Your search keyword '"Holographic imaging"' showing total 14 results

1. Low-cost three-dimensional millimeter-wave holographic imaging system based on a frequency-scanning antenna

Author

Vahid Amin Nili, Zahra Kavehvash, Ehsan Mansouri, Amin Khavasi, Mohammad Fakharzadeh, and Mahdi Shabany

Subjects

Image quality, Computer science, business.industry, 3D reconstruction, ComputingMethodologies_IMAGEPROCESSINGANDCOMPUTERVISION, Holographic imaging, 020206 networking & telecommunications, 02 engineering and technology, Lateral resolution, 01 natural sciences, Atomic and Molecular Physics, and Optics, Object detection, 010309 optics, Optics, 0103 physical sciences, Extremely high frequency, 0202 electrical engineering, electronic engineering, information engineering, Electrical and Electronic Engineering, business, Engineering (miscellaneous)

Abstract

In this paper, a closed-form two-dimensional reconstruction technique for hybrid frequency and mechanical scanning millimeter-wave (MMW) imaging systems is proposed. Although being commercially implemented in many imaging systems as a low-cost real-time solution, the results of frequency scanning systems have been reconstructed numerically or have been reported as the captured raw data with no clear details. Furthermore, this paper proposes a new framework to utilize the captured data of different frequencies for three-dimensional (3D) reconstruction based on novel proposed closed-form relations. The hybrid frequency and mechanical scanning structure, together with the proposed reconstruction method, yields a low-cost MMW imaging system with a satisfying performance. The extracted reconstruction formulations are validated through numerical simulations, which show comparable image quality with conventional MMW imaging systems, i.e., switched-array (SA) and phased-array (PA) structures. Extensive simulations are also performed in the presence of additive noise, demonstrating the acceptable robustness of the system against system noise compared to SA and comparable performance with PA. Finally, 3D reconstruction of the simulated data shows a depth resolution of better than 10 cm with minimum degradation of lateral resolution in the 10 GHz frequency bandwidth.

Published

2017

2. Hot images from obscurations

Author

J. T. Hunt, Kenneth R. Manes, and P. A. Renard

Subjects

Physics, Fresnel zone, High power lasers, Spatial filter, business.industry, Materials Science (miscellaneous), Amplifier, Holography, Holographic imaging, Nonlinear optics, Self-focusing, Nova (laser), Laser, Industrial and Manufacturing Engineering, law.invention, Nonlinear system, Optics, law, Business and International Management, business, Refractive index, Inertial confinement fusion, Laser beams

Abstract

Certain damage observed on the optics in NOVA is consistent with a phenomenon akin to holographic imaging. (NOVA is the Lawrence Livermore National Laboratory's 10-beam Nd:glass laser used for inertial confinement fusion research.) The minimization of similar damage in next-generation laser systems is sought by first identifying the sources for these holographic images, specifying glass parameters appropriately, and staging the amplifier chain to circumvent the problem. The insight gained has lead to an explanation for a 20-year-old puzzle.

Published

2010

3. Millimeter-wave compressive holography

Author

Christy Fernandez Cull, Michael Mattheiss, David J. Brady, David A. Wikner, and Joseph N. Mait

Subjects

Electromagnetic field, Computer science, business.industry, Image quality, Materials Science (miscellaneous), Holography, Holographic imaging, Industrial and Manufacturing Engineering, Backpropagation, law.invention, Computational photography, Optics, Undersampling, law, Inverse scattering problem, Business and International Management, business, Digital holography

Abstract

We describe an active millimeter-wave holographic imaging system that uses compressive measurements for three-dimensional (3D) tomographic object estimation. Our system records a two-dimensional (2D) digitized Gabor hologram by translating a single pixel incoherent receiver. Two approaches for compressive measurement are undertaken: nonlinear inversion of a 2D Gabor hologram for 3D object estimation and nonlinear inversion of a randomly subsampled Gabor hologram for 3D object estimation. The object estimation algorithm minimizes a convex quadratic problem using total variation (TV) regularization for 3D object estimation. We compare object reconstructions using linear backpropagation and TV minimization, and we present simulated and experimental reconstructions from both compressive measurement strategies. In contrast with backpropagation, which estimates the 3D electromagnetic field, TV minimization estimates the 3D object that produces the field. Despite undersampling, range resolution is consistent with the extent of the 3D object band volume.

Published

2010

4. Stereo enhancement in holographic imaging

Author

Mario Garavaglia, Héctor Rabal, Marcelo Trivi, and Enrique E. Sicre

Subjects

Physics, Optics, business.industry, Materials Science (miscellaneous), Holographic imaging, Business and International Management, business, Industrial and Manufacturing Engineering

Abstract

On combine la vision tridimensionnelle actuelle fournie par l'holographie impliquant la profondeur et la perspective de l'objet avec la vision stereoscopique plutot artificielle ou la profondeur est principalement controlee par la condition de disparite

Published

2010

5. Holographic imaging of semitransparent droplets or particles

Author

Charles M. Vest and Ivan Prikryl

Subjects

Diffraction, Physics, Total internal reflection, Opacity, Physics::Instrumentation and Detectors, business.industry, Materials Science (miscellaneous), Holography, Physics::Optics, Holographic imaging, Industrial and Manufacturing Engineering, law.invention, Optical phenomena, Optics, law, Computer Science::Computer Vision and Pattern Recognition, Optoelectronics, Business and International Management, business, Refractive index, Practical implications

Abstract

The formation of images of semitransparent spherical particles illuminated with coherent light is described from a diffraction theory viewpoint. Such images are distinctly different from those of opaque particles. The primary optical phenomena involved are illustrated by experimental results, and practical implications for holographic imaging of sprays are noted.

