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35 results about "Optical scanning holography" patented technology

Three-dimensional holographic fluorescence microscope

An optical scanning holography system which requires only a two dimensional scan to record three dimensional information from a fluorescent specimen wherein the optical scanning holography is based on scanning the specimen with a Fresnel zone pattern and detecting and decoding the fluorescent light reflected from the specimen. The flourescent light reflected from the specimen contains three dimensional information about the specimen so that once the fluorescent light is detected and decoded a three dimensional image of the specimen can be obtained and displayed using only the two dimensional scan.
Owner:VIRGINIA TECH INTPROP INC

Method for improving optical scanning holographic tomography effect

InactiveCN104159094ASmall viewing impactEvenly distributed noiseImage enhancementSteroscopic systemsOptical scanning holographyOptical tomography
The invention discloses a method for improving an optical scanning holographic tomography effect, and belongs to the field of optical tomography. The method can solve the defect in the conventional optical scanning technology that restored section images have louder out-of-focus noise, in real time. The method comprises the following steps: utilizing a random phase in the optics encryption technique, changing a certain pupil function in a conventional optical scanning holographic system into a stochastic phase pupil function, and equaling restore of out-of-focus layer images into decryption under the condition of mistakenly decrypting a secret key, thereby enabling the out-of-focus layer images overlaid on the restored section images to be gaussian white noise with statistical independence and greatly reducing the influence of the out-of-focus noise on the focus layer images. Meanwhile the out-of-focus noise can also be filtered through design of a gaussian filter, so that the longitudinal resolution of the system can be improved; besides, through the adoption of the method, the bandwidth of the optical transfer function is wider, and the transverse resolution of the restored section images can be higher.
Owner:SICHUAN UNIV

Gaussian apodization based optical scanning holographic edge detection method

The invention provides an improved method which adopts a spiral phase plate to generate vortex beams so as to carry out edge extraction, belongs to the field of optical scanning and image reconstruction, and mainly solves a problem of suppressing the spiral phase plate to diffract side lobes. In an optical scanning holographic system which carries out edge extraction by adopting the spiral phase plate, suppression for the side lobes is realized through reducing the radius of the spiral phase plate, and a frequency domain expression of the corrected vortex beams is provided, thereby improving the resolution of edge extraction. The method provided by the invention effectively improves the resolution of edge extraction, and the side lobe suppressing method is applicable to various fields.
Owner:UNIV OF ELECTRONIC SCI & TECH OF CHINA

Optical scanning holographic image edge extracting method based on double-hole pupil

An optical scanning holographic image edge extracting method based on a double-hole pupil belongs to the technical field of the optical scanning holographic technology. The method includes the following steps: 1 arranging the double-hole pupil to be that P2a (x, y)= sigma (x-x1, y-y1) to obtain a first Fresnel zone plate h1 and conduct first two-dimensional holographic scanning to obtain a hologram s1; 2 arranging the double-hole pupil to be that P2b (x, y)= sigma (x-x2, y-y2) to obtain a second Fresnel zone plate h2 and conduct second two-dimensional holographic scanning to obtain a hologram s2 to record more object high frequency information; 3 conducting Fourier transform on the holograms obtained through the two-dimensional holographic scanning, and a conjugate gradient method is introduced to conduct inverse problem solving. The method is simple in structure and easy to operate, has high practicability, can achieve edge extraction of clear objects and has high application value.
Owner:UNIV OF ELECTRONICS SCI & TECH OF CHINA

Complex amplitude object reconstruction device based on optical scanning holographic technique

The invention relates to a complex amplitude object reconstruction device based on the optical scanning holographic technique. The complex amplitude object reconstruction device comprises a difference frequency laser coherent unit, a two-dimensional scanning unit, a photoelectric information receiving and processing unit and a computer reconstruction complex amplitude unit; the reconstruction of the complex amplitude object is realized based on the difference frequency scanning technology which is simpler and easy to realize when being compared with the conventional coherent optical scanning holographic technique. The complex amplitude object reconstruction device can be applied to the field of biology microscope, particularly to the field of transparent or weak-absorption biological sample detection, has the advantage of being superior to other biological imaging techniques, can realize coherent-imaging on the premise of ensuring the imaging resolution, can further obtain more information of the sample related to the refractive index, thereby being quite good in the application prospect in biomedicine.
Owner:SHANGHAI INST OF OPTICS & FINE MECHANICS CHINESE ACAD OF SCI

