Journals starting with jos

JOSA-A( Vol No. ) * *Journal of the Optical Society of America

JOSA-A(10) * Color Constancy. I. Basic Theory of Two Stage Linear Recovery of Spectral Descriptions for Lights and Surfaces
* Color Constancy. II. Results for Two-Stage Linear Recovery of Spectral Descriptions for Lights and Surfaces
* Illuminance critical points on generic smooth surfaces
* Image Recovery form Data Acquired with a Charge-Coupled Device Camera
* Maximum A Posteriori Classification of Multifrequency, Multilook Synthetic Aperture Radar Intensity Data
* Pairwise Comparison Technique: A Simple Solution for Depth Reconstruction
* Recognition Polynomials
* Surface Reconstruction from Photometric Stereo Images
* Uniqueness of Results for Multiple Correlations of Periodic Functions
9 for JOSA-A(10)

JOSA-A(11) * 3-Dimensional Stereo by Photometric Ratios
* Color Constancy. III. General Linear Recovery of Spectral Descriptions for Lights and Surfaces
* Color Constancy: Generalized Diagonal Transforms Suffice
* Determination of Surface-Roughness from Reflected Step Edges
* Diffuse-Reflectance Model for Smooth Dielectric Surfaces
* Global Color Constancy: Recognition of Objects by Use of Illumination-Invariant Properties of Color Distributions
* Gradient and Curvature from the Photometric-Stereo Method, Including Local Confidence Estimation
* Method For Estimating Scene Parameters From Color Histograms
* Orthogonal Fourier-Mellin moments for invariant pattern recognition
* Photometric Stereo under a Light-Source with Arbitrary Motion
* Physics-Based Machine Vision: Introduction
* Polarization Camera For Computer Vision With A Beam Splitter
* Robust Physics-Based Analysis of Thermal and Visual Imagery
* Segmentation of Surface Curvature with a Photometric Invariant
* Shape from Shading on a Cloudy Day
* Simple Range Cameras Based on Focal Error
* Spectral Sharpening: Sensor Transformations for Improved Color Constancy
* Temporal-Color Space Analysis of Reflection
* Use of Invariants for Recognition of Three-Dimensional Color Textures
* What is the Center of the Image?
20 for JOSA-A(11)

JOSA-A(12) * Extracting Object Motion During Observer Motion: Combining Constraints from Optic Flow and Binocular Disparity
* Illumination-Invariant Recognition of Texture in Color Images
* Implementation of a Modified Richardson-Lucy Method for Image Restoration on a Massively Parallel Computer to Compensate for Space-Variant Point Spread of a Charge-Coupled-Device Camera
* Pictorial Depth Cues: A New Slant
* Stratification of 3-Dimensional Vision: Projective, Affine, and Metric Representations
* Stratification of 3D Vision: Projective, Affine and Metric Representations

JOSA-A(13) * Contrast Gain-Control in First-Order and 2nd-Order Motion Perception
* Control of Texture in Image Half-Toning
* Detection and Motion Detection in Chromatic and Luminance Beats
* Illuminance Texture Due to Surface Mesostructure
* Image-Reconstruction from Fourier-Transform Magnitude with Applications to Synthetic-Aperture Radar Imaging
* Limitations of Surface-Color and Apparent-Color Constancy
* Multichannel Vision System for Estimating Surface and Illumination Functions
* Occlusion Edge Blur: A Cue to Relative Visual Depth
* Projection-Based, Frequency-Domain Estimation of Superimposed Translational Motions
* Scanning Singular-Value-Decomposition Method for Restoration of Images with Space-Variant Blur
* Structure and Motion from Two Orthographic Views
* Structure-from-Motion: Determining the Range and Orientation of Surfaces by Image Interpolation
12 for JOSA-A(13)

JOSA-A(14) * Adaptive Quadrature Filters and the Recovery of Phase from Fringe Pattern Images
* Analytical Method to Calculate Optical Transfer-Functions for Image Motion and Vibrations Using Moments
* Bayesian Color Constancy
* Color Component Transformations for Optical Pattern Recognition
* Color Constancy in the Nearly Natural Image: I: Asymmetric Matches
* Detection of Second-Order Structure in Optical-Flow Fields
* Determining the Egomotion of an Uncalibrated Camera from Instantaneous Optical Flow
* Discriminant Analysis for Recognition of Human Face Images
* Effects of Spatial-Frequency, Duration, and Contrast on Discriminating Motion Directions
* Equivalent Background Speed in Recovery from Motion Adaptation
* How Big Is a Gabor Patch, and Why Should We Care
* Influence of Boundary Information on the Perception of Color
* Mathematical-Analysis of Motion-Opponent Mechanisms Used in the Determination of Heading and Depth
* Motion and Structure from Two Perspective Views: From Essential Parameters to Euclidean Motion Through the Fundamental Matrix
* Optimum Filter for Detecting a Target in Multiplicative Noise and Additive Noise
* Range Estimation with a Panoramic Visual Sensor
* Restoration of Images of Partially Obscured Objects
* Role of Second-Order and Third-Order Statistics in the Discriminability of Natural Images
* Second-Order Motion Perception in the Peripheral Visual-Field
* Separation of Texture and Shape in Images of Faces for Image-Coding and Synthesis
* Shape Recovery from a Color Image for Non-Lambertian Surfaces
* Spatially Dependent Texture Analysis and Control in Digital Half-Toning
22 for JOSA-A(14)