Published

2010

6. Speckle noise reduction by random phase shifters

Author

Masaru Matsumura

Subjects

Physics, Materials science, Physics and Astronomy (miscellaneous), business.industry, Scattering, Materials Science (miscellaneous), Noise reduction, General Engineering, Holography, Phase (waves), General Physics and Astronomy, Holographic imaging, Physics::Optics, Coherent imaging, Speckle noise, Industrial and Manufacturing Engineering, Light scattering, law.invention, Reduction (complexity), Speckle pattern, Optics, law, Business and International Management, business, Phase shift module

Abstract

Experimental results are given that show that a random phase shifter (RPS) is effective in reducing speckle noise caused by optical defects in coherent imaging systems, including holographic imaging systems. Here the RPS is composed of many tiny transparent blocks, each of which gives a definite phase shift such as O or pi to the transmitting light; and the distribution of the phase shift is two-dimensionally random. The optical defects are scattering centers such as scratches or dust on lenses or on the hologram medium in the case of holographic imaging systems.

Published

2010

7. Noise suppression in coherent imaging

Author

Robert W. Lewis and Juris Upatnieks

Subjects

Physics, Optical data processing, Noise suppression, business.industry, Image quality, Materials Science (miscellaneous), Acoustics, Quantum noise, Holographic imaging, Coherent imaging, Industrial and Manufacturing Engineering, Optics, Spatial frequency, Business and International Management, business, Phase modulation

Abstract

Several noise suppression techniques in coherent imaging systems are described. For holographic imaging the diffuse wave, periodic phase modulation, and multiple wave techniques are compared and the implementation of the last is considered. For lens-type imaging systems the use of multiple incoherent waves results in excellent noise suppression.

Published

2010

8. Experimental evaluation of inline free-space holography systems

Author

Shi Liu, Damien P. Kelly, Yang Wu, James P. Ryle, and Adrian Stern

Subjects

Diffraction, business.industry, Computer science, Materials Science (miscellaneous), Digital imaging, Holography, Holographic imaging, Holographic interferometry, Industrial and Manufacturing Engineering, Metrology, law.invention, Interferometry, Optics, law, Nyquist rate, Business and International Management, business, Digital holography

Abstract

It is important to be able to quantify, theoretically and experimentally, the performance of coherent digital systems, so that their suitability for a given metrology application can be assessed. Here, a free-space inline digital holographic system is investigated. To isolate the scattered object field, phase-shifting interferometry (PSI) techniques are used. Several sequential holographic measurements are made, where the phase of the reference field is stepped by a known amount relative to the scattered object field between captures. Under ideal conditions such as noise-free electronics, vibration-free environments, and perfect reference and illuminating object waves, this system will be diffraction limited. However, real systems suffer from experimental error and noise effects. In this paper, we examine a PSI digital holographic imaging system considering all prominent error sources. An experimental metric is defined that quantifies how far from the theoretical ideal a real system is performing. By carefully optimizing our system, following our recommended guidelines, we approach diffraction limited imaging, surpassing the Nyquist sampling rate of the CCD/CMOS device.

Published

2015

9. Compressive sensing for direct millimeter-wave holographic imaging

Author

Zhiqiang Chen, Lingbo Qiao, Shen Zongjun, Ziran Zhao, and Yingxin Wang

Subjects

Synthetic aperture radar, Diffraction, business.industry, Image quality, Computer science, Terahertz radiation, Materials Science (miscellaneous), Holography, Holographic imaging, Industrial and Manufacturing Engineering, law.invention, Optics, Compressed sensing, Sampling (signal processing), law, Radar imaging, Inverse scattering problem, Extremely high frequency, Curvelet, Nyquist rate, Business and International Management, business, Digital holography

Abstract

Direct millimeter-wave (MMW) holographic imaging, which provides both the amplitude and phase information by using the heterodyne mixing technique, is considered a powerful tool for personnel security surveillance. However, MWW imaging systems usually suffer from the problem of high cost or relatively long data acquisition periods for array or single-pixel systems. In this paper, compressive sensing (CS), which aims at sparse sampling, is extended to direct MMW holographic imaging for reducing the number of antenna units or the data acquisition time. First, following the scalar diffraction theory, an exact derivation of the direct MMW holographic reconstruction is presented. Then, CS reconstruction strategies for complex-valued MMW images are introduced based on the derived reconstruction formula. To pursue the applicability for near-field MMW imaging and more complicated imaging targets, three sparsity bases, including total variance, wavelet, and curvelet, are evaluated for the CS reconstruction of MMW images. We also discuss different sampling patterns for single-pixel, linear array and two-dimensional array MMW imaging systems. Both simulations and experiments demonstrate the feasibility of recovering MMW images from measurements at 1/2 or even 1/4 of the Nyquist rate.