Deep learning-based optical scanning holography defocus noise eliminating method

InactiveCN108089425AOut of Focus Noise CancellationSolve the problem of out-of-focus noiseInstrumentsPattern recognitionOptical scanning holography
The invention discloses a deep learning-based optical scanning holography defocus noise eliminating method, belongs to the fields of optical scanning holography and image noise elimination, and mainlysolves the problem of defocus noise in the optical scanning holography. By virtue of a deep neural network learning method, the defocus noise of a reestablished image which is subjected to random encryption treatment is eliminated; and by training an image with defocus noise and an image without defocus noise, the defocus noise in the images can be eliminated. By virtue of the method, the problemof high defocus noise in optical scanning holography can be solved effectively, and the noise eliminating method is applicable to each field.
Owner:UNIV OF ELECTRONICS SCI & TECH OF CHINA

Optical scanning holographic technique without mechanical motion scanning

InactiveCN105607453AAvoid problems that affect the effect of holographic image recordingReduce data volumeInstrumentsOptical scanning holographyOphthalmology
The invention discloses an optical scanning holographic technique without mechanical motion scanning and belongs to the field of optical imaging. The optical scanning holographic technique is used for improving the traditional optical scanning holographic system. According to the optical scanning holographic technique, a digital micro-mirror device is used for replacing a two-dimensional mechanical scanning device in the traditional system and a compressing sensitive technique is applied to the two key links of data recording and plural hologram reconstruction, so that the problems caused by the factors, such as, precision and jittering of mechanical motion scanning in the traditional system are solved, the volume of to-be-recorded data of the system is extremely reduced, and the technique also can be used for reconstructing images with acceptable quality even under the condition of lower sampling rate.
Owner:SICHUAN UNIV

Optical scanning holographic image recognition technology based on convolution neural network

The invention discloses an optical scanning holographic image recognition technology based on a convolution neural network, belongs to the field of optical scanning holography and depth learning, andmainly aims to solve the problem concerned with optical scanning holographic image recognition. The convolution neural network is used to recognize a hologram. The recognition of optical scanning hologram is realized effectively and intelligently. The hologram recognition method is applicable to various fields.
Owner:UNIV OF ELECTRONICS SCI & TECH OF CHINA

Method for eliminating defocusing noise based on two-dimensional best histogram entropy method and genetic algorithm

The invention belongs to the field of optical scanning holography, and provides a method for eliminating defocusing noise based on a two-dimensional best histogram entropy method and a genetic algorithm. First, a laser beam is split into two beam paths by a first polarization beam splitter, wherein the first pupil is a random phase pupil p1 (x, y) = exp j [2 Pai r (x, y)] and the second pupil is p2 is p1 (x, y)=1. Through the arrangement of the optical pupils, the defocusing noise is converted into the form of speckle noise. Then the total entropy H (s, t) of the two-dimensional histogram is obtained by using the two-dimensional best histogram entropy method to the re-constructed and obtained grayscale image and based on this, a fitness function is adopted and the genetic algorithm searches the optimal threshold. According to the invention, through the extraction of the grayscale information of an image, the two-dimensional best histogram entropy method is utilized to select a threshold and an improved genetic algorithm is utilized to speed up the converging speed, which increases the threshold searching efficiency so as to obtain the optimal threshold for image segmentation and to effectively increase the imaging quality of slices.
Owner:UNIV OF ELECTRONICS SCI & TECH OF CHINA

Optical scanning holographic self-focusing method based on average gradient function

The invention provides a self-focusing method for obtaining a holographic image through an average gradient function, and belongs to the field of optical scanning holography and self-focusing. The self-focusing problem of the holographic image is mainly solved. Self-focusing is realized by calculating the average gradient function value of the reconstructed image; the self-focusing problem of theholographic image can be effectively solved; meanwhile, the self-focusing problem of other types of images can be solved by means of the average gradient function.
Owner:UNIV OF ELECTRONICS SCI & TECH OF CHINA

Method for eliminating random encrypted optical scanning holography defocus noise

The invention provides a method for eliminating random encrypted optical scanning holography defocus noise, and belongs to the field of the optical encryption and holography reconstruction. The defocus noise problem in the random encrypted optical scanning holography technology is mainly solved. The defocus noise of the random encrypted optical scanning holography is eliminated by mainly using convex optimization reconstruction and high-order amplification; the influence on the holography reconstruction by the optical scanning holography system defocus noise is effectively eliminated, and theresolution of a holographic image is improved.
Owner:UNIV OF ELECTRONICS SCI & TECH OF CHINA

Multi-image parallel encryption method for non-cascade optical scanning holography