JOSA-A(15) * Anisotropies in Visual Motion Perception: A Fresh Look
* Color and Luminance Information in Natural Scenes
* Color and Luminance Information in Natural Scenes
* Color Constancy in the Nearly Natural Image: II: Achromatic Loci
* Developments in Generalized Ranked-Order Filters
* Direct Method for Restoration of Motion Blurred Images
* Effect of Light Scatter on Half Tone Color
* Fourier Based Analysis and Synthesis of Moires in the Superposition of Geometrically Transformed Periodic Structures
* Fusion of Images on Affine Sampling Grids
* How Big Is a Gabor Patch, and Why Should We Care
* Identification of Illuminant and Object Colors: Heuristic Based Algorithms
* Illuminant Direction and Shape of a Bump
* Image reconstruction using symmetric convolution and discrete trigonometric transforms
* Image-Restoration Based on Goods Roughness Penalty with Application to Fluorescence Microscopy
* Insights Into Motion Perception By Observer Modeling
* Intrinsic Two Dimensional Features as Textons
* Iterative multiframe superresolution algorithms for atmospheric-turbulence-degraded imagery
* Matching photometric-stereo images
* Maximum-likelihood estimation of an astronomical image from a sequence at low photon levels
* Modeling the Sensitivity of Moment Invariants in a Recognition System
* Multiresolution Probability Analysis of Gray-Scaled Images
* No Role for Motion Blur in Either Motion Detection or Motion-Based Image Segmentation
* Object Recognition Based on Impulse Restoration with Use of the Expectation-Maximization Algorithm
* Object Recovery from the Bispectral Phase in Astronomical Imaging
* Objective Assessment of Image Quality: III, ROC Metrics, Ideal Observers, And Likelihood-Generating Functions
* Optimal algorithms for target location in nonhomogeneous binary images
* Optimal Image-Restoration with the Fractional Fourier-Transform
* Range Estimation by Optical Differentiation
* Superresolution and Convergence Properties of the Expectation-Maximization Algorithm for Maximum-Likelihood Deconvolution of Incoherent Images
* Superresolved Image-Reconstruction of Images Taken Through the Turbulent Atmosphere
* Synthetic-Aperture-Radar Motion Compensation and Feature Extraction by Means of a Relaxation Based Algorithm
* Total Least-Squares Reconstruction with Wavelets for Optical Tomography
32 for JOSA-A(15)

JOSA-A(16) * Algebraic derivation of the Kruppa equations and a new algorithm for self-calibration of cameras
* Application of Gabor transformation to the two-dimensional projection extraction in interferometric tomography
* Atmospheric turbulence visualization with wide-area motion-blur restoration
* Biologically inspired local motion detector architecture
* Color constancy: the role of image surfaces in illuminant adjustment
* Computational theory of color transparency: recovery of spectral properties for overlapping surfaces
* Convex Projections Algorithm for Restoration of Limited-Angle Chromotomographic Images
* Cramer-Rao analysis of phase-diverse wave-front sensing
* Data-Driven Multichannel Superresolution with Application to Video Sequences
* Digital halftoning by means of green-noise masks
* Effective color CRT calibration techniques for perception research
* Frequency domain analysis of general planar rigid motion with finite duration
* Higher-order structure in natural scenes
* Hilbert-space Karhunen-Loeve transform with application to image analysis
* Image enhancement through turbid media under a microscope by use of polarization gating methods
* Image fusion with additive multiresolution wavelet decomposition. Applications to SPOT and Landsat images
* Imputation of direction of motion in one dimension
* Independent-component analysis of skin color image
* LP-Norm optimum filters for image recognition. Part I. Algorithms
* LP-Norm optimum filters for image recognition. Part II: performance evaluation
* Maximum a posteriori estimation of fixed aberrations, dynamic aberrations, and the object from phase-diverse speckle data
* Measurement of surface orientations of transparent objects by use of polarization in highlight
* Model Bias in Bayesian Image Reconstruction from X-Ray Fiber Diffracton Data
* Multidimensional fast Fourier transform algorithm for signals with arbitrary symmetries
* Multiresolution probability analysis of random fields
* Noise-resilient estimation of optical flow by use of overlapped basis functions
* Objective quality measures for halftoned images
* Optical diffusion tomography by iterative-coordinate-descent optimization in a Bayesian framework
* Parallel image processing based on an evolution equation with anisotropic gain: integrated optoelectronic architectures
* Parametric blind deconvolution: a robust method for the simultaneous estimation of image and blur
* Phase unwrapping for interferometric synthetic aperture radar by use of Helmholtz equation eigenfunctions and the first Green's identity
* Phase-shifted interferometry without phase unwrapping: Reconstruction of a decentered wave front
* Polarization-resolved imaging with a reflection near-field optical microscope
* Projection-space methods to take into account finite beam-width effects in two-dimensional tomography algorithms
* Ratio model for suprathreshold hue-increment detection
* Scene reconstruction from partially overlapping images with use of composite filters
* Separating reflections from images by use of independent component analysis
* Shape from shading for multiple light sources
* Signal processing under uncertain conditions by parallel projections onto fuzzy sets
* Spectral vision system for measuring color images
* Stability and sensitivity of topographic features for synthetic aperture radar target characterization
* Technique for combining incoherent interferometric images
* Texture classification based on comparison of second-order statistics. I. Two-point probability density function estimation and distance measure
43 for JOSA-A(16)

