0000000000709125

AUTHOR

Seokmin Hong

showing 17 related works from this author

Ownership protection of plenoptic images by robust and reversible watermarking

2018

Abstract Plenoptic images are highly demanded for 3D representation of broad scenes. Contrary to the images captured by conventional cameras, plenoptic images carry a considerable amount of angular information, which is very appealing for 3D reconstruction and display of the scene. Plenoptic images are gaining increasing importance in areas like medical imaging, manufacturing control, metrology, or even entertainment business. Thus, the adaptation and refinement of watermarking techniques to plenoptic images is a matter of raising interest. In this paper a new method for plenoptic image watermarking is proposed. A secret key is used to specify the location of logo insertion. Employing discr…

Computer scienceComputingMethodologies_IMAGEPROCESSINGANDCOMPUTERVISION0211 other engineering and technologies02 engineering and technologysymbols.namesakeRobustness (computer science)0202 electrical engineering electronic engineering information engineeringDiscrete cosine transformMedian filterComputer visionElectrical and Electronic EngineeringDigital watermarking021110 strategic defence & security studiesbusiness.industryMechanical EngineeringWatermarkÒpticaPeak signal-to-noise ratioAtomic and Molecular Physics and OpticsElectronic Optical and Magnetic MaterialsGaussian noiseHuman visual system modelsymbols020201 artificial intelligence & image processingArtificial intelligencebusinessImatges Processament Tècniques digitalsOptics and Lasers in Engineering
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Display of travelling 3D scenes from single integral-imaging capture

2016

Integral imaging (InI) is a 3D auto-stereoscopic technique that captures and displays 3D images. We present a method for easily projecting the information recorded with this technique by transforming the integral image into a plenoptic image, as well as choosing, at will, the field of view (FOV) and the focused plane of the displayed plenoptic image. Furthermore, with this method we can generate a sequence of images that simulates a camera travelling through the scene from a single integral image. The application of this method permits to improve the quality of 3D display images and videos.

SequenceIntegral imagingbusiness.industryPlane (geometry)ComputingMethodologies_IMAGEPROCESSINGANDCOMPUTERVISIONStereoscopyField of viewStereo displaylaw.inventionImage (mathematics)GeographylawComputer graphics (images)Computer visionArtificial intelligencebusinessSPIE Proceedings
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Full parallax three-dimensional display from Kinect v1 and v2

2016

We exploit the two different versions of Kinect, v1 and v2, for the calculation of microimages projected onto integral-imaging displays. Our approach is based on composing a three-dimensional (3-D) point cloud from a captured depth map and RGB information. These fused 3-D maps permit to generate an integral image after projecting the information through a virtual pinhole array. In our analysis, we take into account that each of the Kinect devices has its own inherent capacities and individualities. We illustrate our analysis with some imaging experiments, provide the distinctive differences between the two Kinect devices, and finally conclude that Kinect v2 allows the display of 3-D images …

Integral imagingComputer sciencebusiness.industryGeneral EngineeringPoint cloudStereoscopy02 engineering and technology021001 nanoscience & nanotechnologyStereo display01 natural sciencesAtomic and Molecular Physics and Opticslaw.invention010309 opticsDepth maplawComputer graphics (images)0103 physical sciencesRGB color modelPinhole (optics)Computer visionArtificial intelligence0210 nano-technologyParallaxbusinessOptical Engineering
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Full-parallax 3D display from the hole-filtered depth information

2015

In this paper we introduce an efficient hole-filling algorithm for synthetic generation of microimages that are displayed on an integral imaging monitor. We apply the joint bilateral filter and the median filter to the captured depth map. We introduce in any step of the iterative algorithm with the data from a new Kinect capture. As a result, this algorithm can improve the quality of the depth maps and remove unmeasured depth holes effectively. This refined depth information enables to create a tidy integral image, which can be projected into an integral imaging monitor. In this way the monitor can display 3D images with continuous views, full parallax and abundant 3D reconstructed scene fo…

Integral imagingbusiness.industryComputer scienceIterative methodComputingMethodologies_IMAGEPROCESSINGANDCOMPUTERVISIONObserver (special relativity)Stereo displayDepth mapComputer graphics (images)Median filterComputer visionBilateral filterArtificial intelligencebusinessParallax2015 3DTV-Conference: The True Vision - Capture, Transmission and Display of 3D Video (3DTV-CON)
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Full-parallax 3D display from stereo-hybrid 3D camera system