ActiveCN113485081AImplement parallel encryptionGuaranteed Parallel Encryption CapabilitiesDigital data protectionKey spaceOptical scanning holography
The invention discloses a multi-image parallel encryption method for non-cascade optical scanning holography, and belongs to the field of optical encryption. A plurality of plaintext images with different depths can be encrypted at the same time, and each image can be independently and privately decrypted. According to the invention, a series of different structure patterns are dynamically switched at the pupil to replace a mechanical scanning process. The structure patterns are created by using a modulation measurement matrix, the modulation measurement matrix is obtained by matrix multiplication of an orthogonal modulation matrix and a sensing matrix, and different images correspond to different substructure patterns. Due to the fact that the plaintext image can be distinguished before sampling by means of the quadrature modulation characteristic, the image to be encrypted does not need to be preprocessed, and defocus noise suppression does not need to be conducted on the decrypted image. In addition, the use of the modulation measurement matrix expands the key space. Due to the characteristics, the safety and the practicability of the holographic multi-image encryption system based on optical scanning are greatly improved.
Owner:BEIHANG UNIV

TR-MUSIC algorithm-based optical scanning holographic axial positioning method

The invention discloses a TR-MUSIC algorithm-based optical scanning holographic axial positioning method, and solves the problem of low scanning axial distance resolution of the optical scanning holographic technology in the prior art. The optical scanning holographic axial positioning method comprises the following steps of forming a Fresnel zone plate by concentrated interference after laser beam splitting; then scanning an object by the Fresnel zone plate to obtain a hologram of the object, and performing fourier transform on the hologram to obtain a matrix K; next, obtaining a time reversal matrix corresponding to a multilayered slice of the object through the matrix K and then solving a characteristic value and a characteristic vector so as to decompose the hologram into a signal sub space and a noise sub space; and finally performing equal-spacing discretization on the single-layer slice of the object by a finite element method and taking each unit as test targets to solve the hologram, and then obtaining imaging pseudo spectrum of all single-layer object slices, and performing summation on the imaging pseudo spectrum to represent the parameter of the axial position of the object. The optical scanning holographic axial positioning method is simple in realization way, convenient to operate and is quite high in practicability.
Owner:UNIV OF ELECTRONICS SCI & TECH OF CHINA

Self-organizing map neural network-based method for eliminating optical scanning holographic defocus noise

InactiveCN108267945AOut of Focus Noise CancellationSolve the problem of out-of-focus noiseImage enhancementImage analysisSelf organizing map neural networkOptical scanning holography
The invention discloses a self-organizing map neural network-based method for eliminating optical scanning holographic defocus noise, belongs to the fields of optical scanning holography and image noise elimination, and mainly solves the problem of defocus noise in the optical scanning holography. By virtue of the clustering analysis capability of the self-organizing map neural network, the defocus noise in reestablished images which are subjected to random encryption treatment can be eliminated. By virtue of the method, the problem of defocus noise in optical scanning holography can be solvedeffectively, and the noise eliminating method is applicable to each field.
Owner:UNIV OF ELECTRONIC SCI & TECH OF CHINA

Optical scanning holographic self-focusing method based on edge gray scale difference function

InactiveCN108710205AMarginal judgment is accurateSolve the self-focus problemMountingsOptical scanning holographyDifference function
The invention discloses an optical scanning holographic self-focusing method based on an edge gray scale difference function and belongs to the technical field of optical scanning holographic and self-focusing. The method comprises following steps of acquiring digital holographic images, carrying out equal step length rebuilding, calculating an edge brightness matrix and calculating an edge gray scale difference function value. According to the invention, by calculating the edge gray scale difference function value of a real part of the rebuilt holographic image, self-focusing is achieved. Inthis way, the self-focusing problem of the holographic image can be effectively solved and the edge gray scale difference function value can serve as a focusing evaluation index of other types of images.
Owner:UNIV OF ELECTRONICS SCI & TECH OF CHINA

A Method to Eliminate the Defocus Noise of Random Encrypted Optical Scanning Holography

The invention provides a method for eliminating defocus noise of random encryption optical scanning holography, belongs to the field of optical encryption and holographic reconstruction, and mainly solves the problem of defocus noise in random encryption optical scanning holography technology. The invention mainly uses convex optimization reconstruction and high-order amplification to eliminate the defocus noise of random encryption optical scanning holography, effectively eliminates the influence of defocus noise of the optical scanning holographic system on holographic reconstruction, and improves the resolution of holographic images.
Owner:UNIV OF ELECTRONICS SCI & TECH OF CHINA

A Self-focusing Method of Optical Scanning Holography Based on Mean Gradient Function