JOSA-A(17) * Active constrained truncated Newton method for simple-bound optical tomography
* Background estimation in nonlinear image restoration
* Binocular Three-Dimensional Motion Detection: Contributions of Lateral Motion and Stereo-Motion
* Characterization of natural illuminants in forests and the use of digital video data to reconstruct illuminant spectra
* Classifying the illumination condition from two light sources by color histogram assessment
* Color from Shape from Color: A Simple Formalism with Known Light Sources
* Computationally efficient and statistically robust image reconstruction in three-dimensional diffraction tomography
* Cone-beam reconstruction by backprojection and filtering
* Filtering and processing of panoramic images obtained using a camera and a wide-angle-imaging reflective surface
* Image restoration with the Viterbi algorithm
* Interferometric data analysis based on Markov nonlinear filtering methodology
* Inverse source problem and minimum-energy sources
* Iterative linear minimum mean-square-error image restoration from partially known blur
* Iterative statistical approach to blind image deconvolution
* Large-scale failures of f- scaling in natural image spectra
* Method for recovery of heading from motion
* Multiresolution spot detection by means of entropy thresholding
* Network approaches to two-dimensional phase unwrapping: intractability and two new algorithms
* Noise-residue filtering of interferometric phase images
* Nonlinear diffusion filtering of images obtained by planar laser-induced fluorescence spectroscopy
* Optical tomography in the presence of void regions
* Optimal multichannel estimation of the location of a target with nonoverlapping noise
* Optimal processors for images with an arbitrary number of gray levels
* Phase reconstruction from undersampled intensity patterns
* Polarization and statistical analysis of scenes containing a semireflector
* Probabilistic regularization in inverse optical imaging
* Quantitative analysis of error bounds in the recovery of depth from defocused images
* Recovery of Global Nonrigid Motion: A Model-Based Approach without Point Correspondences
* Relational color constancy in achromatic and isoluminant images
* Rotational-diversity phase estimation from differential-interference-contrast microscopy images
* Second-order iterative approach to inverse scattering: Numerical Results
* Separating the chaff from the wheat: Possible Origins of the Oblique Effect
* Shadow-invariant classification for scenes illuminated by daylight
* Spatiotemporal filters in the detection of background modulation targets
* Spectral model of a fluorescent ink halftone
* Spectral sharpening with positivity
* Theory of spatiochromatic image encoding and feature extraction
* Three-dimensional tomographic reconstruction of an absorptive perturbation with diffuse photon density waves
38 for JOSA-A(17)

JOSA-A(18) * Accuracy of velocity estimation by Reichardt correlators
* Analytical model of a three-dimensional integral image recording system that uses circular- and hexagonal-based spherical surface microlenses
* Blind removal of lens distortion
* Chromatic structure of natural scenes
* Coherent use of opposing lenses for axial resolution increase. II. Power and limitation of nonlinear image restoration
* Color constancy at a pixel
* Diffraction tomography reconstruction algorithms for quantitative imaging of phase objects
* Effect of inherent location uncertainty on detection of stationary targets in noisy image sequences
* Face verification through tracking facial features
* Fast maximum-likelihood image-restoration algorithms for three-dimensional fluorescence microscopy
* Fusion and merging of multispectral images with use of multiscale fundamental forms
* Generalized circular autoregressive models for isotropic and anisotropic Gaussian textures
* Higher-Order-Statistics-Based Detection of Vehicles in Still Images
* Hyperefficient detection of targets in noisy images
* Image recognition in the presence of non-Gaussian noise with unknown statistics
* Integer ambiguity resolution in phase closure imaging
* Interferometric spectral imaging for three-dimensional objects illuminated by a natural light source
* Inverse problem in optical diffusion tomography: I. Fourier Laplace inversion formulas
* Iterative algorithm with a constraint condition for numerical reconstruction of a three-dimensional object from its hologram
* Multicriterion cross-entropy minimization approach to positron emission tomographic imaging
* Noise robustness of nonlinear filters for image recognition
* Physics-based approach to color image enhancement in poor visibility conditions
* Recovery of limited-extent images aliased because of spectral undersampling
* Robust structure from motion estimation using inertial data
* Scene illuminant classification: brighter is better
* Sensor sharpening for computational color constancy
* Statistical algorithms for target detection in coherent active polarimetric images
* Superresolution optical system using three fixed generalized gratings: experimental results
* Three-systems theory of human visual motion perception: Review and Update
* Using color histogram normalization for recovering chromatic illumination-changed images
* What shadows reveal about object structure
31 for JOSA-A(18)

