An optical rangefinder having a photosensor adapted to transform the image projected thereon into an electronic image, an imaging system for projecting an image of an object on the photosensor, an optical arrangement to modulate the incoming light forming the image on the photosensor, means for prov
An optical rangefinder having a photosensor adapted to transform the image projected thereon into an electronic image, an imaging system for projecting an image of an object on the photosensor, an optical arrangement to modulate the incoming light forming the image on the photosensor, means for providing the spatial spectrum of the image and means for deriving the distance from the object to the rangefinder on the degree of defocus of the image, wherein the optical arrangement is adapted to modulate the incoming light such that the degree of defocus of the image on the photosensor relative to the in-focus image plane results in displacement of the spatial spectrum of the image relative to a reference pattern and wherein the rangefinder has means for deriving the degree of defocus from the degree of displacement.
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1. A passive optical rangefinder, comprising: a) a photosensor adapted to transform an image projected onto it into a corresponding electronic image;b) an imaging system adapted to provide projection of the image of at least one object on the photosensor;c) spectral processing means adapted to provi
1. A passive optical rangefinder, comprising: a) a photosensor adapted to transform an image projected onto it into a corresponding electronic image;b) an imaging system adapted to provide projection of the image of at least one object on the photosensor;c) spectral processing means adapted to provide the spatial spectrum of the image by spectral decomposition;d) defocus processing means adapted to provide the distance from the object to the rangefinder based on a degree of defocus of the image; ande) an optical arrangement comprising, (1) at least one chiral optical arrangement adapted to provide chiral modulation such that the degree of displacement of the spatial spectrum relative to a reference pattern depends on the degree of defocus of the image, with the spatial spectrum comprising at least one detectable feature, with i. chiral modulation meaning modulation of phase and amplitude of light such that the generalized pupil function of the optical system is not invariant under parity transformation,ii. reference pattern meaning any synthetic structure in the spatial spectrum domain suitable to measure the degree of displacement, andiii. a detectable feature created by the optical arrangement independent from the object for allowing determination of the degree of displacement of the spatial spectrum relative to the reference pattern, and(2) additional processing means adapted to derive the degree of defocus of the image from the degree of displacement by comparison of the spatial spectrum with the reference pattern. 2. The passive optical rangefinder of claim 1, wherein the chiral optical arrangement includes at least one chiral optical mask. 3. The passive optical rangefinder of claim 1, wherein the chiral optical arrangement includes a combination of at least two independent optical channels. 4. The passive optical rangefinder of claim 1, wherein the chiral optical arrangement is adapted to provide a characteristic reference pattern obtained from the inherent spectral response of the passive optical arrangement. 5. The passive optical range-finder of claim 1, wherein the chiral optical arrangement is adapted to convert defocus changes into either detectable rotation, scaling, or lateral shift of features. 6. The passive optical rangefinder of claim 1, wherein the rangefinder is adapted to provide a defocus map comprising the degrees of defocus of at least two sub-images from corresponding sub-areas of the image of the object independently. 7. The passive optical rangefinder of claim 6, wherein the rangefinder is adapted to provide a depth map based on the defocus map, which depth map comprises the distances from the sub-sections of the object to the rangefinder independently. 8. The passive optical rangefinder of claim 1, wherein the rangefinder is adapted to provide an optical-path map comprising at least one optical path, the optical path being the combination of the physical distance and the refractive index of the medium through which the light travels. 9. A method for passive optical rangefinding, comprising: a) transforming an image projected on a photosensor into a corresponding electronic signal;b) projecting the image of at least one object on the photosensor by an imaging system;c) providing the spatial spectrum of the image by spectral decomposition by spectral processing means; andd) providing the distance from the object to the rangefinder based on the degree of defocus of the image by defocus processing means, wherein the method further comprises: (1) providing chiral modulation such that the degree of displacement of the spatial spectrum relative to a reference pattern depends on the degree of defocus of the image, with spatial spectrum comprising at least one detectable feature, by at least one chiral optical arrangement, with: i. chiral modulation meaning modulation of phase and amplitude of light such that the generalized pupil function of the optical system is not invariant under parity transformation,ii. reference pattern meaning any synthetic structure in the spatial spectrum domain suitable to measure the degree of displacement, andiii. detectable feature meaning a feature created by the optical arrangement independent from the object for allowing determination of the degree of displacement of the spatial spectrum relative to the reference pattern, and(2) deriving the degree of defocus of the image from the degree of displacement by comparison of the spatial spectrum with the reference pattern, by additional processing means. 10. The method for passive optical rangefinding of claim 9, further comprising providing a depth map comprising the distances from the sub-sections of the object to the rangefinder independently by the rangefinder.
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Cathey ; Jr. Wade Thomas ; Dowski ; Jr. Edward Raymond, Apparatus and method for estimating range.
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