Published

2015

10. N-ocular volume holographic imaging

Author

George Barbastathis and Arnab Sinha

Subjects

business.industry, Computer science, Materials Science (miscellaneous), Holography, Physics::Optics, Holographic imaging, Image processing, Industrial and Manufacturing Engineering, law.invention, Filtered backprojection, Optics, Three dimensional imaging, law, Computer Science::Computer Vision and Pattern Recognition, Broadband, Light beam, Business and International Management, business

Abstract

Volume holographic imaging utilizes Bragg selectivity to optically slice the object space of the imaging system and measure four- (three spatial and one spectral) dimensional object information. The N-ocular version of this method combines multiple-volume holographic sensors and digital postprocessing to yield high-resolution three-dimensional images for broadband objects located at long working distances. We discuss the physical properties of volume holography pertinent to imaging performance and describe two computational algorithms for image inversion based on filtered backprojection and least-squares optimization.

Published

2004

11. Recent advances in digital holography [Invited]

Author

Mitsuo Takeda, Ahmad Faridian, Peng Gao, Klaus Körner, Dinesh N. Naik, Alok Kumar Singh, Wolfgang Osten, Marc Wilke, and Giancarlo Pedrini

Subjects

Image quality, business.industry, Computer science, Holography, Holographic imaging, Image processing, Laser, Atomic and Molecular Physics, and Optics, Metrology, law.invention, Optical imaging, Optics, law, Digital image processing, Microscopy, Digital holographic microscopy, Electrical and Electronic Engineering, business, Phase retrieval, Engineering (miscellaneous), Digital holography

Abstract

This article presents an overview of recent advances in the field of digital holography, ranging from holographic techniques designed to increase the resolution of microscopic images, holographic imaging using incoherent illumination, phase retrieval with incoherent illumination, imaging of occluded objects, and the holographic recording of depth-extended objects using a frequency-comb laser, to the design of an infrastructure for remote laboratories for digital-holographic microscopy and metrology. The paper refers to current trends in digital holography and explains them using new results that were recently achieved at the Institute for Applied Optics of the University Stuttgart.

Published

2014

12. Experimental research on terahertz Gabor inline digital holography of concealed objects

Author

Kai Xue, Qi Li, Qi Wang, and Yun-Da Li

Subjects

Opacity, business.industry, Computer science, Image quality, Terahertz radiation, Digital imaging, Holographic imaging, Iterative reconstruction, Atomic and Molecular Physics, and Optics, Experimental research, Optics, Electrical and Electronic Engineering, business, Engineering (miscellaneous), Digital holography

Abstract

Terahertz (THz) radiation has the characteristics of penetrating nonmetallic and nonpolar materials that are opaque to visible light, which makes THz digital holography have an application potential of imaging concealed objects with certain barriers. A CO(2) pumped continuous THz Gabor inline digital holographic imaging system was utilized to conduct experimental researches on imaging concealed objects. Paper, Teflon, a plastic express envelope, and silicon wafers were used as barriers. High-quality reconstructed images were obtained. Compared with the reconstruction results without any barriers, the results verify the feasibility of THz Gabor inline digital holography in imaging concealed objects.

Published

2012

13. Electronic holographic imaging through living human tissue

Author

David S. Dilworth, P. C. Sun, Emmett N. Leith, Hsuan Chen, Marian P. Shih, Juaquin Lopez, and E. Arons

Subjects

Dye laser, Materials science, business.industry, Materials Science (miscellaneous), Holography, Holographic imaging, Speckle noise, Laser, Industrial and Manufacturing Engineering, law.invention, Optics, law, Medical imaging, Optoelectronics, Spatial frequency, Business and International Management, business, Sensitivity (electronics)

Abstract

Electronic holography and a swept-frequency dye laser are used with the first-arriving-light method to image an absorbing object through the flesh of a human hand. Holography with living human tissue without the use of high-peak-power lasers is made possible by the high sensitivity of the CCD camera as well as its capability for making a large number of holograms in rapid succession, thus enabling the images to be combined to produce a resultant image with an improved signal-to-noise ratio.

Published

1994

14. Depth perception by a holographic imaging system

Author

R. Bernardez, José L. Hernández, Eusebio Bernabeu, J. M. Vazquez, J. L. Ruiz, and Fernando Carreño

Subjects

Visual perception, Computer science, business.industry, Materials Science (miscellaneous), media_common.quotation_subject, Holography, Holographic imaging, Image processing, Stereoscopy, Industrial and Manufacturing Engineering, law.invention, Optics, Cardinal point, law, Perception, Binocular disparity, Light beam, Business and International Management, Depth perception, business, media_common

Abstract

A holographic optical system for checking human depth perception is proposed. The system does not use any kind of dissociative element; it uses incoherent light for the reconstruction of holograms and allows the binocular disparity to vary from 0 to 650 arcsec. The depth perception of observers can be checked in conditions closer to normal life.

Published

1993