2018

Abstract In this paper, we propose an innovative approach for the production of the microimages ready to display onto an integral-imaging monitor. Our main contribution is using a stereo-hybrid 3D camera system, which is used for picking up a 3D data pair and composing a denser point cloud. However, there is an intrinsic difficulty in the fact that hybrid sensors have dissimilarities and therefore should be equalized. Handled data facilitate to generating an integral image after projecting computationally the information through a virtual pinhole array. We illustrate this procedure with some imaging experiments that provide microimages with enhanced quality. After projection of such microim…

Computer sciencePoint cloudComputingMethodologies_IMAGEPROCESSINGANDCOMPUTERVISION02 engineering and technologyStereo display01 natural sciences010309 opticsComputer graphics (images)0103 physical sciences0202 electrical engineering electronic engineering information engineeringComputer visionElectrical and Electronic EngineeringProjection (set theory)Integral imagingbusiness.industryMechanical EngineeringÒpticaViewing angleAtomic and Molecular Physics and OpticsElectronic Optical and Magnetic Materials3d camera020201 artificial intelligence & image processingPinhole (optics)Artificial intelligenceParallaxbusinessOptics and Lasers in Engineering
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GPU-accelerated integral imaging and full-parallax 3D display using stereo-plenoptic camera system

2019

Abstract In this paper, we propose a novel approach to produce integral images ready to be displayed onto an integral-imaging monitor. Our main contribution is the use of commercial plenoptic camera, which is arranged in a stereo configuration. Our proposed set-up is able to record the radiance, spatial and angular, information simultaneously in each different stereo position. We illustrate our contribution by composing the point cloud from a pair of captured plenoptic images, and generate an integral image from the properly registered 3D information. We have exploited the graphics processing unit (GPU) acceleration in order to enhance the integral-image computation speed and efficiency. We…

Computer scienceGraphics processing unitPoint cloudComputingMethodologies_IMAGEPROCESSINGANDCOMPUTERVISION02 engineering and technologyStereo display01 natural sciences010309 opticsAcceleration0103 physical sciencesComputer visionElectrical and Electronic EngineeringProjection (set theory)Integral imagingbusiness.industryMechanical Engineering021001 nanoscience & nanotechnologyAtomic and Molecular Physics and OpticsElectronic Optical and Magnetic MaterialsÒptica Aparells i instrumentsArtificial intelligence0210 nano-technologyParallaxbusinessStereo cameraImatges Processament
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Three-Dimensional Integral-Imaging Display From Calibrated and Depth-Hole Filtered Kinect Information

2016

We exploit the Kinect capacity of picking up a dense depth map, to display static three-dimensional (3D) images with full parallax. This is done by using the IR and RGB camera of the Kinect. From the depth map and RGB information, we are able to obtain an integral image after projecting the information through a virtual pinhole array. The integral image is displayed on our integral-imaging monitor, which provides the observer with horizontal and vertical perspectives of big 3D scenes. But, due to the Kinect depth-acquisition procedure, many depthless regions appear in the captured depth map. These holes spread to the generated integral image, reducing its quality. To solve this drawback we …

0209 industrial biotechnologyIntegral imagingbusiness.industryComputer scienceComputingMethodologies_IMAGEPROCESSINGANDCOMPUTERVISION02 engineering and technologyCondensed Matter PhysicsStereo display01 natural sciencesElectronic Optical and Magnetic Materials010309 optics020901 industrial engineering & automationDepth mapCamera auto-calibrationComputer graphics (images)0103 physical sciencesRGB color modelComputer visionBilateral filterArtificial intelligenceElectrical and Electronic EngineeringbusinessParallaxComputingMethodologies_COMPUTERGRAPHICSCamera resectioningJournal of Display Technology
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Integral-Imaging display from stereo-Kinect capture

2017

In this paper, we propose a new approach in order to improve the quality of microimages and display them onto an integral imaging monitor. Our main proposal is based on the stereo-hybrid 3D camera system. Originally, hybrid camera system has dissimilarity itself. We interpret our method in order to equalize the hybrid sensor's characteristics and 3D data modification strategy. We generate integral image by using synthetic back-projection mapping method. Finally, we project the integral image onto our proposed display system. We illustrate this procedure with some imaging experiments in order to prove an advantage of our approach.