The invention proposes a mean gradient function to realize the self-focusing problem of the holographic image, belongs to the field of optical scanning holography and self-focusing, and mainly solves the self-focusing problem of the holographic image. The present invention realizes self-focus by calculating the mean gradient function value of the reconstructed image, and the present invention can effectively solve the self-focus problem of holographic images; meanwhile, the mean gradient function can solve the self-focus problem of other types of images.
Owner:UNIV OF ELECTRONICS SCI & TECH OF CHINA

Optical scanning holography system

An optical scanning holography system includes a polarization-sensitive lens configured to receive a linearly polarized beam and generate a first spherical wave of right-handed circular polarized light having a negative focal length and a second spherical wave of left-handed circular polarized light having a positive focal length, a first polarizer configured to pass only a beam component therethrough in a predetermined polarization direction among components of the generated first and second spherical waves, a scanning unit configured to scan an object by using an interference beam generated between the first and second spherical waves passing through the first polarizer, and a first photodetector configured to detect a beam reflected from the object.
Owner:CUBIXEL CO LTD

Inline scanning holography system for phosphor and transmitter

The present invention relates to an inline scanning holography system for a phosphor and a transmitter. According to the present invention, the inline scanning holography system includes a polarization sensitive lens that receives a linearly polarized beam and generates a first spherical wave of right-handed circular polarized light having a negative focal length and a second spherical wave of left-handed circular polarized light having a positive focal length, a polarizer that passes only a beam component in a predetermined polarization direction therethrough among components of the generated first and second spherical waves, a scanning unit for scanning a phosphor by using an interference beam generated between the first and second spherical waves passing through the polarizer, and a first photodetector that detects a fluorescent beam diverged from the phosphor. According to the present invention, a high-efficiency and high-quality optical scanning holography for a phosphor or a transmitter may be implemented.
Owner:CUBIXEL CO LTD

Optical scanning holographic single-point positioning method based on TR-MUSIC algorithm

The invention discloses an optical scanning holographic single-point positioning method based on a TR-MUSIC algorithm. The problem that the positioning accuracy is not high enough and the implementation mode of positioning is complicated in the prior art is solved. The method comprises the following steps: first, converting laser into a Fresnel zone plate, scanning an object to get a hologram of the object, and performing Fourier transform on the hologram to get a matrix K; then, getting a time inversion matrix of the object through the matrix K, calculating out the feature value and the feature vector of the object, and decomposing the hologram into a signal sub-space and a noise sub-space; and finally, discretizing the object in an equidistant manner through a finite element method, taking each unit as a test target and getting a hologram of each unit as a test target, getting the imaging pseudo spectrum of the object according to the orthogonality of the signal sub-space and the noise sub-space of the hologram, and getting the position information of a detected target. The method is simple to implement and easy in operation, has strong practicability, and is suitable for popularization and use.
Owner:UNIV OF ELECTRONICS SCI & TECH OF CHINA

A self-focusing and reconstruction method for optical scanning holography based on connected domains

InactiveCN107967703BAchieving self-focusReconstruction without out-of-focus noiseImage enhancementImage analysisOptical scanning holographyReconstruction method
The invention proposes a self-focusing and reconstruction method of optical scanning holography based on connected domains, belongs to the field of optical scanning holography technology and image reconstruction, and mainly solves the problem of holographic reconstruction in optical scanning holography. The invention uses the method of connected domains to mark the image of the hologram and obtain the area of ​​the image area, and realizes the self-focusing and reconstruction of the hologram through the law of area change. The invention effectively realizes the holographic reconstruction in the optical scanning holography, and the image reconstruction method is applicable to various fields.
Owner:UNIV OF ELECTRONICS SCI & TECH OF CHINA

A Recognition Method of Optical Scanning Holographic Image Based on Convolutional Neural Network

The invention discloses an optical scanning holographic image recognition technology based on a convolutional neural network, belongs to the field of optical scanning holographic and deep learning, and mainly solves the problem of optical scanning holographic image recognition. The present invention uses a convolutional neural network to identify holograms. The invention effectively and intelligently realizes the identification problem of the optical scanning hologram. This hologram identification method is applicable to various fields.
Owner:UNIV OF ELECTRONICS SCI & TECH OF CHINA

Complex-amplitude object reconstruction device based on optical scanning holography

A complex-amplitude object reconstruction device based on optical scanning holography technology, including a difference-frequency laser coherent unit, a two-dimensional scanning unit, a photoelectric information receiving and processing unit, and a computer reconstruction complex-amplitude unit. The invention realizes the reconstruction of the complex amplitude object based on the difference frequency scanning technology, which is simpler and easier to implement than the existing coherent optical scanning holographic technology. The present invention is used in biological microscopy, especially in the field of detection of transparent or weakly absorbing biological samples, and has advantages over other biological imaging technologies. It can realize coherent imaging under the premise of ensuring the imaging resolution, and the obtained samples are more related to the refractive index. information, so it has very good biomedical application prospects.
Owner:SHANGHAI INST OF OPTICS & FINE MECHANICS CHINESE ACAD OF SCI

