曲面式視差障壁型雙視域顯示器設計參數之研究

Yen-Wen Lin; 林彥文

請用此 Handle URI 來引用此文件： http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/76831

完整後設資料紀錄

DC 欄位	值	語言
dc.contributor.advisor	林晃巖(Hoang Yan Lin)
dc.contributor.author	Yen-Wen Lin	en
dc.contributor.author	林彥文	zh_TW
dc.date.accessioned	2021-07-10T21:38:06Z	-
dc.date.available	2021-07-10T21:38:06Z	-
dc.date.copyright	2020-08-28
dc.date.issued	2020
dc.date.submitted	2020-08-17
dc.identifier.citation	[1] Ankit Chugh，“Evolution of TVs-From B W CRT TV to OLED TV to an AI TV”，2018. [2] Jason Geng, “Three-dimensional display technologies,”Advances in Optics and Photonics 5,pp.456-535,2013. [3] Heresy，“立體顯示技術簡介六、時間多工的平面裸眼顯示系統”，2010. [4] 呂怡貞，“丟掉眼鏡當機不立斷”，2012. [5] Zhongpai Gao and Guangtao Zhai, “Dual-view Display Based on Spatial Psychovisual Modulation,”2018. [6] Sharp，“Sharp Dual Direction Viewing LCDs, ”2017. [7] Kuo-Chung Huang,Yi-Heng Chou,Lang-chin Lin,Hoang Yan Lin,Fu-Hao Chen,Ching-Chiu Liao,Yi-Han Chen,Kuen Lee,and Wan-Hsuan Hsu, “Investigation of Designated Eye Position and Viewing Zone for a two-view autostereoscopic display,”Optic Express,Vol.22,Issue 4,pp.4751-4767,2014. [8] Wan-Hsuan Hsu, Kuo-Chung Huang, Yi-Heng Chou, Lang-chin Lin, Hoang Yan Lin, Fu-Hao Chen, Ching-Chiu Liao, Yi-Han Chen and Kuen Lee, “A Study of Optimal Viewing Distance in an AS3D Display,”SID Symposium Digest of Technical Papers,Vol.44,Issue 1,pp.1198-1201,2013. [9] H.Hong, “Simple method of characterizing the spatial luminance distribution at the user position for autostereoscopic 3D display,”Journal of the Society for Information Display,vol 20,pp 118-122,2012. [10] Wen-Hui Chang,Kuo-Chung Huang,Yi-Heng Chou,Hoang Yan Lin,and Kuen Lee, “A Novel Evaluation Method for 3D Display Viewing Zone,”SID Symposium Digest of Technical Papers,Vol.43,Issue 1,pp.1279-1282,2012. [11] Lambert’s cosine law, “https://en.wikipedia.org/wiki/Lambert%27s_cosine_law#/media/File:Lambert_Cosine_Law_1.svg”. [12] Yuan-Ju Yang, “Study on the Convex-and Concave-Type Parallax-Barrier AutostereoScopic Displays, ”Master thesis,2016. [13] Wen-Hui Chang, “A Study on Viewing Zone of Auto-stereoscopic 3D Displays,”Master thesis,2012. [14] 顯示器推薦距離計算，“http://0123456789.tw/?p=3111”，Available in August 2014. [15] Frank L.Kooi,and Alexander, “Visual Comfort of Binocular and 3-D Displays, ” Displays,Vol.25,pp. 99-108,2004. [16] Wan-Hsuan Hsu, “Image Quality Control Method for 3D Auto-stereoscopic Displays,”Master thesis,2013.
dc.identifier.uri	http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/76831	-
dc.description.abstract	在影像顯示的發展上，從平面顯示器到3D立體顯示器，人類為追求更逼真與符合自然的視覺需求，立體顯示技術不斷提升，其中更以裸眼式立體顯示技術最為市場主流，具有不需配戴眼鏡的優勢，使用彈性較高。雙視域顯示器則是將立體顯示技術中，雙眼間距改為可自行設計的雙人間距，從本來分送給左眼及右眼的影像資訊，變成可同時提供兩種不同影像資訊給予至少兩位使用者於單一顯示器上的技術。近年來，可撓式基板技術的進步，使得曲面顯示技術的議題受到重視，彎曲的顯示螢幕具有螢幕增大的效果以及可設計為符合人眼舒適感受的曲線，提供更為逼真舒適的自然視覺享受，因此更可以期待曲面式的雙視域顯示器。對裸眼式雙視域顯示器而言，觀賞位置與可在觀賞位置附近的可移動範圍會影響觀賞品質；觀賞視域(Viewing Zone)描述在顯示器前，觀賞者可體驗兩種不同影像資訊的可移動範圍。而就曲面式雙視域顯示器來說，曲率半徑與可視角度會決定相對彎曲程度，彎曲程度不同時，顯示器所提供的空間光強分佈便會改變，對於以分光達成將不同影像資訊送進左邊及右邊觀賞視域的雙視域顯示器，是影響觀看影像品質的關鍵。基於前人研究計算出的觀賞視域公式，本論文將推導曲面式視差障壁型雙視域顯示器的設計觀賞位置並描繪觀賞視域，藉由調變相關參數，探討具有折射率基板下曲率半徑、可視角度及視差障壁位移量對觀賞視域大小與位置的影響，並加入交互干擾與均勻度評估影像品質。本篇論文的研究將提供曲面式基板結合雙視域顯示器領域參數設計的參考，回饋設計分析及製程量測端；也期許未來可撓式雙視域顯示器的發展，能以此論文的論點作為深入研究的基礎。	zh_TW
