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다국어 초록 (Multilingual Abstract)

A holographic display based on a viewing window enables the converging of a reconstruction wave into a viewing window by means of an optical system. Accordingly, a user can observe a reconstructed hologram image, even with a small diffraction angle. It is very difficult to manufacture an optical system with no aberrations; thus, it is inevitable that a certain amount of wave aberrations will exist. A viewing-window-based holographic display, therefore, always includes distortions in an image reconstructed from a hologram pattern. Compensating the distortions of a reconstructed image is a very important technical issue because it can dramatically improve the performance when reconstructing a digital three-dimensional content image from a hologram pattern. We therefore propose a method for suppressing image distortion by measuring and compensating the wave aberration calculated from a Zernike polynomial, which can represent arbitrary wave aberrations. Through our experimental configuration using only numerical calculations, our proposed method decreased the reconstructed image distortion by more than 28%.

참고문헌 (Reference)

1 엄태경, "적응광학계 변형거울의 구동기 배열에 따른 성능 변화 연구" 한국광학회 13 (13): 442-448, 2002

2 "Zemax"

3 J.K. Hahn, "Wide Viewing Angle Dynamic Holographic Stereogram with a Curved Array of Spatial Light Modulators" 16 (16): 12372-12386, 2008

4 T. Kozacki, "Wide Angle Holographic Display System with Spatiotemporal Multiplexing" 20 (20): 27473-27481, 2012

5 M. Paturzo, "Synthesis and Display of Dynamic Holographic 3D Scenes with Real-World Objects" 18 (18): 8806-8815, 2010

6 E. Cuche, "Spatial Filtering for Zero-Order and Twin-Image Elimination in Digital Off-axis Holography" 39 (39): 4070-4075, 2000

7 Y. Hao, "Resolution Analysis of a Digital Holography System" 50 (50): 183-193, 2011

8 R. Navarro, "Representation of Wavefronts in Free-form Transmission Pupils with Complex Zernike Polynomials" 4 (4): 41-48, 2011

9 P. Ferraro, "Phase Map Retrieval in Digital Holography : Avoiding the Under Sampling Effect by a Lateral Shear Approach" 6995 : 6995061-6995066, 2008

10 E. Hecht, "Optics" Addison-Wesley 253-266, 2002

1 엄태경, "적응광학계 변형거울의 구동기 배열에 따른 성능 변화 연구" 한국광학회 13 (13): 442-448, 2002

2 "Zemax"

3 J.K. Hahn, "Wide Viewing Angle Dynamic Holographic Stereogram with a Curved Array of Spatial Light Modulators" 16 (16): 12372-12386, 2008

4 T. Kozacki, "Wide Angle Holographic Display System with Spatiotemporal Multiplexing" 20 (20): 27473-27481, 2012

5 M. Paturzo, "Synthesis and Display of Dynamic Holographic 3D Scenes with Real-World Objects" 18 (18): 8806-8815, 2010

6 E. Cuche, "Spatial Filtering for Zero-Order and Twin-Image Elimination in Digital Off-axis Holography" 39 (39): 4070-4075, 2000

7 Y. Hao, "Resolution Analysis of a Digital Holography System" 50 (50): 183-193, 2011

8 R. Navarro, "Representation of Wavefronts in Free-form Transmission Pupils with Complex Zernike Polynomials" 4 (4): 41-48, 2011

9 P. Ferraro, "Phase Map Retrieval in Digital Holography : Avoiding the Under Sampling Effect by a Lateral Shear Approach" 6995 : 6995061-6995066, 2008

10 E. Hecht, "Optics" Addison-Wesley 253-266, 2002

11 T. Shimobaba, "Lensless Zoomable Holographic Projection Using Scaled FRESNEL Diffraction" 21 (21): 25285-25290, 2013

12 J. W. Goodman, "Introduction to Fourier Optics" Roberts & Company 109-115, 2005

13 Michel. Thoby, "How is Lens Distortion Value Being Defined by the Industry and by Some International Standardization Groups?"

14 J.-Y. Son, "Holographic Display Based on a Spatial DMD Array" 38 : 3173-3176, 2013

15 Y. Takaki, "Hologram Generation by Horizontal Scanning of a High-Speed Spatial Light Modulator" 48 (48): 3255-3260, 2009

16 B.C. Platt, "History and Principles of Shack-Hartmann Wavefront Sensing" 17 (17): S573-S577, 2001

17 H. Gross, "Handbook of Optical systems, vol. 2" Wiley-VCH 212-216, 2007

18 H. Gross, "Handbook of Optical Systems, vol. 1" Wiley-VCH 782-786, 2007

19 박민식, "Digital Holographic Display System with Large Screen Based on Viewing Window Movement for 3D Video Service" 한국전자통신연구원 36 (36): 232-241, 2014

20 O. Cugat, "Deformable Magnetic Mirror for Adaptive Optics: Technological Aspects" 89 (89): 1-9, 2001

21 M. Paturzo, "Creating an Extended Focus Image of a Tilted Object in Fourier Digital Holography" 17 (17): 20546-20552, 2009

22 J. Upatnieks, "Correction of Lens Aberrations by Means of Holograms" 5 : 589-593, 1966

23 P. Ferraro, "Controlling Depth of Focus in 3D Image Reconstructions by Flexible and Adaptive Deformation of Digital Holograms" 34 : 2787-2789, 2009

24 P. Ferraro, "Compensation of the Inherent Wave Front Curvature in Digital Holographic Coherent Microscopy for Quantitative Phase-Contrast Imaging" 42 : 1938-1946, 2003

25 A. Stadelmaier, "Compensation of Lens Aberrations in Digital Holography" 25 : 1630-1632, 2000

26 P. Memmolo, "Automatic Focusing in Digital Holography and its Application to Stretched Holograms" 36 : 1945-1947, 2011

27 S. Reichelt, "Advances in Lasers and Electro Optics" INTECH 2010

28 M.J. Booth, "Adaptive Optics in Microscopy" 365 : 2829-2843, 2007

29 T. Colomb, "A Numerical Parametric lEns for Shifting, Magnification and Complete Aberration Compensation in Digital Holographic Microscopy" 23 : 3177-3190, 2006

30 M. Stanley, "100 Mega-Pixel Computer Generated Holographic Images from Active Tiling – a Dynamic and Scalable Electro-Optic Modulator System" 5005 : 247-258, 2003

연월일	이력구분	이력상세
2023	평가예정	해외DB학술지평가 신청대상 (해외등재 학술지 평가)
2020-01-01	평가	등재학술지 유지 (해외등재 학술지 평가)
2005-09-27	학술지등록	한글명 : ETRI Journal 외국어명 : ETRI Journal
2003-01-01	평가	SCI 등재 (신규평가)

기준연도	WOS-KCI 통합IF(2년)	KCIF(2년)	KCIF(3년)
2016	0.78	0.28	0.57
KCIF(4년)	KCIF(5년)	중심성지수(3년)	즉시성지수
0.47	0.42	0.4	0.06

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Distortion Compensation of Reconstructed Hologram Image in Digital Holographic Display Based on Viewing Window

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