JOSA-A(19) * algebraic algorithm for nonuniformity correction in focal-plane arrays, An
* Bounds on the area under the receiver operating characteristic curve for the ideal observer
* Comparison of the spatial-frequency selectivity of local and global motion detectors
* Description and simulation of an active imaging technique utilizing two speckle fields: iterative reconstructors
* Description and simulation of an active imaging technique utilizing two speckle fields: root reconstructors
* Detection of objects composed of several regions by a region-configuration-estimation method
* Determining surface orientations of transparent objects based on polarization degrees in visible and infrared wavelengths
* Development of the local maximum variety of ranked-order filters
* Discrete Greens methods and their application to two-dimensional phase unwrapping
* Effects of negative afterimages in visual illusions
* Estimating the scene illumination chromaticity by using a neural network
* Focusing Analysis of the Pinhole Photon Sieve: Individual Far-Field Model
* High-resolution imaging of the human retina with a Fourier deconvolution technique
* Hybrid diffraction tomography without phase information
* Image description with Chebyshev-Fourier moments
* Inverse problem in optical diffusion tomography: II. Role of boundary conditions
* Minimizing stochastic moire in frequency-modulated halftones by means of green-noise masks
* Multilevel screen design using direct binary search
* Nonnegative color spectrum analysis filters from principal component analysis characteristic spectra
* Object recognition using three-dimensional optical quasi-correlation
* Passive navigation from image sequences by use of a volumetric approach
* Psychophysical model of chromatic perceptual transparency based on substractive color mixture
* Quantitative assessment of image quality enhancement due to unsharp-mask processing in x-ray fluoroscopy
* Ratio model serves suprathreshold color luminance discrimination
* Source-Detector calibration in three-dimensional Bayesian optical diffusion tomography
* Spatial frequency, phase, and the contrast of natural images
* Statistical-information-based performance criteria for Richardson-Lucy image deblurring
* Statistics of spatial cone-excitation ratios in natural scenes
* Superresolution in far-field imaging
* Theories for the design of diffractive superresolution elements and limits of optical superresolution
* Theory of quantitative phase-contrast computed tomography
* Three-systems theory of human visual motion perception: Review and Update
* Tip/tilt estimation from defocused images
* Two theorems in catoptrics
* Using reflectance models for color scanner calibration
* Wavelet networks for face processing
* Wigner distribution moments in fractional Fourier transform systems
37 for JOSA-A(19)

JOSA-A(2) * Fingerprint Theorems for Zero-Crossings
* Model for the Extraction of Image Flow
* Model of Human Visual-Motion Sensing
* Processing Differential Image Motion
* Spatiotemporal Energy Models for the Perception of Motion
* Uncertainty Relation for Resolution in Space, Spatial Frequency, and Orientation Optimized by 2D Visual Cortical Filters

JOSA-A(20) * Analytical Solution for Irradiance Due to Inhomogeneous Lambertian Polygonal Emitters
* Bayesian and Statistical Approaches to Vision
* Bubbles: A Unifying Framework for Low-Level Statistical Properties of Natural Image Sequences
* Catchment areas of panoramic snapshots in outdoor scenes
* Color Appearance in the Entire Visual Field: Color Zone Map Based on the Unique Hue Component
* Color-signal filtering in the Fourier-frequency domain
* Cramer-Rao Analysis of Orientation Estimation: Influence of Target Model Uncertainties
* Cramer-Rao Analysis of Orientation Estimation: Viewing Geometry Influences on the Information Conveyed by Target Features
* Detection and discrimination of texture modulations defined by orientation, spatial frequency, and contrast
* Experimental determination of object statistics from noisy images
* Fast two-frame multiscale dense optical flow estimation using discrete wavelet filters
* General n -dimensional quadrature transform and its application to interferogram demodulation
* Generalized diffusion model in optical tomography with clear layers
* Illumination direction from texture shading
* Inverse problem in optical diffusion tomography: III. Inversion formulas and singular-value decomposition
* Inverse Problem in Optical Diffusion Tomography: IV. Nonlinear Inversion Formulas
* Inverse scattering for a three-dimensional object in the time domain
* Irradiation direction from texture
* KGBR viewpointlighting ambiguity, The
* Local correlations, information redundancy, and sufficient pixel depth in natural images
* Motion-free superresolution and the role of relative blur
* Phase retrieval by iterated projections
* Statisticalphysical model for foliage clutter in ultra-wideband synthetic aperture radar images
* Theories for the design of a hybrid refractive-diffractive superresolution lens with high numerical aperture
* Theory of total-internal-reflection tomography
* Three-dimensional spatial grouping affects estimates of the illuminant
* Transverse or axial superresolution in a 4Pi-confocal microscope by phase-only filters
27 for JOSA-A(20)

JOSA-A(21) * Aberration reduction by multiple relays of an incoherent image
* Accurate color synthesis of three-dimensional objects in an image
* Chromatic compensation of broadband light diffraction: ABCD-matrix approach
* Color Constancy through Inverse-Intensity Chromaticity Space
* Comparison of real and computer-simulated outcomes of LASIK refractive surgery
* Differences in the optical properties of vertebrate photoreceptor classes leading to axial polarization sensitivity
* Estimating visible through near-infrared spectral reflectance from a sensor radiance spectrum
* Estimation of saturated pixel values in digital color imaging
* Estimation of the degree of polarization in active coherent imagery by using the natural representation
* Factor graph methods for three-dimensional shape reconstruction as applied to LIDAR imaging
* First- and second-order information in natural images: A Filter-Based Approach to Image Statistics
* Geometrical effects of positional errors in integral photography
* Image formation by use of the geometrical theory of diffraction
* Imaging of voids by means of a physical-optics-based shape-reconstruction algorithm
* Improved fast fractional-Fourier-transform algorithm
* Interferometric imaging polarimeter
* limited-memory, quasi-Newton preconditioner for nonnegatively constrained image reconstruction, A
* MISTRAL: a myopic edge-preserving image restoration method, with application to astronomical adaptive-optics-corrected long-exposure images
* Problem of image superresolution with a negative-refractive-index slab
* Relative significance of the terms in the CIEDE2000 and CIE94 color-difference formulas
* Scheimpflug and high-resolution Magnetic Resonance Imaging of the anterior segment: a comparative study
* Sharpness limitations in the projection of thin lines by use of the Talbot experiment
* Speckle removal using a maximum-likelihood technique with isoline gray-level regularization
* Spectral-daylight recovery by use of only a few sensors
* Transverse or axial superresolution with radial birefringent filter
* Two-dimensional Fourier transform of scaled Dirac delta curves
* Wideband enhancement of television images for people with visual impairments
27 for JOSA-A(21)

