陣列式燈具光學特性快速量測之研究

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姓名

張啟澤(Chi-Che Chang) 查詢紙本館藏

畢業系所

光電科學與工程學系

論文名稱

陣列式燈具光學特性快速量測之研究
(Study of Simplified Measurement on Optical Characteristics of Luminaires Array)

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至系統瀏覽論文 (2026-10-1以後開放)

摘要(中)

本論文中我們探討一個場域空間中有數盞平板燈同時點亮，使用照度
計量測進行光學特性分析得到各盞平板燈的照度分布情形，並與實際量測
值比對驗證。
在論文中首先我們進行各別平板燈的照度分析，使用最小平方法求解
照度餘弦定理的次方項與各平板燈正下方的照度係數。
接著我們在一場域空間中點亮所有平板燈，應用先前最小平方法所得
到每盞平板燈的次方項與係數，使用所建立的光學特性模型即可分析場域
空間中多盞平板燈同時點亮下，各盞平板燈照度值的強弱及分布情形，並比
對計算出的單盞照度變化和多盞平板燈的總照度變化是否與照度計實際所
量測的照度值相符合。

摘要(英)

In this word, we have studied the illumination distribution of a luminaire array,
and have developed a simplified measurement procedure for the photometric
performance monitoring. With the aid of least square method, we found out that
the photometric performance of each luminaire in the array can be identified just
simply by measuring the total illumination distribution of the luminaire array only
on some specific spots. It saves lots of work other than to turn on and turn off each
luminaire one by one. The detection errors could be as small as less than 10%.

關鍵字(中)

★ 平板燈照度分布
★ 照度餘弦定理
★ 最小平方法
★ 光學特性模型

關鍵字(英)

★ Illuminance distribution
★ least square method
★ Optical characteristic model

論文目次

摘要 ii
Abstract iii
致謝 iv
目錄 vi
圖目錄 x
表目錄 xx
第一章緒論 1
1-1 前言 1
1-2 研究動機與目的 2
1-3 論文大綱 3
第二章基本理論概念 5
2-1 引言 5
2-2 光度學 5
2-2-1 光度學計量單位 6
2-2-2 理想光源 10
2-3 照度餘弦定理 11
2-3-1 Cosine Law 11
2-3-2 Cosine3 law 12
2-3-3 Cosine4 law 14
2-4 照度計量測設備 15
第三章陣列式燈具光學之模型 17
3-1 引言 17
3-2 照度分析的演算法 18
3-2-1 乘冪方程式與照度餘弦定理 18
3-2-2 最小平方法 20
3-3 照度光學特性模型驗證 29
3-3-1 暗房平板燈單一盞點亮量測 31
3-3-2 暗房平板燈同時點亮量測 41
第四章平板燈照度量測分析及驗證 46
4-1 引言 46
4-2 實驗量測條件 47
4-3 排列組合變化量測實驗 48
4-3-1 平板燈排列組合變化量測實驗1 與分析 49
4-3-2 平板燈排列組合變化量測實驗2 與分析 52
4-3-3 平板燈排列組合變化量測實驗3 與分析 55
4-3-4 平板燈排列組合變化量測實驗4 與分析 58
4-3-5 平板燈排列組合變化量測實驗5 與分析 61
4-3-6 實驗結果分析 64
4-4 量測數量與量測間距實驗 64
4-4-1 量測數量、量測間距實驗與分析 65
4-5 平板燈熄滅推估實驗 81
4-5-1 平板燈熄滅推估實驗與分析 81
4-6 模擬光衰推估實驗 86
4-6-1 模擬平板燈光衰推估實驗與分析 87
4-7 離軸量測實驗 91
4-7-1 離軸量測推估實驗與分析 91
4-8 矩陣排列量測實驗 101
4-8-1 矩陣排列量測推估實驗與分析 102
第五章結論 111
參考文獻 113
中英文名詞對照表 116

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指導教授

楊宗勳孫慶成余業緯(Tsung-Hsun Yang Ching-Cherng Sun Yeh-Wei Yu)

審核日期

2021-9-30

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