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研究生: 林欣毅
Lin, Hsin-Yi
論文名稱: 水下LED燈具之製作
The production of underwater LED lamps
指導教授: 沈聖智
Shen, Sheng-Chih
學位類別: 碩士
Master
系所名稱: 工學院 - 系統及船舶機電工程學系
Department of Systems and Naval Mechatronic Engineering
論文出版年: 2021
畢業學年度: 109
語文別: 中文
論文頁數: 62
中文關鍵詞: LED色彩照明燈具設計PWM調控水下載具
外文關鍵詞: Lamp Design, Underwater image, Color compensation, PWM
相關次數: 點閱:77下載:0
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  • 中文摘要I Extended AbstractII 目錄VIII 圖目錄XI 表目錄XIV 第一章 緒論1 1.1前言與動機1 1.2 論文方法1 1.3 論文架構2 第二章 文獻回顧4 2.1燈具設計相關技術4 2.1.1傳統光源及LED光源在水下之比較4 2.1.2 海底照明燈具5 2.2水下配電機構之設計相關技術6 2.2.1 配電箱外殼之設計6 2.3 水下LED應用技術7 2.3.1 LED 性能之量測7 2.3.2 LED 亮度控制8 2.4色彩辨識研究方法9 2.4.1 車輛色彩辨識9 2.5 色彩空間應用10 2.5.1 RGB色彩模型10 2.5.2 Lab色彩模型11 2.5.3色彩模型間的轉換11 第三章 水密燈具14 3.1 水密燈具之設計14 3.1.1燈具硬體介紹15 3.1.2水密燈具之配重21 3.2水密燈具之亮度控制原理23 3.2.1 PWM介紹23 3.3水密燈具之防水24 3.3.1燈殼24 3.3.2電源控制箱25 第四章 水下燈具實驗結果27 4.1實驗環境27 4.2實驗設置27 4.2.1防水實驗27 4.2.2照度實驗31 第五章 實驗結果與討論43 5.1 水下辨識之方法43 5.1.1軟體設計頁面44 5.2 水下色彩實驗之數據45 5.2.1色彩實驗設備45 5.2.2色彩實驗方法47 第六章 結論與未來展望60 6-1 結論60 6-2 未來展望60 參考資料61

    [1] Denis N. Meshcheryakov,Luminaires for underwater illumination,Light & Engineering,2010
    [2] B. L. McGlamery, “A computer model for underwater camera systems,” Ocean Optics 0208, 221–231 (1980).
    [3] Basov Yu.G., Rakviashvili A.G., and Sysun V.V.. Special light engineering. – Minsk: Publishing center of the BGU (Belarusian State University), 2008. 414 p.
    [4] Abishalini Sivaraman,texas A&M Women in Engineering AUV Design and Development,2018
    [5] K. R. Hardy, et al. “High Brightness Light Emitting Diodes for Ocean Application”, Oceans conference record, September (2007).
    [6] K. R. Hardy, et al. “Asvances in High Brightness Light Emitting Diodes in underwater Application”, Oceans conference record, September (2008).
    [7] 趙致傑,「高亮度LED模組於水下光場之設計與分析」,國立成功大學,碩士論文,2010.
    [8] Chi-Huang Hung; Ying-Wen Bai; Wen-Chung Chang; Ren-Yi Tsai,“Home LED light control system with automatic brightness tuning for the difference in luminous decay”, IEEE Global Conference on Consumer Electronics (GCCE),2012。
    [9] B. Pruthvija and P. K. P. Lakshmi, “Review on Battery Technology and its Challenges,” International Journal of Scientific & Engineering Research, vol. 11, no. 9, pp. 1706–1713, 2020.
    [10] X Xue,Research and application of illumination processing method in vehicle color recognition,2017
    [11] IMAQ Vision Concepts Manual,National Instruments,2003
    [12] U. J. Błaszczak, Ł. Gryko, A. S. Zaj, “Characterization of milti-emitter tuneable LED source for endoscopic applications,” Metrology and Measurement Systems, pp.153-169, 2019.
    [13] J. Breneman, H. Blasinski, J. Farrell, “The color of water: using underwater photography to estimatewater quality,” In Digital Photography X Vol 9023,2014.
    [14] C-g Dai, M-x Lin, Z Wang , D Zhang, Z-g Guan, “Color Compensation Based on Bright Channeland Fusion for Underwater Image Enhancement,” 2014.
    [15] Y. Liu, H. Xu, D. Shang, C. Li and X. Quan, “An Underwater Image Enhancement Method for Different Illumination Conditions Based on Color Tone Correction and Fusion-Based Descattering,” Sensors, Vol. 19, no. 24, 2019.
    [16] 蔡旻靜,「水下LED照明系統於物體色彩還原之應用」,成功大學系統及船舶機電工程學系,碩士論文,2020.

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