JOSA-A(22) * Adaptive autofocusing: a closed-loop perspective
* Amplitude-based height-reconstruction techniques for synthetic aperture ladar systems
* Characterization of trichromatic color cameras by using a new multispectral imaging technique
* Comparison of reconstruction algorithms for optical diffraction tomography
* Depth resolution and displayable depth of a scene in three-dimensional images
* Designing a mirror to realize a given projection
* Fuzzy-rule-based image reconstruction for positron emission tomography
* Generalized algebraic scene-based nonuniformity correction algorithm
* Image reconstruction in spherical-wave intensity diffraction tomography
* Image recovery under nonlinear and non-Gaussian degradations
* Image-based face recognition under illumination and pose variations
* Imaging with tilted surfaces: an efficient matrix method for the generalized Scheimpflug condition and its application to rotationally symmetric triangulation
* Integration, segregation, and binocular combination
* Investigating the enhancement of three-dimensional diffraction tomography by using multiple illumination planes
* Joint blind restoration and surface recovery in photometric stereo
* Mathematical definition and analysis of the Retinex algorithm
* Optimized stereo reconstruction of free-form space curves based on a nonuniform rational B-spline model
* Polarimetric calibration of large-aperture telescopes. I. Beam-expansion method
* Polarimetric calibration of large-aperture telescopes. II. Subaperture method
* Radiometric framework for image mosaicking
* Senescence of spatial chromatic contrast sensitivity. I. Detection under conditions controlling for optical factors
* Senescence of spatial chromatic contrast sensitivity. II. Matching under natural viewing conditions
* Spatial processing in color reproduction
* Spatiochromatic statistics of natural scenes: first- and second-order information and their correlational structure
* Speckle reduction by I-divergence regularization in optical coherence tomography
* Spectrum analysis of motion parallax in a 3D cluttered scene and application to egomotion
* Spherical-wave intensity diffraction tomography
* Superresolution imaging from limited-aperture optical diffracted field data
* Superresolution in total internal reflection tomography
* Texture and haptic cues in slant discrimination: reliability-based cue weighting without statistically optimal cue combination
* Three-dimensional superresolution by three-zone complex pupil filters
* Vector near-field calculation of scanning near-field optical microscopy probes using Borgnis potentials as auxiliary functions
32 for JOSA-A(22)

JOSA-A(23) * Automated defect detection system using wavelet packet frame and Gaussian mixture model
* Automated determination of the center of rotation in tomography data
* Biased Cramér-Rao lower bound calculations for inequality-constrained estimators
* Compact laser radar and three-dimensional camera
* Facilitation of shape-from-shading perception by random textures
* Factorial coding of natural images: how effective are linear models in removing higher-order dependencies?
* Fast algorithm of phase masks for image encryption in the Fresnel domain
* Fast half-quadratic regularized phase tracking for nonnormalized fringe patterns
* High-fidelity lenticular screening by means of iterative tone correction
* Image denoising using the ridgelet bi-frame
* Image reconstruction from limited Fourier data
* Image reconstruction: a unifying model for resolution enhancement and data extrapolation. Tutorial
* Image Statistics of American Sign Language: Comparison with Faces and Natural Scenes
* Influence of random-dot textures on perception of suprathreshold color differences
* Information content of data types in time-domain optical tomography
* Interferometric imaging of the full thickness of the precorneal tear film
* Inverse scattering for rotationally scanned optical coherence tomography
* Iterative image reconstruction using prior knowledge
* Metamer-set-based approach to estimating surface reflectance from camera RGB
* Object-of-interest image segmentation based on human attention and semantic region clustering
* Optical superresolution of focused partially spatially coherent laser beams
* Optimal sampling of color spectra
* Performance of a color-difference formula based on OSA-UCS space using small-medium color differences
* Phase unwrapping using an extrapolation-projection algorithm
* Processing halftone color images by vector space methods
* Radiometric order preserving method to display wide-dynamic images for imagery photointerpretation
* Reconstruction method with data from a multiple-site continuous-wave source for three-dimensional optical tomography
* Reevaluation of color constancy algorithm performance
* Reflectance and transmittance model for recto-verso halftone prints
* Rendering complex scenes for psychophysics using RADIANCE: How accurate can you get?
* Scene estimation from speckled synthetic aperture radar imagery: Markov-random-field approach
* Self-Fourier functions and self-Fourier operators
* Single-viewpoint, catadioptric cone mirror omnidirectional imaging theory and analysis
* Singular-value decomposition for through-focus imaging systems
* Statistics of specular points at a randomly rough surface
35 for JOSA-A(23)

