Single-lens, single-sensor 3-D imaging device with a central aperture for obtaining camera position
First Claim
1. A device for three-dimensional (3-D) imaging comprising:
- a lens;
a mask;
at least two defocusing apertures located off of the optical axis to pass at least two defocused images of the target object, wherein the at least two defocusing apertures are located in the mask;
a single sensor operable to capture electromagnetic radiation transmitted from the target object through the lens and the at least two defocusing apertures in the form of at least two defocused images of the target object, the sensor further operable to output the at least two defocused images as sensor information; and
a processor communicatively connected with the sensor that processes the sensor information, determines depth information by measuring a distance between the at least two defocused images, and produces a 3-D image of the object.
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Abstract
A device and method for three-dimensional (3-D) imaging using a defocusing technique is disclosed. The device comprises a lens, a central aperture located along an optical axis for projecting an entire image of a target object, at least one defocusing aperture located off of the optical axis, a sensor operable for capturing electromagnetic radiation transmitted from an object through the lens and the central aperture and the at least one defocusing aperture, and a processor communicatively connected with the sensor for processing the sensor information and producing a 3-D image of the object. Different optical filters can be used for the central aperture and the defocusing apertures respectively, whereby a background image produced by the central aperture can be easily distinguished from defocused images produced by the defocusing apertures.
85 Citations
4 Claims
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1. A device for three-dimensional (3-D) imaging comprising:
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a lens; a mask; at least two defocusing apertures located off of the optical axis to pass at least two defocused images of the target object, wherein the at least two defocusing apertures are located in the mask; a single sensor operable to capture electromagnetic radiation transmitted from the target object through the lens and the at least two defocusing apertures in the form of at least two defocused images of the target object, the sensor further operable to output the at least two defocused images as sensor information; and a processor communicatively connected with the sensor that processes the sensor information, determines depth information by measuring a distance between the at least two defocused images, and produces a 3-D image of the object. - View Dependent Claims (2)
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3. A method for three-dimensional (3-D) imaging comprising:
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capturing, with a single sensor, electromagnetic radiation transmitted off of an object and through a lens and at least two defocusing apertures located off of the optical axis in the form of at least two defocused images of the target object, wherein the at least two defocusing apertures are located in a same mask; and processing information from the sensor to produce a 3-D image representative of the object wherein processing information includes determining depth information by measuring a distance between the at least two defocused images. - View Dependent Claims (4)
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Specification
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- Resources
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Current AssigneeCalifornia Institute of Technology
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Original AssigneeCalifornia Institute of Technology
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InventorsGharib, Morteza, Lu, Jian, Graff, Emilio, Pereira, Francisco
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Primary Examiner(s)Shin, Kyung H
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Application NumberUS14/046,230Publication NumberTime in Patent Office669 DaysField of Search348/46, 348/349, 348/E13.015, 348/E13.074, 382/154, 345/419, 356/602US Class Current1/1CPC Class CodesG01B 11/2509 Color codingG02B 2207/129 Coded aperture imagingG02B 5/005 Diaphragms for cameras G03B...G03B 15/12 using mirrorsG03B 35/02 by sequential recordingG06T 7/50 Depth or shape recoveryH04N 13/204 using stereoscopic image ca...H04N 13/207 using a single 2D image sensorH04N 13/254 in combination with electro...