dc.description.abstract	Human beings always pursuit more realistic and natural visual requirements, and the stereoscopic display technology is constantly improving. Among them, the naked-eye is the most mainstream in the market, which has the advantage of not wearing glasses and higher flexibility. The dual-view display changes the distance between the eyes to the double views that can be designed by yourself. From the image information that was distributed to the left and right eyes, it can provide two different images to at least two users on a single display at the same time. In recent years, the advancement of flexible substrate technology has brought attention to the issue of curved display. Curved displays provide screen-enlarged perception and ability to the curve design which comforts our visual experience. Therefore, in the progress of providing a more natural and comfortable visual experience, a curved dual-view display is highly expected in the future. For the naked-eye dual-view display, viewing position and the range nearby strongly affect image quality. Viewing zone describes the range that a viewer could move while experiencing two different image information in front of the display. Regarding a curved dual-view display, radius and viewing angle of the screen determine the relative degree of bending, by which the spatial light distribution is determined. In addition, this is a key factor influencing image quality, especially for the display which directs the views for left and right viewing areas based on different images. In this thesis, the formula for a curved barrier-type dual-view display will be derived, based on previous research on the calculation of viewing position and viewing zone for a planer barrier-type autostereoscopic display. Furthermore, with the aid of the ray-tracing software, the viewing zone will also be depicted and discussed as given different curvature radius or viewing angle of the screen with refractive index substrate. Finally, the image quality will be discussed by considering crosstalk and uniformity in each case. The purpose of this thesis is to provide a parameter-design reference for a curved dual-view display. We look forward to the advance in curved dual-view display, and the contribution of this thesis to further research on curved dual-view display.	en
dc.description.provenance	Made available in DSpace on 2021-07-10T21:38:06Z (GMT). No. of bitstreams: 1 U0001-1408202016421100.pdf: 5626219 bytes, checksum: a2ddbdc4626d99d4a40179bfe9c14056 (MD5) Previous issue date: 2020	en
dc.description.tableofcontents	誌謝 i 中文摘要 ii ABSTRACT iii 目錄 iv 圖目錄 vi 表目錄 ix 第 1 章緒論 1 1-1 研究背景 1 1-2 多視域顯示器 2 1-3 雙視域顯示器 4 1-4 曲面式顯示器 6 1-5 研究動機與目的 7 第 2 章雙視域顯示器之設計原理與方法 8 2-1 視差障壁型雙視域顯示器之設計原理 8 2-1-1 平面式視差障壁型雙視域顯示器之觀賞視域公式推導 10 2-1-2 從平面式到曲面式之設計 14 2-1-3 曲面式視差障壁型雙視域顯示器之觀賞視域公式推導 15 2-2 影像品質因子 19 2-2-1 輝度(Luminance) 19 2-2-2 交互干擾(Crosstalk) 21 2-2-3 均勻度(Uniformity) 23 第 3 章研究方法 24 3-1 模擬方法及模型驗證 25 3-1-1 曲面式視差障壁型雙視域顯示器之參數規格 25 3-1-2 雙視域幾何觀賞視域之推導 26 3-1-3 雙視域光線追跡觀賞視域之模擬 27 3-1-4 幾何推導與光線追跡模擬之相互驗證 30 3-1-5 多點光線追跡之差異 31 3-2 調變設計參數對觀賞視域影響之分析 33 3-2-1 基板架構參數 33 3-2-2 參數限制條件 36 3-2-3 設計觀賞位置 37 3-2-4 調變曲率半徑對觀賞視域之影響 38 3-2-5 調變可視角度對觀賞視域之影響 40 3-3 考慮交互干擾與均勻度之觀賞視域 42 第 4 章研究結果與討論 44 4-1 固定可視角度下調變曲率半徑對觀賞視域之影響 45 4-2 固定曲率半徑下調變可視角度對觀賞視域之影響 51 4-3 視差障壁開口率優化及分析比較 57 第 5 章結論 61 參考文獻 62
dc.language.iso	zh-TW
dc.subject	曲率半徑	zh_TW
dc.subject	曲面	zh_TW
dc.subject	視域	zh_TW
dc.subject	雙視域顯示器	zh_TW
dc.subject	視差障壁	zh_TW
dc.subject	可視角度	zh_TW
dc.subject	barrier	en
dc.subject	curvature radius	en
dc.subject	viewing angle	en
dc.subject	viewing zone	en
dc.subject	curved	en
dc.subject	dual-view display	en
dc.title	曲面式視差障壁型雙視域顯示器設計參數之研究	zh_TW
dc.title	Study on the Design Parameters for Curved-Type Parallax-Barrier Dual-View Display	en
dc.type	Thesis
dc.date.schoolyear	108-2
dc.description.degree	碩士
dc.contributor.oralexamcommittee	黃定洧(Ding Wei Huang),李中裕(Albert Li)
dc.subject.keyword	雙視域顯示器,曲面,視域,曲率半徑,可視角度,視差障壁,	zh_TW
dc.subject.keyword	dual-view display,curved,viewing zone,curvature radius,viewing angle,barrier,	en
dc.relation.page	63
dc.identifier.doi	10.6342/NTU202003453
dc.rights.note	未授權
dc.date.accepted	2020-08-18
dc.contributor.author-college	電機資訊學院	zh_TW
dc.contributor.author-dept	光電工程學研究所	zh_TW
顯示於系所單位：	光電工程學研究所

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