發(fā)布時間：2018-11-29 10:00

【摘要】： 本文闡述了合成全息技術(shù)的發(fā)展歷程及我國的合成全息和模壓全息技術(shù)現(xiàn)狀,為了提高我國的合成全息技術(shù),振興模壓全息行業(yè),進行了真彩色動感立體模壓全息技術(shù)的研究。 本文開展了兩部分的研究工作:第一,提出一種新的一步合成真彩色動感立體全息圖的技術(shù)。用三色光柵對彩色景物編碼,4f光學系統(tǒng)進行彩色解碼,并在光路中加上光柵進一步調(diào)制物光束,使用散射參考光,對景物的系列編碼片做順序記錄,合成一張真彩色動感立體全息圖。實驗工作在重慶大學進行; 第二,為全息生產(chǎn)企業(yè)引進數(shù)字合成全息技術(shù)。將全息技術(shù)與數(shù)字技術(shù)相結(jié)合,采用新型空間光調(diào)制器----數(shù)字微反射鏡器件(DMD),用計算機進行圖形輸入和處理,并控制一套自動記錄系統(tǒng)做全息記錄,制成真彩色動感立體模壓全息圖。相關(guān)實驗在深圳大學反光材料廠進行。 結(jié)果表明:兩種技術(shù)都能實現(xiàn)單色激光記錄,白光再現(xiàn),并且圖像色彩真實,立體視覺強烈,有一定的動感效果。均可通過模壓技術(shù)制成防偽力度高,藝術(shù)觀賞性強的商標,也可應用于商業(yè)廣告、產(chǎn)品展示、藝術(shù)裝潢等領(lǐng)域。技術(shù)領(lǐng)先,應用前景廣闊。 其中,一步合成真彩色動感立體全息技術(shù)記錄過程十分簡單,不需要三分色片,曝光次數(shù)大為減少;DMD數(shù)字合成全息系統(tǒng)實現(xiàn)了全息生產(chǎn)的自動化,圖像輸入實時化,解決了對位難題,取材空間更廣闊,處理更方便。但前者的手工操作限制了該技術(shù)的產(chǎn)業(yè)化應用;后者的三狹縫編碼合成真彩色原理使過程仍嫌繁瑣,有龐大的曝光數(shù)目。 結(jié)合兩種技術(shù)的DMD一步合成真彩色動感立體全息系統(tǒng)是可行的。如果將計算機與全息顯示技術(shù)進一步結(jié)合,用數(shù)字彩色編碼技術(shù)取代光學彩色編碼方法,即可采用DMD數(shù)字合成全息系統(tǒng)一步合成真彩色動感立體全息。新的技術(shù)更領(lǐng)先,產(chǎn)品質(zhì)量更好、更穩(wěn)定,生產(chǎn)效率更高,勞動成本更低,將有更加廣闊的應用前景。
[Abstract]:In this paper, the development course of synthetic holography and the present situation of synthetic holography and moulded holography in China are described. In order to improve the synthetic holography technology in China and to revitalize the holographic industry of moulding pressure, the true color dynamic stereoscopic holography technology is studied. In this paper, two parts of research work are carried out: first, a new one-step synthesis technique of true color dynamic stereoscopic holograms is proposed. A three-color grating is used to encode the color scene, a 4f optical system is used to decode the color object, and a grating is added to the optical path to further modulate the beam. The series of coded pieces of the scene are recorded sequentially by using the scattering reference light. Synthesize a true color dynamic stereo hologram. The experiment was carried out at Chongqing University. Secondly, digital synthetic holography technology was introduced for holographic enterprises. In this paper, a new spatial light modulator, digital microreflector device (DMD), is used to input and process the graphics with a computer, and a set of automatic recording system is controlled to record holography by combining holographic technology with digital technology. The true color dynamic stereotype hologram is made. The experiment was carried out in the reflective material Factory of Shenzhen University. The results show that both techniques can realize monochromatic laser recording, white light reproduction, true color, strong stereoscopic vision and certain dynamic effect. It can also be used in commercial advertising, product display, art decoration and other fields. The technology is leading, the application prospect is broad. Among them, the recording process of one-step synthetic true color dynamic stereoscopic holography is very simple, there is no need for trichromatic film, and the number of exposures is greatly reduced. The DMD digital synthetic holography system realizes the automation of holographic production, real-time image input, solving the problem of alignment, wider material space and more convenient processing. However, the manual operation of the former limits the industrial application of the technology, while the principle of the three-slit coding and true color synthesis of the latter still makes the process cumbersome and has a large number of exposures. It is feasible to synthesize true color dynamic stereoscopic holography by DMD with two techniques. If the computer is further combined with the holographic display technology and the optical color coding method is replaced by the digital color coding technique, the true color dynamic stereoscopic holography can be synthesized by using the DMD digital synthesis holography system. The new technology is more advanced, the product quality is better, the stability, the production efficiency is higher, the labor cost is lower, will have the wider application prospect.
【學位授予單位】：重慶大學
【學位級別】：碩士
【學位授予年份】：2006
【分類號】：O438.1

【引證文獻】

相關(guān)博士學位論文 前1條

1 張建忠;紅外雙波段視景仿真器光學系統(tǒng)的研究[D];中國科學院研究生院（長春光學精密機械與物理研究所）;2013年

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本文編號：2364691