Class / Patent application number | Description | Number of patent applications / Date published |
359559000 | Using Fourier transform spatial filtering | 10 |
20080252977 | IMAGE DISPLAY METHOD - Disclosed herein is an image display method wherein an image display apparatus which includes a light source and an optical system is used, the optical system including, an optical modulation section, a Fourier transform image forming section, a Fourier transform image selection section, and a conjugate image forming section, the image forming method including, a step, carried out by the optical modulation section, of producing a two-dimensional image based on two-dimensional image data whose aberrations caused by the optical system are corrected. | 10-16-2008 |
20090015922 | Writing a diffractive structure - Writing a diffractive structure is disclosed. A reference modulated beam is generated. An object modulated beam is generated. A diffractive structure is written using an interference between the reference modulated beam and the object modulated beam. A system for writing a diffractive structure comprises a reference generator for generating a reference modulated beam; an object generator for generating a object modulated beam; and a writer for writing a diffractive structure using an interference between the reference modulated beam and the object modulated beam. | 01-15-2009 |
20090303597 | THREE-DIMENSIONAL IMAGE DISPLAY APPARATUS - A three-dimensional image display apparatus includes a light source and an optical system including a light modulation unit having pixels for generating a two-dimensional image by modulating light from the light source by the respective pixels and emitting a spatial frequency in the generated two-dimensional image along a diffraction angle corresponding to diffraction orders generated from the respective pixels, a Fourier transform image formation unit for performing Fourier transform on the spatial frequency in the two-dimensional image to generate Fourier transform images corresponding to the diffraction orders, a Fourier transform image selection unit for selecting a Fourier transform image corresponding to a desired diffraction order among the Fourier transform images, and a conjugate image formation unit for forming a conjugate image of the selected Fourier transform image, and further includes a semi-transmissive mirror for changing a light ray travelling direction emitted from the optical system. | 12-10-2009 |
20100020399 | PROGRAMMABLE OPTICAL PROCESSING DEVICE EMPLOYING STACKED CONTROLLABLE PHASE SHIFTING ELEMENTS IN FRACTIONAL FOURIER PLANES - A monolithic or hybrid integrated optical processor or optical processing system having a plurality of phase shifting array elements, each controlled by respective control signals, and arranged so that each phase shifting array element lies in a different fractional Fourier transform plane. In various embodiments, at least a portion of the resulting system is implemented in a stack of element materials. In one embodiment, a segment of graded index material lies between consecutive phase shifting array elements. Other features include obtaining images from an electronically-controllable image source, using an image sensor to change the processed image into an electrical output, and using at least one of the phase shifting array element to introduce a phase shift. | 01-28-2010 |
20100097702 | OPTICAL SUPERRESOLUTION USING MULTIPLE IMAGES - An imaging system is provided. The imaging system includes a point spread function (PSF) module producing a diffraction-limited image of a sample. A convolution module performs convolution of the diffraction-limited image with a first image of a focal spot having a first wavelength to produce a first simulated image. The convolution also performs convolution of the diffraction-limited image with a second image of a focal ring having a second wavelength to produce a second simulated image. A difference module subtracts said first simulated image and said second simulated image to produce said high resolution composite image. | 04-22-2010 |
20100265586 | PHOTONIC DEVICE FOR SPATIAL FILTERING WITH NARROW ANGULAR PASSBAND - A spatial filtering device with narrow angular passband, characterized in that it comprises a photonic structure consisting of cylindrical elements distributed in the form of successive layers stacked along an axis Oz in a dielectric medium or in a vacuum, all the cylindrical elements being identical except for cylindrical elements of at least one layer consisting of cylindrical elements having a substantially smaller cross-sectional surface area than the cross-sectional area of the cylindrical elements of the layers surrounding it. | 10-21-2010 |
20110164320 | PROGRAMMABLE OPTICAL COMPUTING DEVICE EMPLOYING LED ARRAY TRANSDUCERS AND STACKED LIGHT MODULATOR ELEMENTS IN FRACTIONAL FOURIER PLANES - A monolithic or hybrid integrated optical information processor or optical information processing system having at least one LED array and plurality of light modulating array elements, each controlled by respective control signals, and arranged so that each light modulating array element lies in a different fractional Fourier transform plane. In some implementations, at least a portion of the resulting system is implemented in a stack of element materials. In an implementation, a segment of graded index material lies between consecutive light modulating array elements. In an implementation, an LED array is used as an image source and another LED array is used as an image sensor to transform the processed image into an electrical output. | 07-07-2011 |
20120200924 | MONOLITHIC OR HYBRID INTEGRATED OPTICAL INFORMATION PROCESSOR EMPLOYING A PLURALITY OF CONTROLLABLE OPTICAL TRANSFER FUNCTIONS AT FRACTIONAL FOURIER PLANES - A monolithic or hybrid integrated optical information processor employing a plurality of controllable optical transfer functions at fractional Fourier planes between two optical imaging elements is described. The arrangement can be used to realize or closely approximate arbitrary non-positive-definite transfer functions of spatially-varying amplitude and phase. In various implementations, one or both of the optical imaging elements can comprise a lens or graded-index material. In some implementations, at least a portion of the arrangement is implemented in the form of a stack. Graded index material may lie between consecutive light modulating array elements. The controllable plurality of optical transfer functions are employed to create a controllable optical processor which can be used for image filtering and optical computations using complex-valued optical signal arithmetic. An image sensor may be included to transform the processed image into electrical output. Applications include optical computing systems and integrated optics. | 08-09-2012 |
20160048032 | Optical Field Transformation Methods and Systems - A method of performing coherent transformations of optical fields includes forming a far field distribution of the input optical field. A fraction of the formed far field is diffracted by producing localized discontinuities within said far field. A Fraunhofer diffraction pattern of the diffracted optical field is formed. The Fraunhofer diffraction pattern is modified by producing localized optical path differences within the Fraunhofer diffraction pattern. The transformed output optical field is produced in the far field with respect to the modified Fraunhofer diffraction pattern. | 02-18-2016 |
359562000 | For changing zeroth order intensity | 1 |
20160202488 | DISPLAY SYSTEM | 07-14-2016 |