色彩學應用於藝術創作、染料、印刷技術、顯視器等方面，其中混色法應用層面更為廣泛。現今之光學儲存技術主要利用光、電等效應，並無其他技術應用。在專利“資料處理裝置” [1]中，提出以色彩原理進行資料儲存之概念及基礎，藉由彩色噴墨墨水及微光譜儀分析達成資料儲存及讀取的目的。本研究目的在於利用朗伯-比爾定律(Lambert -Beer’s law)搭配微光譜儀輔助色彩進行編碼及解碼機制，探討波長與濃度進行色彩編碼之關係。實驗架構是先針對三種色料分別進行數據分析，再利用其進行混合溶液濃度解碼，以模擬資料解碼過程。利用光譜儀可偵測到的波段來進行解析，判斷彩色資訊，增加能判讀的資訊量，達到提升儲存容量目的。目前本實驗色料模擬所造成的誤差，最低可以至10%以下。以本實驗目前解析度做計算，容量僅可達到2.42GB，尚有許多誤差因素須修正。

Colorimetry is applied to artistic creation, dyestuff, printing technology, monitor, and etc, especially the field of color mixing is very extensively. Now the storage technology is applied by optics and magnetic coefficient to handle the information. The patent “Data processing device” present a innovation by using color inks and micro spectrometer to processed information. In this study, our study is according to Lambert-Beer’s law and operate micro spectrometer to differentiate the concentration of three kinds of color inks in mixed solution, and find out the relationship between wavelength and concentration. Our structure of experiment first measured the numerical analysis of primary colors by micro spectrometer associated with Lambert-Beer’s law, then differentiate the concentration of mixed solution, simulation data decoding process. Using micro spectrometer can detect large range of wavelength, this will increase the amount of information, and achieve the objective of enhancing storage capacity. In this study, we decreasing the error of color decoding under 10%. Calculate the current resolution, the capacity can be achieved only 2.42GB, there are many error factors should be revised.

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