JOSA-A(24) * 3D phase diversity: a myopic deconvolution method for short-exposure images: application to retinal imaging
* Aberration-free superresolution imaging via binary speckle pattern encoding and processing
* Adaptive optics retinal imaging reveals S-cone dystrophy in tritan color-vision deficiency
* Adaptive optics scanning laser ophthalmoscopy for in vivo imaging of lamina cribrosa
* Adaptive optics-optical coherence tomography: optimizing visualization of microscopic retinal structures in three dimensions
* Advances in Retinal Imaging: introduction
* AIDA: an adaptive image deconvolution algorithm with application to multi-frame and three-dimensional data
* Analysis of observer performance in unknown-location tasks for tomographic image reconstruction
* Analysis of photometric factors based on photometric linearization
* Analytic solution for separating spectra into illumination and surface reflectance components
* Analytical-form model observers for decompressed images
* Application of the Hotelling and ideal observers to detection and localization of exoplanets
* Aproach to blind image deconvolution by multiscale subband decomposition and independent component analysis
* Automated identification of cone photoreceptors in adaptive optics retinal images
* Automated segmentation of retinal blood vessels and identification of proliferative diabetic retinopathy
* Blind image quality assessment through anisotropy
* Blind phase shift estimation in phase-shifting interferometry
* Border-ownership-dependent tilt after-effect in incomplete figures
* Calibrating color cameras using metameric blacks
* Channelized-ideal observer using Laguerre-Gauss channels in detection tasks involving non-Gaussian distributed lumpy backgrounds and a Gaussian signal
* Characterizing image quality in a scanning laser ophthalmoscope with differing pinholes and induced scattered light
* Classification images for simple detection and discrimination tasks in correlated noise
* Color constancy from blackbody illumination
* Compact multimodal adaptive-optics spectral-domain optical coherence tomography instrument for retinal imaging
* Computed tomography with linear shift-invariant optical systems
* Computing light statistics in heterogeneous media based on a mass weighted probability density function method
* Design of correlation filters for recognition of linearly distorted objects in linearly degraded scenes
* Designing a holographic modal wavefront sensor for the detection of static ocular aberrations
* Digital superresolution and the generalized sampling theorem
* Effect of aberrations and scatter on image resolution assessed by adaptive optics retinal section imaging
* Enhanced three-dimensional deconvolution microscopy using a measured depth-varying point-spread function
* Estimation of contour motion and deformation for nonrigid object tracking
* Estimation receiver operating characteristic curve and ideal observers for combined detection/estimation tasks
* Extension of the shape from focus method for reconstruction of high-resolution images
* Fundamental diffraction limitations in a paraxial 4-f imaging system with coherent and incoherent illumination
* Gaze-contingent display for retinal function testing by scanning laser ophthalmoscope
* Generalized higher-order nonlinear energy operators
* High-resolution adaptive optics scanning laser ophthalmoscope with dual deformable mirrors Multimedia
* Human linear template with mammographic backgrounds estimated with a genetic algorithm
* Image description with generalized pseudo-Zernike moments
* Image Quality
* Image, eye, and retina
* Image-based prediction of imaging and vision performance
* Imaging polarimetry and retinal blood vessel quantification at the epiretinal membrane
* Imaging polarimetry in patients with neovascular age-related macular degeneration
* Improved scanning laser fundus imaging using polarimetry
* Intensity-only signal-subspace-based imaging
* Inverse problem approach in particle digital holography: Out-of-Field particle detection made possible
* Irradiance formations of on-axis Lambertian pointlike sources in polygonal total-internal-reflection straight light pipes
* Large-field-of-view, modular, stabilized, adaptive-optics-based scanning laser ophthalmoscope
* Linear models in color constancy theory
* Local cone-beam tomography image reconstruction on chords
* Maximum likelihood difference scaling of image quality in compression-degraded images
* Maximum permissible exposures for ocular safety (ANSI 2000), with emphasis on ophthalmic devices
* Measuring perceived video quality of MPEG enhancement by people with impaired vision
* Metamer sets without spectral calibration
* Model of retinal local adaptation for the tone mapping of color filter array images
* Multiframe phase-diversity algorithm for active imaging
* Multireader multicase variance analysis for binary data
* Multiscale complex moments of the local power spectrum
* Noise histogram regularization for iterative image reconstruction algorithms
* Nonparaxial vector-field modeling of optical coherence tomography and interferometric synthetic aperture microscopy
* Performance of focus measures in the presence of nondefocus aberrations
* Phase retrieval and saddle-point optimization
* Phase retrieval from intensity-only data by relative entropy minimization
* Phase retrieval from noisy data based on minimization of penalized I-divergence
* Phase retrieval from speckle images
* Phase unwrapping in three dimensions with application to InSAR time series
* Photon signal detection and evaluation in the adaptive optics scanning laser ophthalmoscope
* Photoreceptor counting and montaging of en-face retinal images from an adaptive optics fundus camera
* Precision passive range measurement
* Probe transit effect in interferometry of fast moving samples
* Recombinant adeno-associated virus targets passenger gene expression to cones in primate retina
* Recovery of spectral reflectances of objects being imaged by multispectral cameras Virtual Journal
* Reduced-illuminance autofluorescence imaging in ABCA4-associated retinal degenerations
* Reduction of speckle in digital holography by discrete Fourier filtering
* Reflectance recovery for airborne sensor images of 3D scenes
* Regularized learning framework in the estimation of reflectance spectra from camera responses
* Relating retinal nerve fiber thickness to behavioral sensitivity in patients with glaucoma: application of a linear model
* Robust and computationally efficient superresolution algorithm
* Role of optics in the accuracy of depth-from-defocus systems
* Rotation- and scale-invariant texture features based on spectral moment invariants
* Salience measure for assessing scale-based features in mammograms
* Selecting algorithms, sensors, and linear bases for optimum spectral recovery of skylight
* Selection of image fusion quality measures: Objective, subjective, and metric assessment
* Signal and noise transfer in spatiotemporal quantum-based imaging systems
* Signal detection in power-law noise: effect of spectrum exponents
* Simultaneous structural and functional imaging of the macula using combined optical coherence tomography ophthalmoscope and multifocal electroretinogram
* Speckle reduction in optical coherence tomography images using digital filtering
* Spectral contrasts for landmark navigation
* Stability of phase-contrast tomography
* Statistically principled use of in-line measurements in intensity diffraction tomography
* Stereoscopic image distortion in radial camera and projector configurations
* Stevens's brightness law, contrast gain control, and edge integration in achromatic color perception: a unified model
* Stevens's brightness law, contrast gain control, and edge integration in achromatic color perception: a unified model
* Task-specific information for imaging system analysis
* Texton-based segmentation of retinal vessels
* Transport-theory-based stochastic image reconstruction of bioluminescent sources
* Transversal superresolution with noncontact axial movement of periodic structures
* Video quality assessment using a statistical model of human visual speed perception
* Zernike-Bessel representation and its application to Hankel transforms
101 for JOSA-A(24)