010302 applied physicsIntegral imagingbusiness.industryComputer scienceComputingMethodologies_IMAGEPROCESSINGANDCOMPUTERVISIONPoint cloudStereo display01 natural sciencesÒptica Aparells i instrumentsImage (mathematics)010309 opticsComputer graphics (images)0103 physical sciences3d cameraComputer visionArtificial intelligencebusinessThree-Dimensional Imaging, Visualization, and Display 2017
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Computation of microimages for plenoptic display

2014

We report a new algorithm for the generation of the microimages ready for their projection into an integral imaging monitor. The algorithm is based in the transformation properties of the plenoptic field captured with an array of digital cameras. We show that a small number of cameras can produce the microimages for displaying 3D scenes with resolution and parallax fully adapted to the monitor features.

Integral imagingTransformation (function)Computer sciencebusiness.industryComputationComputer graphics (images)ComputingMethodologies_IMAGEPROCESSINGANDCOMPUTERVISIONComputer visionArtificial intelligenceParallaxProjection (set theory)businessImage resolution2014 International Conference on 3D Imaging (IC3D)
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Full-parallax immersive 3D display from depth-map cameras

2016

We exploit two different versions of the Kinect to make comparison of three-dimensional (3D) scenes displayed by proposed integral imaging (InI) display system. We attempt to show the difference between each version specifications and capacity. Furthermore, we illustrate our study result with some empirical imaging experiment in which the final result are displayed with full-parallax. Each demonstrated integral images can provide clear comparison results to the observer.

Integral imagingComputer sciencebusiness.industryComparison results02 engineering and technologyObserver (special relativity)Stereo display01 natural sciences010309 opticsDepth mapComputer graphics (images)0103 physical sciences0202 electrical engineering electronic engineering information engineering020201 artificial intelligence & image processingComputer visionArtificial intelligencebusinessParallax2016 15th Workshop on Information Optics (WIO)
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Towards 3D Television Through Fusion of Kinect and Integral-Imaging Concepts

2015

We report a new procedure for the capture and processing of light proceeding from 3D scenes of some cubic meters in size. Specifically we demonstrate that with the information provided by a kinect device it is possible to generate an array of microimages ready for their projection onto an integral-imaging monitor. We illustrate our proposal with some imaging experiment in which the final result are 3D images displayed with full parallax.

Integral imagingComputer sciencebusiness.industryPhotographyComputingMethodologies_IMAGEPROCESSINGANDCOMPUTERVISIONIntegral photographyMotion detectionCondensed Matter PhysicsElectronic Optical and Magnetic MaterialsComputer graphics (images)Medical imagingComputer visionArtificial intelligenceElectrical and Electronic EngineeringThree dimensional televisionParallaxbusinessProjection (set theory)Journal of Display Technology
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New Method of Microimages Generation for 3D Display

2018

In this paper, we propose a new method for the generation of microimages, which processes real 3D scenes captured with any method that permits the extraction of its depth information. The depth map of the scene, together with its color information, is used to create a point cloud. A set of elemental images of this point cloud is captured synthetically and from it the microimages are computed. The main feature of this method is that the reference plane of displayed images can be set at will, while the empty pixels are avoided. Another advantage of the method is that the center point of displayed images and also their scale and field of view can be set. To show the final results, a 3D InI dis…

Computer sciencePoint cloud3D displaylcsh:Chemical technologyStereo display01 natural sciencesBiochemistryArticleAnalytical Chemistry010309 opticsSet (abstract data type)Depth mapplenoptic imaging0103 physical scienceslcsh:TP1-1185Point (geometry)Computer visionElectrical and Electronic EngineeringInstrumentation010302 applied physicsMicrolensIntegral imagingPixelbusiness.industryÒpticaAtomic and Molecular Physics and Opticsintegral imagingFeature (computer vision)Artificial intelligenceCGIIbusinessImatges Processament Tècniques digitalsSensors
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Computation and Display of 3D Movie From a Single Integral Photography

