Real-time wideband cylindrical holographic surveillance system
First Claim
1. A holographic apparatus for near real-time imaging of a target, said apparatus utilizing millimeter wave radiation having a plurality of frequencies from about 1 to about 110 GHz, comprising:
- (a) a holographic array having a plurality of antenna units spaced apart from about 0.25 to about 3 wavelength, wherein each unit sends and/or receives millimeter wave radiation, said array spaced apart from said target;
(b) a holographic wideband transceiver for operating said antenna units and providing each unit with millimeter wave radiation source, then receiving high frequency millimeter wave radiation reflection from said target and collected by the unit, then making an output;
(c) an analog to digital converter for converting said output to a corresponding digital signal; and
(d) a computer for applying a three dimensional reconstruction algorithm to the corresponding digital signal that preserves an unlimited depth of field, wherein the improvement comprises;
said computer is a digital computer having,(I) a first set of instructions for receiving data from the A/D converter,(ii) a second set of instructions for computing a two-dimensional Fourier transform of the received data for each frequency,(iii) a third set of instructions for multiplying the two-dimensional Fourier transform by a phase factor and computing a one-dimensional inverse Fourier transform,(iv) a fourth set of instructions for interpolating the one-dimensional inverse Fourier transform onto a uniformly sampled grid and forming an interpolated product,(v) a fifth set of instructions for computing a three-dimensional inverse transform of the interpolated product and obtaining a complex cylindrical three-dimensional image,(vi) a sixth set of instructions for computing a magnitude of the complex cylindrical three-dimensional image and obtaining a cylindrical three-dimensional image, and(vii) a seventh set of instructions for displaying the cylindrical three-dimensional image.
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Accused Products
Abstract
A wideband holographic cylindrical surveillance system including a transceiver for generating a plurality of electromagnetic waves; antenna for transmitting the electromagnetic waves toward a target at a plurality of predetermined positions in space; the transceiver also receiving and converting electromagnetic waves reflected from the target to electrical signals at a plurality of predetermined positions in space; a computer for processing the electrical signals to obtain signals corresponding to a holographic reconstruction of the target; and a display for displaying the processed information to determine nature of the target. The computer has instructions to apply Fast Fourier Transforms and obtain a three dimensional cylindrical image.
118 Citations
9 Claims
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1. A holographic apparatus for near real-time imaging of a target, said apparatus utilizing millimeter wave radiation having a plurality of frequencies from about 1 to about 110 GHz, comprising:
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(a) a holographic array having a plurality of antenna units spaced apart from about 0.25 to about 3 wavelength, wherein each unit sends and/or receives millimeter wave radiation, said array spaced apart from said target; (b) a holographic wideband transceiver for operating said antenna units and providing each unit with millimeter wave radiation source, then receiving high frequency millimeter wave radiation reflection from said target and collected by the unit, then making an output; (c) an analog to digital converter for converting said output to a corresponding digital signal; and (d) a computer for applying a three dimensional reconstruction algorithm to the corresponding digital signal that preserves an unlimited depth of field, wherein the improvement comprises; said computer is a digital computer having, (I) a first set of instructions for receiving data from the A/D converter, (ii) a second set of instructions for computing a two-dimensional Fourier transform of the received data for each frequency, (iii) a third set of instructions for multiplying the two-dimensional Fourier transform by a phase factor and computing a one-dimensional inverse Fourier transform, (iv) a fourth set of instructions for interpolating the one-dimensional inverse Fourier transform onto a uniformly sampled grid and forming an interpolated product, (v) a fifth set of instructions for computing a three-dimensional inverse transform of the interpolated product and obtaining a complex cylindrical three-dimensional image, (vi) a sixth set of instructions for computing a magnitude of the complex cylindrical three-dimensional image and obtaining a cylindrical three-dimensional image, and (vii) a seventh set of instructions for displaying the cylindrical three-dimensional image. - View Dependent Claims (2, 3, 4, 5, 6)
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7. A method of holographic surveillance of a target, comprising the steps of:
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(a) scanning a cylindrical aperture with a holographic array having a plurality of antenna units spaced apart from about 0.25 to about 3 wavelength, wherein each unit sends and/or receives millimeter wave radiation, said array spaced apart from said target; (b) operating individual antenna elements with a wideband holographic transceiver system and providing each unit with a wideband millimeter wave radiation source, then receiving wideband millimeter wave radiation reflection from said target and collected by the unit(s), then making an output; (c) converting said output in an A/D converter to a corresponding digital signal; and (d) applying a three dimensional reconstruction algorithm to the digital signal that preserves a low f-number by the steps of; (I) receiving data from the A/D converter, (ii) computing a two-dimensional Fourier transform of the received data for each frequency, (iii) multiplying the two-dimensional Fourier transform by a phase factor and performing a one-dimensional inverse Fourier transform and forming an inversion, (iv) interpolating the inversion onto a uniformly sampled grid and forming an interpolated product, (v) computing a three-dimensional inverse transform of the interpolated product and obtaining a complex three-dimensional image, (vi) computing a magnitude of the complex three-dimensional image and obtaining a cylindrical three-dimensional image, and (vii) displaying the three-dimensional image. - View Dependent Claims (8, 9)
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Specification