocity components of a fluid within a region of an object, comprising the steps of:
- transmitting a periodic train of pulses of ultrasound energy in a single direction through the region of the object;
receiving echo signals which represent echoes of said pulses which are back-scattered from said region;
sampling the amplitude of said received signals using a sampling frequency which is greater than twice the highest frequency of the echoes;
taking a two dimensional discrete Fourier transform of said samples with respect to a first fast-time variable which measures sampling periods, and a second slow-time variable which measures pulse repetition periods, whereby the echo signals from the moving fluid are mapped as an ellipse into a two-dimensional Fourier frequency space; and
determining velocity components in said region, along the propagation direction of said ultrasound energy by measuring the angle between the major axis of said ellipse and coordinate axes of said Fourier frequency space.
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Abstract
A processor for pulsed Doppler velocity measurement utilizes a two dimensional discrete Fourier transform to map wideband signals into a frequency space where constant velocity Doppler spectral components are represented as radial lines. A radial projection then extracts target velocity information.
37 Citations
16 Claims
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1. A method for measuring velocity components of a fluid within a region of an object, comprising the steps of:
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transmitting a periodic train of pulses of ultrasound energy in a single direction through the region of the object; receiving echo signals which represent echoes of said pulses which are back-scattered from said region; sampling the amplitude of said received signals using a sampling frequency which is greater than twice the highest frequency of the echoes; taking a two dimensional discrete Fourier transform of said samples with respect to a first fast-time variable which measures sampling periods, and a second slow-time variable which measures pulse repetition periods, whereby the echo signals from the moving fluid are mapped as an ellipse into a two-dimensional Fourier frequency space; and determining velocity components in said region, along the propagation direction of said ultrasound energy by measuring the angle between the major axis of said ellipse and coordinate axes of said Fourier frequency space. - View Dependent Claims (3)
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2. A method for measuring velocity components of a fluid within a region of an object, comprising the steps of:
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transmitting a periodic train of pulses of ultrasound energy in a single direction through the region of the object; detecting signals which represent echoes of said pulses which are back-scattered from said region; sampling said detected signals using a sampling frequency which is greater than twice the highest frequency of ultrasound energy; taking a two dimensional Fourier transform of said detected signals with respect to a first fast-time variable which measures sampling periods and a second slow-time variable which measures pulse repetition periods, whereby the samples of the detected signals are mapped into a two-dimensional Fourier frequency space; calculating a radial projection of said mapped signals in said Fourier frequency space; and calculating Doppler shifts which said fluid causes in said echoes by analysis of the waveshape of said radial projection.
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4. In a velocity measuring system of the type wherein a finite number of periodic pulses of a wave are sampled and a set of the wave samples is analyzed to determine Doppler shifts, wherein samples of each pulse are measured at a rate which is higher than twice the highest frequency in the pulses, the improvement comprising the steps of:
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taking a two-dimensional Fourier transform of the set of samples with respect to a first fast-time variable which measures the sampling period and to a slow-time variable which measures the interpulse period, whereby the sample set is mapped into a Fourier frequency space wherein constant Doppler shifts are mapped as radial lines; and analyzing said transformed sample set along said radial lines to extract Doppler shift information therefrom. - View Dependent Claims (5)
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6. Apparatus for measuring the velocity of a moving fluid in a region of an object comprising:
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means for periodically transmitting pulses of RF frequency ultrasound energy in a single direction through said region; means for detecting echoes of a finite number of said pulses which are back scattered from said region and which generate signals representative thereof; means for extracting a finite group of signal samples from the echoes of each of the pulses in said set; means for computing a two-dimensional Fourier transform of said signal samples with respect to a fast-time variable which measures the FR frequency of said samples and to a second slow-time variable which measures the periods of said pulse trains, whereby the samples are mapped into a two-dimensional Fourier frequency space wherein constant Doppler shifts are mapped as radial lines; and means for analyzing the transformed signal samples along radial lines in said Fourier frequency space to determine Doppler shifts in caused by fluid motion in said region. - View Dependent Claims (7, 8, 9)
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10. A method for processing discrete samples of pulsed wave signals to determine a velocity of a target comprising:
transforming the signal samples using a discrete two dimensional Fourier transform which maps a spectral components of a constant velocity Doppler shift into radial lines.
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11. A method for processing discrete samples of pulsed wave signals to determine velocity of a target comprising the steps of:
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transforming the signal samples using a discrete two dimensional Fourier transform which maps spectral components of a constant velocity Doppler shift into radial lines and taking a radial projection of the transformed signal samples to extract a velocity spectrum.
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12. A method for processing discrete samples of pulsed wave signals to measure a characteristic of the velocity of a target comprising the steps of:
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transforming the signal sample from a discrete two dimensional Fourier transform to produce a two dimensional Fourier spectrum; extracting moments of the two dimensional Fourier spectrum directly and then calculating a characteristic of the velocity of the target therefrom. - View Dependent Claims (13, 14)
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15. A method for determining the velocity of an object from frequency shifts in waves received from the object comprising the steps of:
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determining a plurality of individual Doppler spectra, taken at different center frequencies from said received waves, scaling said individual spectra; and averaging said scaled spectra. - View Dependent Claims (16)
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Specification