广角全息投影仪畸变校正

IF 0.5 Q4 OPTICS Photonics Letters of Poland Pub Date : 2021-12-30 DOI:10.4302/plp.v13i4.1125

Jędrzej Szpygiel, Maksymilian Chlipala, Rafał Kukołowicz, M. Idicula, T. Kozacki

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Deng, \"Effective method for further magnifying the image in holographic projection under divergent light illumination\", Appl. Opt. 58, 8713 (2019). CrossRef Y. Qi, C. Chang, and J. Xia, \"Speckleless holographic display by complex modulation based on double-phase method\", Opt. Express 24, 30368 (2016). CrossRef E. Buckley, \"Holographic Laser Projection\", J. Display Technol. 99, 1 (2010). DirectLink M. Chlipała, T. Kozacki, H. Yeom, J. Martinez-Carranza, R. Kukołowicz, J. Kim, J. Yang, J. Choi, J. Pi, and C. Hwang, \"Wide angle holographic video projection display\", Opt. Lett. 46, 4956 (2021). CrossRef Z. He, X. Sui, L. Cao and G. Jin, \"Image-Distortion Correction Algorithm for Computer-Generated Holographic Display,\" 2018 IEEE 27th International Symposium on Industrial Electronics (ISIE), 1331 (2018). CrossRef A. Kaczorowski, G.S. Gordon, A. Palani, S. Czerniawski and T.D. Wilkinson, \"Optimization-Based Adaptive Optical Correction for Holographic Projectors\", J. 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引用次数: 0

摘要

这封信介绍了失真校正方法，使失真最小化，大尺寸图像在广角全息投影仪。该技术应用用于全息图生成的输入图像的数字预失真。它基于通过将光学重建的点测试图与原始点测试图进行比较来估计失真系数。实验结果证明，该技术可以重建高质量的图像。全文：PDF参考文献M。Makowski，硅上液晶空间光调制器全息投影的实验方面，全息材料和光学系统，M.Kumar，ed.（IntechOpen，2019）。庞，曹，刘，石，邓，“在发散光照射下进一步放大全息投影图像的有效方法”，应用。选择588713（2019）。齐，张，夏，“基于双相位法的复调制无斑点全息显示”，Opt。《快报》243068（2016）。CrossRef E.Buckley，“全息激光投影”，显示技术杂志。99，1（2010）。DirectLink M.Chlipała、T.Kozacki、H.Yeom、J.Martinez Carranza、R.Kukoł; owicz、J.Kim、J.Yang、J.Choi、J.Pi和C.Hwang，“广角全息视频投影显示器”，Opt。Lett。464956（2021）。CrossRef He，X.Sui，L.Cao和G.Jin，“计算机生成全息显示器的图像失真校正算法”，2018年IEEE第27届国际工业电子研讨会（ISIE），1331（2018）。CrossRef A.Kaczorowski、G.S.Gordon、A.Palani、S.Czerniawski和T.D.Wilkinson，“全息投影仪的基于优化的自适应光学校正”，显示技术杂志。11（7），596（2015）。何，隋，金，曹，“基于角谱算法的全息显示畸变校正方法”，IEEE Trans。Industr。知会151162（2019）。CrossRef O.Mendoza Yero、G.Mínguez Vega和J.Lancis，“使用纯相位光学元件编码复杂场”，Opt。Lett。391740（2014）。CrossRef T.Kozacki，K.Falaggis，“具有紧凑空间-带宽的角谱方法：泛化和全场精度”，Appl。选择555014（2016）。CrossRef

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Distortion correction for wide angle holographic projector

This letter presents distortion correction method enabling distortion minimized, large size image in wide angle holographic projector. The technique applies numerical predistortion of an input image used for hologram generation. It is based on estimation of distortion coefficients by comparing optically reconstructed point test chart with the original one. Obtained experimental results prove that the technique allows reconstruction of high-quality image. Full Text: PDF ReferencesM. Makowski, Experimental Aspects of Holographic Projection with a Liquid-Crystal-on-Silicon Spatial Light Modulator, in Holographic Materials and Optical Systems, M. Kumar, ed. (IntechOpen, 2019). CrossRef H. Pang, A. Cao, W. Liu, L. Shi, and Q. Deng, "Effective method for further magnifying the image in holographic projection under divergent light illumination", Appl. Opt. 58, 8713 (2019). CrossRef Y. Qi, C. Chang, and J. Xia, "Speckleless holographic display by complex modulation based on double-phase method", Opt. Express 24, 30368 (2016). CrossRef E. Buckley, "Holographic Laser Projection", J. Display Technol. 99, 1 (2010). DirectLink M. Chlipała, T. Kozacki, H. Yeom, J. Martinez-Carranza, R. Kukołowicz, J. Kim, J. Yang, J. Choi, J. Pi, and C. Hwang, "Wide angle holographic video projection display", Opt. Lett. 46, 4956 (2021). CrossRef Z. He, X. Sui, L. Cao and G. Jin, "Image-Distortion Correction Algorithm for Computer-Generated Holographic Display," 2018 IEEE 27th International Symposium on Industrial Electronics (ISIE), 1331 (2018). CrossRef A. Kaczorowski, G.S. Gordon, A. Palani, S. Czerniawski and T.D. Wilkinson, "Optimization-Based Adaptive Optical Correction for Holographic Projectors", J. Display Technol. 11(7), 596 (2015). CrossRef Z. He, X. Sui, G. Jin, L. Cao, "Distortion-Correction Method Based on Angular Spectrum Algorithm for Holographic Display", IEEE Trans. Industr. Inform. 15, 6162 (2019). CrossRef O. Mendoza-Yero, G. Mínguez-Vega, and J. Lancis, "Encoding complex fields by using a phase-only optical element", Opt. Lett. 39, 1740 (2014). CrossRef T. Kozacki, K. Falaggis, "Angular spectrum method with compact space–bandwidth: generalization and full-field accuracy", Appl. Opt. 55, 5014 (2016). CrossRef

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Photonics Letters of Poland OPTICS-

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1.40

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