研究生: |
張瑞洲 Ruie-Jhou Chang |
---|---|
論文名稱: |
點矩陣全像片與噴墨印刷整合之色域表現研究 Color gamut performance by the integration of dot matrix hologram and inkjet printed image |
指導教授: |
王希俊
Wang, Hsi-Chun |
學位類別: |
碩士 Master |
系所名稱: |
圖文傳播學系 Department of Graphic Arts and Communications |
論文出版年: | 2008 |
畢業學年度: | 96 |
語文別: | 中文 |
論文頁數: | 60 |
中文關鍵詞: | 點矩陣全像 、印刷科技 、色域表現 |
英文關鍵詞: | dot matrix hologram, printing technology, color gamut |
論文種類: | 學術論文 |
相關次數: | 點閱:299 下載:5 |
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點矩陣全像片之影像在不同的角度觀察,可以看到不同的光影變化效果,還能增加產品的防偽功能。為了在證實點矩陣全像結合噴墨印刷科技的確可以增加產品的視覺效果,本研究結合噴墨印刷與點矩陣全像片的動態效果,並且找出點矩陣全像片結合噴墨印刷所能表現的顏色色域。實驗方式以噴墨印刷標準色塊與點矩陣全像片色塊模擬全像片與噴墨印刷色域的範圍,在色彩空間(CIE-xy)中比較其差異。實驗結果發現結合兩者的優點確實可以增強印刷品的視覺效果及擴張色域表現,並且找出點矩陣全像與印刷整合的對位不準解決方法,可以利用直線偵測的技術配合良好的打光角度,檢測整合時對位不準的情況。本研究也實作出台灣代表性建築的煙火表現,以全像術呈現煙火綻放與建築物的變圖光影變化,實現複雜影像中點矩陣全像與噴墨印刷的整合效果。
Dot matrix hologram can display different images at varied viewing angles and it possesses wider color gamut than printed image. In order to demonstrate animation effect in printed image, the integration of hologram and printed image is carried out. We use standard color chart by inject print and holographic color chart to simulate their color gamut, and compare both of them in CIE-xy color space to characterize their performance. The experimental results can verify that our method can display attractive visual effect. To illustrate the result from this research, an animated firework around a renowned building is designed to display dynamic effect from this complex printed image.
[1] R. Collier and C. Burckhardt et al., Optical Holography, Academic Press, New York, 1971.
[2] W. E. Kock. Nobel prize for physics: Gabor and holography. Science, Vol. 174, pp. 674-675, 1971.
[3] Y. Denisyuk, On the reproduction of the properties of an object in the wavefield of the radiation scattered by it, Dokl. AN SSSR, Vol. 144, pp.1275-1276, 1962.
[4] 石井勢津子, 國立臺灣師範大學光電科技研究所「全像藝術簡介」暑期課程講義,2007。
[5] 蘇德欽,彩虹全像術,2006全像光電科技工作坊與全像藝術美展「光之紡」研討會簡報,pp.27-30,2006。
[6] A. Rhody, F. Ross, Holography Market Place, 8th Ed, Ross Books, 1999.
[7] 陳詩涵,防偽點矩陣全像片色彩顯示與動畫設計之研究,國立台灣師範大學系圖文傳播研究所碩士論文,2007。
[8] R. L. van Renesse, Optical Document Security, 2nd Ed., Artech House, London, pp.238-246, 1997.
[9] 大田登著,陳鴻興、陳君彥(譯),基礎色彩再現工程,全華圖書, pp.2-5-2-21,2003。
[10] M. Stokes, M. Anderson, S. Chandrasekar, R. Motta, A standard default color space for the internet –sRGB, 1996. Retrieved July 8, 2007, from http://www.w3.org/Graphics/Color/sRGB.
[11] J. Morovic and M. R. Luo. The fundamentals of gamut mapping: A survey. Colour & Imaging Institute, pp.5-13, 2000.
[12] P. G. Engeldrum, Computing Color Gamuts of Ink–jet Printing Systems, in SID Proc.,SID, San Jose, CA, 27, pp.25–30, 1986.
[13] M. Mahy, Calculation of Color Gamuts Based on the Neugebauer Model, Color Res.Appl., 22, pp.365–374 , 1997.
[14] J. Morovic and M. R. Luo, Gamut Mapping Algorithms Based on Psychophysical Experiment,in Proc. 5th IS&T/SID Color Imaging Conf., IS&T, Springfield, VA,44–49, 1997.
[15] H. Kotera and R. Saito. Compact description of 3D image gamut by singular value decomposition. IS&T/SID Ninth color imaging conference, pp 56-61, 2002.
[16] X. Zhao. Generic device color gamut description. Color research and application, pp.394-408, 2006.
[17] P. Green and L. Macdonald, Colour Engineering: Achieving device independent colour. Wiley John & Sons Inc, pp65~66, 2002.
[18] R. Anderson. Security Printing and Seals. Security Engineering: A Guide to Building Dependable Distributed Systems, pp.243-259, 2001.
[19] 蔡秉諭,雷射全像包裝材料之色彩變化品檢研究,印刷科技,23卷,第1期,pp.28-38,2007。
[20] G. Zhou and F. S. Chau. Three-dimensional photonic crystal by holographic contact lithography using a single diffraction mask. American institute of physic. vol. 90, no.181106, 2007.
[21] 印刷中國(民96年2月12日),印後紙材透明全息圖印刷技術,香港印刷商業協會。民97年6月30日,取自:
http://www.hkprinters.org/news/news.asp?sub_id=828
[22] H. I. Bjelkhagen, Holography and philately: postage stamps with embossed holograms, SPIE, vol. 4149, pp13-31, 2000.
[23] 張瑞洲,全像與基材對位電腦視覺檢測之研究,2007色彩學研討會,pp.153-160,2007。
[24] R. O. Duda and R. E. Hart. Use of the Hough transform to detect lines and curves in pictures, CACM(15). No. 1, January, pp. 11-15, 1972.