METHOD AND APPARATUS FOR PROBING AN OBJECT, MEDIUM OR OPTICAL PATH USING NOISY LIGHT
First Claim
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1. ) A method of optically probing an object(s) and/or a medium and/or an optical path including the object(s) or medium, the method comprising:
- a) illuminating the object(s) or the medium to induce, from the object(s) or medium, one or more noisy light response signals that are randomly or pseudo-randomly modulated;
b) receiving into an optical detector an optical superimposition of (i) a source light signal used in step (a) to carry out the illuminating and (ii) one or more of the induced noisy light response signals, thereby illuminating the optical detector so as to generate a combination electrical signal describing the optically superimposed plurality of received noisy light response signals;
c) determining or characterizing or detecting from the combination electrical signal, at least one of;
i) a relationship between power and frequency of the combination electrical signal or a derivative thereof over a discrete or continuous spectrum;
ii) a temporal autocorrelation function of the combination electrical signal;
iii) a distance parameter(s) involving one or more the objects;
iv) a mechanical stress or strain;
v) a change in a light propagation time of at least one optical path;
vi) a difference in light propagation times of multiple optical paths or a temporal change thereof;
vii) mechanical motion of an object; and
viii) a material or mechanical property of an optical fiber, at least a portion of which is included in the optical path of step (a).
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Abstract
A method and apparatus for optically probing an object(s) and/or a medium and/or an optical path using noisy light. Applications disclosed include but are not limited to 3D digital camera, detecting material or mechanical properties of optical fiber(s), intrusion detection, and determining an impulse response. In some embodiments, an optical detector is illuminated by a superimposition of a combination of noisy light signals. Various signal processing techniques are also disclosed herein.
26 Citations
59 Claims
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1. ) A method of optically probing an object(s) and/or a medium and/or an optical path including the object(s) or medium, the method comprising:
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a) illuminating the object(s) or the medium to induce, from the object(s) or medium, one or more noisy light response signals that are randomly or pseudo-randomly modulated; b) receiving into an optical detector an optical superimposition of (i) a source light signal used in step (a) to carry out the illuminating and (ii) one or more of the induced noisy light response signals, thereby illuminating the optical detector so as to generate a combination electrical signal describing the optically superimposed plurality of received noisy light response signals; c) determining or characterizing or detecting from the combination electrical signal, at least one of; i) a relationship between power and frequency of the combination electrical signal or a derivative thereof over a discrete or continuous spectrum; ii) a temporal autocorrelation function of the combination electrical signal; iii) a distance parameter(s) involving one or more the objects; iv) a mechanical stress or strain; v) a change in a light propagation time of at least one optical path; vi) a difference in light propagation times of multiple optical paths or a temporal change thereof; vii) mechanical motion of an object; and viii) a material or mechanical property of an optical fiber, at least a portion of which is included in the optical path of step (a). - View Dependent Claims (3, 7, 20, 21, 22, 23, 27, 31, 35, 36)
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2. (canceled)
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4-6. -6. (canceled)
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8-19. -19. (canceled)
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24-26. -26. (canceled)
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28-30. -30. (canceled)
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32-34. -34. (canceled)
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37-41. -41. (canceled)
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42. ) A 3D digital camera device for acquiring a digital image of a scene comprising:
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a) a noisy light source configured to generate noisy light that is randomly or pseudo-randomly modulated, thereby illuminating a plurality of different scene locations within the scene to induce noisy light response signals from the different scene locations within the scene; b) an image sensor including a substantially-planar two-dimensional array of photodetector; c) optical components configured to focus or re-direct noisy light received from the scene onto or to the image sensors, the optical component(s) and the image sensor being configured so that each photodetector of the two-dimensional array; i) is respectively illuminated by a different respective optical superimposition noisy light signal that is an optical imposition of; A) a different respective noisy light response signal from a different respective scene location; and B) a respective reference optical signal whose temporal noise fluctuations are correlated to and temporally offset from the respective noisy light response signal; and ii) generates a different respective temporally-fluctuating electrical signal that respectively describes the respective optical imposition noisy light signal; d) electrical circuitry configured to compute from temporal power spectral density data or temporal autocorrelation data of the temporally-fluctuating electrical signals generated by the photodetectors, a three-dimensional digital image including a plurality of pixels corresponding to the locations in the scene, each visually pixel representing depth data and grayscale or color data at respective location.
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43-50. -50. (canceled)
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51. A method of optically probing an object(s) and/or a medium and/or an optical path including the object(s) or medium, the method comprising:
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a) illuminating the object(s) or the medium to induce, from the object(s) or medium, a plurality of noisy light response signals that are randomly or pseudo-randomly modulated, each induced noisy light response signal of the optical superimposition being associated with a different respective target location of the object(s) or medium and with a different respective target-location-including optical path; b) receiving into an optical detector an optical superimposition of the plurality of the noisy light response signals so as to illuminate the optical detector and to generate a combination electrical signal describing the optically superimposed plurality of received noisy light response signals; c) determining or characterizing or detecting from the combination electrical signal, at least one of; i) a relationship between power and frequency of the combination electrical signal or a derivative thereof over a discrete or continuous spectrum; ii) a temporal autocorrelation function of the combination electrical signal; iii) a distance parameter(s) involving one or more the objects; iv) a mechanical stress or strain; v) a change in a light propagation time of at least one optical path; vi) a difference in light propagation times of multiple optical paths or a temporal change thereof; vii) mechanical motion of an object; and viii) a material or mechanical property of an optical fiber, at least a portion of which is included in the optical path of step (a). - View Dependent Claims (52, 53, 54, 55, 56, 57, 58, 59)
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Specification