Off-axis scanning holographic three-dimensional target real-time joint transformation recognition system and method

The invention discloses an off-axis scanning holographic three-dimensional target real-time joint transformation recognition system and method, and belongs to the technical field of optical scanning holographic three-dimensional object real-time recognition. The recognition system comprises a laser, a spatial filter, a first lens, a first beam splitter, a first reflective mirror, a second lens, a shutter, a second reflective mirror, a second beam splitter, a first objective table, a third lens, a first photoelectric detector, a computer, a third reflective mirror, a spatial light modulator, a fourth lens, a second objective table, a second photoelectric detector and a real-time display. The three-dimensional object information is recorded in an off-axis scanning holographic mode, a complex electrical signal processing unit in traditional optical scanning holography is omitted, the light path of the system is simplified, and the recognition efficiency of the three-dimensional target object of the system is improved. The three-dimensional object hologram is recognized through optical joint transformation, the problem of accurate positioning points in matching correlation filtering recognition does not exist, the structure is flexible, and correlation operation is easy to achieve.
Owner:KUNMING UNIV OF SCI & TECH

An Optical Scanning Holography Method Without Mechanical Motion Scanning

InactiveCN105607453BAvoid problems that affect the effect of holographic image recordingReduce data volumeInstrumentsDigital micro mirror deviceOptical scanning holography
The invention discloses an optical scanning holographic method without mechanical motion scanning, belongs to the field of optical imaging, and is an improvement on the traditional optical scanning holographic method. It replaces the two-dimensional mechanical scanning device in the traditional system with a digital micromirror device, and applies the compressed sensing algorithm to the two key links of data recording and complex hologram reconstruction, which avoids the precision of scanning due to mechanical motion in the traditional system. Problems caused by factors such as jitter and jitter can also be greatly reduced the amount of data that the system needs to record. Even at low sampling rates, this method can still reconstruct images of acceptable quality.
Owner:SICHUAN UNIV

A Method for Extracting Spatial Distance of Holographic Scanning Based on Wavelet Transform and Connected Domain

The invention proposes a holographic scanning spatial distance extraction method based on wavelet transform and connected domain, belongs to the field of optical scanning and image reconstruction, and mainly solves the problem of automatically finding the axial spatial position of an object to be measured. In the traditional optical scanning holographic system, the invention extracts the edge information of the reconstructed image through wavelet transform, and uses the connected domain algorithm to remove the defocus noise edge, thereby improving the accuracy of spatial distance extraction. The invention can effectively realize spatial distance extraction and improve the accuracy of spatial distance extraction, and this method is applicable to many fields.
Owner:UNIV OF ELECTRONICS SCI & TECH OF CHINA

A method of eliminating defocus noise in optical scanning holography based on self-organizing map neural network

InactiveCN108267945BOut of Focus Noise CancellationSolve the problem of out-of-focus noiseImage enhancementImage analysisSelf organizing map neural networkOptical scanning holography
The invention discloses a method for eliminating defocus noise in optical scanning holography based on a self-organizing mapping neural network, which belongs to the fields of optical scanning holography and image denoising, and mainly solves the problem of defocus noise in optical scanning holography. The invention utilizes the clustering analysis capability of the self-organizing map neural network to eliminate the defocus noise of the reconstructed image after random encryption processing. The invention can effectively solve the problem of defocus noise in optical scanning holography, and the noise removal method is applicable to various fields.
Owner:UNIV OF ELECTRONICS SCI & TECH OF CHINA

A Deep Learning-Based Method for Eliminating Defocus Noise in Optical Scanning Holography

InactiveCN108089425BOut of Focus Noise CancellationSolve the problem of out-of-focus noiseInstrumentsPattern recognitionOptical scanning holography
The invention discloses a method for eliminating defocus noise in optical scanning holography based on deep learning, which belongs to the fields of optical scanning holography and image denoising, and mainly solves the problem of defocus noise in optical scanning holography. The present invention uses a deep neural network learning method to eliminate the defocus noise of the reconstructed image after random encryption processing, and eliminates the defocus noise of the test image by training images with defocus noise and images without defocus noise. The invention effectively solves the problem of large defocus noise in optical scanning holography, and the noise removal method is applicable to various fields.
Owner:UNIV OF ELECTRONICS SCI & TECH OF CHINA
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