JOSA-A(25) * Accurate image reconstruction from few-view and limited-angle data in diffraction tomography Virtual Journal
* Automated analysis of differential interference contrast microscopy images of the foveal cone mosaic
* Blind image deconvolution by means of asymmetric multiplicative iterative algorithm
* Curvature-based perceptual singularities and texture saliency with early vision mechanisms
* Cyclopean geometry of binocular vision
* Differences in temporal frequency tuning between the two binocular mechanisms for seeing motion in depth Virtual Journal
* Discrimination of isotrigon textures using the Rényi entropy of Allan variances
* Efficiency of capturing a phase image using cone-beam x-ray Talbot interferometry
* Efficient computation of joint fractional Fourier domain signal representation
* Evaluation and unification of some methods for estimating reflectance spectra from RGB images
* Factors affecting the psychophysical image quality evaluation of mobile phone displays: the case of transmissive liquid-crystal displays
* Gestalt and phenomenal transparency
* Group refractive index reconstruction with broadband interferometric confocal microscopy
* Illustration of the role of multiple scattering in subwavelength imaging from far-field measurements
* Image rectification for stereoscopic visualization
* Improving the performance of computer color matching procedures
* Introducing secure modes of operation for optical encryption
* Is color patchy?
* Kernel-based spectral color image segmentation
* Lensless coherent imaging by a deterministic phase retrieval method with an aperture-array filter
* Localization and characterization of simple defects in finite-sized photonic crystals
* Maximum entropy method for diffractive imaging
* Measurement of the point-spread function of a noisy imaging system
* Multichannel blind deconvolution of polarimetric imagery
* number of discernible colors in natural scenes, The
* Parametric fuzzy sets for automatic color naming
* Phase retrieval by propagation for localized images
* Phase retrieval from a single near-field diffraction pattern with a large Fresnel number
* Phase retrieval with Fourier-weighted projections
* Photometric reconstruction of a dynamic textured surface from just one color image acquisition
* Predicting range performance of sampled imagers by treating aliased signal as target-dependent noise Open Access open access
* Ranked dither for high-quality robust printing
* Reconstruction of compact binary images from limited Fourier amplitude data
* Scene-based nonuniformity correction and enhancement: pixel statistics and subpixel motion
* Scene-based nonuniformity correction using local constant statistics
* Simulations of astronomical imaging phased arrays
* Sparsity constrained regularization for multiframe image restoration
* Tensor methods for hyperspectral data analysis: A space object material identification study
* Three-dimensional imaging of optically opaque materials using nonionizing terahertz radiation
* Transverse resolution improvement using rotating-grating time-multiplexing approach
* Weighted compression of spectral color information
41 for JOSA-A(25)

JOSA-A(26) * Amplitude metrics for field retrieval with hard-edged and uniformly illuminated apertures
* Best linear unbiased axial localization in three-dimensional fluorescent bead tracking with subnanometer resolution using off-focus images
* Camera calibration for natural image studies and vision research
* Computation of orthogonal Fourier-Mellin moments in two coordinate systems
* Contrast, constancy, and measurements of perceived lightness under parametric manipulation of surface slant and surface reflectance
* Cost-effective implementation of order-statistics-based vector filters using minimax approximations
* Deconvolution methods for image deblurring in optical coherence tomography
* Electromagnetic probing for target detection: Rejection of surface clutter based on the Wigner distribution
* Euclidean color-difference formula for small-medium color differences in log-compressed OSA-UCS space
* Geometrical superresolved imaging using nonperiodic spatial masking
* Globally accelerated reconstruction algorithm for diffusion tomography with continuous-wave source in an arbitrary convex shape domain
* Highly accurate reconstruction algorithm for bandwidth-limited signals and application to fringe signal recovery
* Hue and saturation shifts from spatially induced blackness
* Illuminance flow over anisotropic surfaces with arbitrary viewpoint
* Information theoretic regularization in diffuse optical tomography
* Inverse optical imaging viewed as a backward channel communication problem
* Joint reconstruction of Stokes images from polarimetric measurements
* Masked fake face detection using radiance measurements
* Mass detection on mammograms: influence of signal shape uncertainty on human and model observers
* Modal-based tomographic imaging from far-zone observations
* Moving object detection based on shape prediction
* neurophysiology-inspired steady-state color appearance model, A
* Nonuniform sampling, image recovery from sparse data and the discrete sampling theorem
* Partially coherent illumination in full-field interferometric synthetic aperture microscopy
* Phase front retrieval by means of an iterative shadowgraphic method
* Phase retrieval with signal bias
* Phase-shift estimation in sinusoidally illuminated images for lateral superresolution
* Physically constrained Fourier transform deconvolution method
* Reconstruction of reflectance data using an interpolation technique
* Reflectance and transmittance model for recto-verso halftone prints: spectral predictions with multi-ink halftones
* Regularizing method for the determination of the backscatter cross section in lidar data
* Subpixel edge refinement using deformable models
* Terahertz wave focal-plane multiwavelength phase imaging
* Three-dimensional object-distortion-tolerant recognition for integral imaging using independent component analysis
34 for JOSA-A(26)

