Please use this identifier to cite or link to this item: http://hdl.handle.net/11455/4242
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dc.contributor李永春zh_TW
dc.contributorYung-Chun Leeen_US
dc.contributor蘇程裕zh_TW
dc.contributorCherng-Yuh Suen_US
dc.contributor.advisor楊錫杭zh_TW
dc.contributor.advisorHsiharng Yangen_US
dc.contributor.author劉俊宏zh_TW
dc.contributor.authorLiu, Chun-Hungen_US
dc.contributor.other中興大學zh_TW
dc.date2011zh_TW
dc.date.accessioned2014-06-06T06:27:20Z-
dc.date.available2014-06-06T06:27:20Z-
dc.identifierU0005-0107201015205700zh_TW
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dc.identifier.urihttp://hdl.handle.net/11455/4242-
dc.description.abstract本研究目標為開發仿生複眼曲面微透鏡陣列,作為微小影像擷取裝置之實現。以微影技術與電鑄技術製作出平面微透鏡陣列模仁,並且以彈性透明膠(PDMS)為材料翻模,得到平面微透鏡陣列薄膜,接著製作一個上方開孔的PDMS腔體,將翻模後的PDMS平面微透鏡陣列薄膜倒置,黏貼於腔體上方成為密封腔體,接著用抽氣的方式使腔體內外壓力不同,導致平面微透鏡陣列變形為曲面微透鏡陣列,最後將曲面微透鏡陣列與CMOS影像感測器結合,完成微小影像擷取裝置,此系統的視場角可達到62°。本研究成功製作出同位的曲面微透鏡陣列,具有製程簡易、模仁可重複使用、成型快速等優點,開創此微小影像擷取裝置之核心技術。zh_TW
dc.description.abstractThe research goal is to develop a bionic compound eye with curved microlens array. It can be used as the implementation of miniaturized imagery capture systems. In this study, lithography and electroforming technology were used to fabricate planar microlens array mold insert and PDMS was the material for replicating planar microlens array membrane. Then the planar microlens array membrane was placed on a top opening chamber in PDMS (replicated from a plastic mold). The membrane was used to paste on the top opening chamber and formed a sealed chamber. A syringe was used to evacuate the air in the chamber and caused pressure difference in the chamber resulted in the membrane deformation. The deformed membrane with microlens array has the curvature to collect images. It was combined with the CMOS image sensor to capture images. The FOV of the system is 62. This study successfully fabricated the apposition microlens array, which have the advantages of simple process, the mold can be reused and rapid forming. The study explored the key technology for miniaturized imagery capture devices.en_US
dc.description.tableofcontents摘要 i Abstract ii 目次 iii 圖目次 v 表目次 vii 第一章 緒論 1 1. 1 前言 1 1. 2 研究動機與目的 2 1. 3 研究方法與目標 4 1. 4 論文架構 4 第二章 文獻回顧 5 2. 1 微透鏡製程 5 2.1. 1 熱熔法 5 2.1. 2 微液滴法 7 2.1. 3 灰階光罩法 7 2.1. 4 熱壓回熔法 8 2. 2 人工複眼成像系統 9 2.2. 1 TOMBO成像系統 9 2.2. 2 APCO成像系統 10 2.2. 3 CLEY成像系統 11 2. 3 仿生人工複眼結構 11 2.3. 1 自對準與光波導式 11 2.3. 2 折射式聚合物微透鏡式 12 2. 4 結語 13 第三章 基本理論 14 3. 1 幾何光學的基本定律 14 3.1. 1 光的直線傳播定律 14 3.1. 2 光的獨立傳播定律 14 3.1. 3 光的反射與折射定律 14 3.1. 4 光路可逆原理 16 3. 2 基本成像概念 16 3. 3 半球曲率半徑公式 17 3. 4 薄透鏡成像公式 18 第四章 實驗設計與製程規劃 19 4. 1 幾何形狀設計與光學模擬 19 4. 2 黃光微影(Photolithography)製程 22 4. 3 電鑄與翻模製程 30 4. 4 曲面微透鏡陣列製程 34 4. 5 結合CMOS影像感測器擷取圖像 36 第五章 實驗結果與分析 37 5. 1 光學顯微鏡量測光阻微透鏡結構 37 5. 2 3D共軛焦顯微鏡量測光阻微透鏡結構 38 5. 3 SEM觀察透鏡表面形貌 41 5. 4 接觸角量測觀察曲面彎曲程度 41 5. 5 結合CMOS影像感測器擷取影像 43 5. 6 視場角量測 45 5. 7 實驗結果與討論 46 第六章 結論與未來展望 47 6. 1 結論 47 6. 2 未來展望 47 參考文獻 49 附錄A製程儀器設備 51 附錄B量測儀器設備 56zh_TW
dc.language.isoen_USzh_TW
dc.publisher精密工程學系所zh_TW
dc.relation.urihttp://www.airitilibrary.com/Publication/alDetailedMesh1?DocID=U0005-0107201015205700en_US
dc.subjectartificial compound eyeen_US
dc.subject人工複眼zh_TW
dc.subjectmicrolens arrayen_US
dc.subjectMOEMSen_US
dc.subjectimagery systemen_US
dc.subject微透鏡陣列zh_TW
dc.subject微光機電系統zh_TW
dc.subject影像系統zh_TW
dc.title微透鏡仿生複眼影像擷取系統之研究zh_TW
dc.titleResearch of Microlens Bionic Compound Eye for Imagery Capture Systemen_US
dc.typeThesis and Dissertationzh_TW
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