Optical correlator using electronic image preprocessing
First Claim
1. Apparatus for incoherent optical correlation of a two-dimensional function, comprising:
- (a) means for generating a first electronic signal representative of said function;
(b) means for electronically performing at least one mathematical operation on said first electronic signal to derive a second electronic signal;
(c) means for electrically converting said second electronic signal into a two-dimensional spatially and temporally incoherent visual image, said two-dimensional visual image having an associated mathematical image function;
(d) imaging means for producing a secondary image of said two-dimensional visual image in an image plane, said second image likewise being spatially and temporally incoherent;
(e) means for generating an optical correlation function having(i) first and second lens means arranged with their respective optical axes substantially in alignment, said first lens means being spaced apart from said imaging means such that said image plane and the focal plane of said first lens means coincide, the object of said first lens means being said two-dimensional spatially and temporally incoherent image, and(ii) match optical filter means located between said first and second lens means, said filter means having a random phase distribution and a predetermined transfer function whose amplitude is the square root of the amplitude of said image function;
(f) optical detecting means located on the side of said second lens means opposite said filter means and at the image plane of said second lens means for detecting the optical correlation function generated by said first and second lens means and said filter means and generating a third electronic signal representative of said optical correlation function; and
(g) electronic analyzer means for analyzing said third electronic signal to determine the amplitude and position of the peak of the optical correlation function.
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Abstract
An optical processing system uses spatial filtering to recognize two-dimensional functions and images. Images of real objects are captured with a television camera. The electronic signals representing the two-dimensional function or image are electronically preprocessed, such as by edge enhancement techniques or by applying a curvature function, and displayed on a narrow-band-phosphor cathode ray tube or television monitor. The monitor image is used directly as the input to an incoherent holographic correlator. Alternatively, the monitor image is used to modulate a source of coherent radiation such as a laser via a spatial light modulator to generate a modulated optical signal which is the input to a coherent holographic correlator. Analyzer circuitry with an optical detector at the correlation plane analyzes the shape of the correlation function to determine the intensity and position of its peak. The input to the CRT or monitor may also be in the form of non-optically generated electronic signals representative of a two-dimensional function for display in graphic form by the CRT or monitor.
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Citations
16 Claims
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1. Apparatus for incoherent optical correlation of a two-dimensional function, comprising:
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(a) means for generating a first electronic signal representative of said function; (b) means for electronically performing at least one mathematical operation on said first electronic signal to derive a second electronic signal; (c) means for electrically converting said second electronic signal into a two-dimensional spatially and temporally incoherent visual image, said two-dimensional visual image having an associated mathematical image function; (d) imaging means for producing a secondary image of said two-dimensional visual image in an image plane, said second image likewise being spatially and temporally incoherent; (e) means for generating an optical correlation function having (i) first and second lens means arranged with their respective optical axes substantially in alignment, said first lens means being spaced apart from said imaging means such that said image plane and the focal plane of said first lens means coincide, the object of said first lens means being said two-dimensional spatially and temporally incoherent image, and (ii) match optical filter means located between said first and second lens means, said filter means having a random phase distribution and a predetermined transfer function whose amplitude is the square root of the amplitude of said image function; (f) optical detecting means located on the side of said second lens means opposite said filter means and at the image plane of said second lens means for detecting the optical correlation function generated by said first and second lens means and said filter means and generating a third electronic signal representative of said optical correlation function; and (g) electronic analyzer means for analyzing said third electronic signal to determine the amplitude and position of the peak of the optical correlation function. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11)
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12. Method for performing incoherent optical correlation of a two-dimensional function, comprising the steps of:
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(a) generating a first electronic signal representation of said function; (b) electronically performing at least one mathematical operation on said first electronic signal to derive a second electronic signal; (c) electronically converting said second electronic signal into a spatially and temporally incoherent optical signal having an associated mathematical image function; (d) generating an optical correlation function by convolving said mathematical image function with a filter transfer function having a random phase distribution and an amplitude which is the square root of the amplitude of said image function; (e) electronically detecting said optical correlation function and generating a third electronic signal representative of said optical correlation function; and (f) electronically analyzing said third electronic signal to determine the amplitude and position of the peak of the optical correlation function. - View Dependent Claims (13, 14, 15, 16)
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Specification