JOSA-A(3) * Ambient Illumination and the Determination of Material Changes
* Analysis of the Retinex Theory of Color Vision
* Color Constancy: A Method for Recovering Surface Spectral Reflectance
* Evaluation of Linear Models of Surface Spectral Reflectance with Small Numbers of Parameters
* Experiments on Pattern Recognition Using Invariant Fourier-Mellin Descriptors
* Mechanisms of Color Constancy
* Method for Computing the Scene-Illuminant Chromaticity from Specular Highlights
* Origins of linear and nonlinear recursive restoration algorithms
* Simultaneous Colour Constancy
* Two-View Motion Analysis: A Unified Algorithm
10 for JOSA-A(3)

JOSA-A(4) * Closed Form Solutions of Absolute Orientation Using Unit Quaternions
* Low Dimensional Procedure for the Characterization of Human Faces
* Noisy-Image Normalization Using Low-Order Radial Moments of Circular Harmonic Functions

JOSA-A(5) * Closed Form Solutions of Absolute Orientation Using Orthonormal Matrices
* Integration of Depth Modules: Stereo and Shading

JOSA-A(6) * Detection and Segmentation of Man-Made Objects in Outdoor Scenes: Concrete Bridges
* Learning Early-Vision Computations
* Performance Bounds for Estimating Three-Dimensional Motion Parameters from a Sequence of Noisy Images
* Structure from Two Orthographic Views of Rigid Motion
* Using Color for Geometry-Insensitive Segmentation

JOSA-A(7) * Differential Techniques for Optical Flow
* Preattentive Texture Discrimination with Early Vision Mechanism
* Progress in Low-Light-Lefel Charge-Coupled Device Imageing in Astronomy

JOSA-A(8) * Affine Structure from Motion
* Relative Orientation Revisited
* Segmentation of Synthetic Aperture Radar Complex Data

JOSA-A(9) * Image Recovery from Correlations
* Linear Models of Surface and Illuminant Spectra
* Variational Approach to Interreflection in Color Images

JOSA( Vol No. ) * *Journal of the Optical Society of America

JOSA(24) * Some Factors and Implications of Color Constancy

JOSA(30) * Hue, Saturation and Lightness of Surface Colors with Chromatic Illumination

JOSA(32) * Visual Sensitivities to Small Color Differences in Daylight

JOSA(38) * New Contribution to the Optics of Intensely Light-Scattering Materials: Part I

JOSA(44) * Specification of Image Properties by Response to a Sine Wave Input, The

JOSA(46) * Subjective Sharpness of Simulated Color Television Pictures

JOSA(49) * Effects of Sharp Edges in a Flickering Field

JOSA(51) * Image Processing Experiments

JOSA(52) * Roles of Sharpness and Graininess in Photographic Quality and Definition
* Spatial Filtering

JOSA(54) * Detection, Recognition, and Resolution in Photographic Systems
* Spectral Distribution of Typical Daylight as a Function of Correlated Color Temperature

JOSA(56) * Image Comparison by Interference
* Image Evaluation and Restoration
* Object Restoration in a Diffraction Limited Imaging System
* Optical Systems with Resolving Powers Exceeding the Classical Limit I
* Polarization, Direction Distribution, and Off-Specular Peak Phenomena in Light Reflected from Roughened Surfaces

JOSA(57) * Image Restoration by Removal of Random-Media Degradations
* Image Restoration by the Method of Least Squares
* Linear Least-Squares Filtering of Distorted Images
* Optical Systems with Resolving Powers Exceeding the Classical Limit III
* Restoration of Turbulence Degraded Images
* Theory for Off-Specular Reflection from Roughened Surfacesw

JOSA(58) * Restoration, Resolution, and Noise

JOSA(59) * Bandlimited Image Restoration by Linear Mean-Square-Error Filter

JOSA(60) * Digital Image Restoration by Constrained Deconvolution

JOSA(61) * Lightness and Retinex Theory
* Model for Color Conversion

JOSA(62) * Bayesian-Based Iterative Method of Image Restoration
* Color Distance and Geodesics in Color Three Space
* Color Matching and Color Difference Matching
* Restoring with Maximum Entropy II: Superresolution of Photographs of Diffractions Blurred Impulses
* Restoring with Maximum Likelihood and Maximum Entropy
* Three-Color Visual Response

JOSA(63) * Determination of optical transfer function by inspection of frequency-domain plot

JOSA(64) * Space-Variant Image Restoration by Coordinate Transformations

JOSA(66) * Exterospecific Component of the Motion Parallax Field
* Local Structure of Movement Parallax of the Plane
* Some Fundamental Properties of Speckle

JOSA(69) * Bandpass Channels, Zero-Crossings, and Early Visual Information Processing

JOSA(70) * Image Analysis via the General Theory of Moments

JOSA(71) * Discrete Speckle Modeling and Restoration

JOSA(72) * Finding the Illuminant Direction
* Invariant Features of Contrast Detection: An Explanation in Terms of Self-Similar Detector Arrays

JOSA(73) * Geometrical Modes as a General Method to Treat Diffuse Interreflections in Radiometry

Index for "j"