2016

Integral photography is an auto-stereoscopic technique that allows, among other interesting applications, the display of 3D images with full parallax and avoids the painful effects of the accommodation-convergence conflict. Currently, one of the main drawbacks of this technology is the need of a huge amount of data, which have to be stored and transmitted. This is due to the fact that behind every visual resolution unit, i.e. behind any microlens of an integral-photography monitor, between 100 and 300 pixels should appear. In this paper, we make use of an updated version of our algorithm, SPOC 2.0, to alleviate this situation. We propose the application of SPOC 2.0 for the calculation of co…

SequencePixelComputer sciencebusiness.industryComputationPhotographyFrame (networking)Field of viewImage processing02 engineering and technology021001 nanoscience & nanotechnologyCondensed Matter Physics01 natural sciencesElectronic Optical and Magnetic Materials010309 opticsComputer graphics (images)0103 physical sciencesComputer visionArtificial intelligenceElectrical and Electronic Engineering0210 nano-technologyParallaxbusinessJournal of Display Technology
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Integral display for non-static observers

2017

We propose to combine the Kinect and the Integral-Imaging technologies for the implementation of Integral Display. The Kinect device permits the determination, in real time, of (x,y,z) position of the observer relative to the monitor. Due to the active condition of its IR technology, the Kinect provides the observer position even in dark environments. On the other hand, SPOC 2.0 algorithm permits to calculate microimages adapted to the observer 3D position. The smart combination of these two concepts permits the implementation, for the first time we believe, of an Integral Display that provides the observer with color 3D images of real scenes that are viewed with full parallax and which are…

EngineeringIntegral imagingbusiness.industryComputer graphics (images)ComputingMethodologies_IMAGEPROCESSINGANDCOMPUTERVISIONComputer visionObserver (special relativity)Artificial intelligenceÒpticabusinessParallax
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Toward 3D integral-imaging broadcast with increased viewing angle and parallax

2018

Abstract We propose a new method for improving the observer experience when using an integral monitor. Our method permits to increase the viewing angle of the integral monitor, and also the maximum parallax that can be displayed. Additionally, it is possible to decide which parts of the 3D scene are displayed in front or behind the monitor. Our method is based, first, in the direct capture, with significant excess of parallax, of elemental images of 3D real scenes. From them, a collection of microimages adapted to the observer lateral and depth position is calculated. Finally, an eye-tracking system permits to determine the 3D observer position, and therefore to display the adequate microim…

Integral imagingbusiness.industryComputer scienceMechanical EngineeringComputingMethodologies_IMAGEPROCESSINGANDCOMPUTERVISION02 engineering and technologyObserver (special relativity)BroadcastingÒptica021001 nanoscience & nanotechnologyViewing angle01 natural sciencesAtomic and Molecular Physics and OpticsElectronic Optical and Magnetic Materials010309 optics0103 physical sciencesComputer visionArtificial intelligenceElectrical and Electronic Engineering0210 nano-technologybusinessParallaxImatges Processament
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Full parallax 3D display from Kinect v1 and v2

2017

We exploit the two different versions of Kinect, v1 and v2, for the calculation of microimages projected onto integral-imaging displays. Our approach is based on composing a three-dimensional (3-D) point cloud from a captured depth map and RGB information. These fused 3-D maps permit to generate an integral image after projecting the information through a virtual pinhole array. In our analysis, we take into account that each of the Kinect devices has its own inherent capacities and individualities. We illustrate our analysis with some imaging experiments, provide the distinctive differences between the two Kinect devices, and finally conclude that Kinect v2 allows the display of 3-D images …

Òptica Aparells i instruments
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Fusion of computed point clouds and integral-imaging concepts for full-parallax 3D display

2020

During the last century, various technologies of 3D image capturing and visualization have spotlighted, due to both their pioneering nature and the aspiration to extend the applications of conventional 2D imaging technology to 3D scenes. Besides, thanks to advances in opto-electronic imaging technologies, the possibilities of capturing and transmitting 2D images in real-time have progressed significantly, and boosted the growth of 3D image capturing, processing, transmission and as well as display techniques. Among the latter, integral-imaging technology has been considered as one of the promising ones to restore real 3D scenes through the use of a multi-view visualization system that provi…

display 3DUNESCO::FÍSICA::Ópticatecnología de imagen integral:FÍSICA::Óptica [UNESCO]ComputingMethodologies_IMAGEPROCESSINGANDCOMPUTERVISIONtecnologías de captura y visualización de imágenes en 3D
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