近年來能源問題與環保意識的抬頭，採用LED照明取代傳統照明，已是世界各國在推動節能減碳的重要項目之一。基於市場的考量，現階段的LED照明設計，仍沿用各類型傳統照明的設計標準以求符合市場需求與接受度，也因此LED原本的輕、薄、短小的特性，便無法在照明應用上完全的呈現出來。本研究提出“反射式結構燈具“的設計概念，一改現今LED照明市場普遍性的設計思維。此一產品設計以LED特性為基礎，改善現今LED照明所造成視覺上的不適感，及相關技術如何在後續延伸應用。本研究結果可提供從事燈具設計人員，善用LED特性與機構的搭配，達到節能減碳與舒適照明的理念，進而延伸應用出更多樣化先進燈具。

In recent years, because of the energy problem and the rise of environmental awareness. Use LED lighting to replace traditional lighting, it has always been one of the world in promoting carbon reduction projects. Based on market considerations, LED lighting design at this stage, still used in various types of conventional lighting design standards in order to meet the market demand and acceptance. But, LED features of the dexterous, thin and small, There is no way demonstrated in the lighting applications. In daily life and working environment, always been very important of the auxiliary lighting. Advanced Lighting Design, carbon reduction and comfortable lighting environment must be considered together.
The "Reflective structure" design concept, it’s a practical example of a different design approach, with the now universal LED lighting market comparison. Consider LED characteristics based on the design, improving LED lighting caused visual discomfort and future extension of application-related technology.
Results of this study, how to use with a LED on the features and mechanism to achieve carbon reduction and comfort lighting concept, we can provide a reference for personnel engaged in the lighting design, develop a more diverse advanced lighting case.

Ambarzumian, V. A. (1943). Diffuse reflection of light by a foggy medium. InDokl.Akad. Nauk SSSR (Vol. 38, No. 8, pp. 257-261).
Bodmann, H. W. (1967). “Quality of interior lighting based on luminance.” Transactions of the Illuminating Engineering Society, Vol. 2.
Bullimore, M.A., Fulton, E. J., and Howarth, P. A. (1990). Assessment of visual performance, In: J. R. Wilson and E. N. Corelett (Eds), “Evaluation of Human Work: A Practical Ergonomics Methodology.” London: Taylor & Francis.
Christensen, C. M. (1997). The Innovator's Dilemma: When New Technologies Cause Great Firms to Fail. University of Illinois at Urbana-Champaign's Academy for Entrepreneurial Leadership Historical Research Reference in Entrepreneurship.IESNA. (1987). IES Lighting Handbook, Application No. 2-21.
Illuminating Engineering Society of North America. (2000). Lighting Handbook:Reference & application. Illuminating Engineering.
Kobus, D. A., & Neri, D. F. (1984). Performance and preference on a sonar detection task under various colors of ambient illumination.
Lin, G. T. (2012). Quality Evaluation of Color Temperature Adjustable LED Lamps.
Megaw, E. D., Wilson, J. R., & Corlett, E. N. (1990). The definition and measurementof visual fatigue. Evaluation of human work, 682-702.
Rea, M. S. (2000). The IESNA lighting handbook: reference & application.
Saito, S., Taptagapom, S & Salvendy, G., (1993). Visual Comfort in using Different VDT Screens. Internation joumal of Human-Computer Internation, Vol. 5, No. 313-323.
Sanders, M. S., & McCormick, E. J. (1993). Human factors in engineering and design.
Shahnavaz, H. (1982). Lighting conditions and workplace dimensions of VDU-operators. Ergonomics, 25(12), 1165-1173.
Smith, S. W. (1978). Is there an optimum light level for office tasks?. Journal of the Illuminating Engineering Society, 7(4), 255-258.
于慶潭、林依萍、李佳學. (2009). 先進燈具之光學設計. 工業材料雜誌267期, 93-99.
林志福, & 王淑芬. (2009). 台灣LED產業價值鏈, IPO時間與公司價值之研究 (Doctoral dissertation).
尤傳莉. (2012). 獲利世代: 自己動手, 畫出你的商業模式. 台北:早安財經文化有限公司.
史國光. (2004). 現代半導體發光及雷射二極體材料技術. 全華圖書.
耿繼業&何建娃 (2013). 幾何光學. 全華圖書.
張阜權、孫榮山、唐偉國. (1998). 光學. 凡異文化.
許招墉. (1999). 照明設計學. 全華圖書.
許書務. (1986). 光電元件應用技術. 全華圖書.
郭子菱. (2012). [高價] 卡住終端LED照明市場買氣. 光連: 光電產業與技術情報, (97), 31-34.
郭宗訓、李世輝. (2014). LED照明之結構創新與光源特質. 台灣室內照明設計第10刊, 46-51.
郭嘉龍. (2001). 半導體封裝工程. 全華圖書.
陳隆建. (2007). 發光二極體之原裡與製程. 全華圖書.
黃孟嬌. (2012). 全球LED照明市場趨勢.
財團法人台灣綠色生產力基金會.(2012). LED照明節能應用技術手冊.
LEDinside (2016/5/11). LED產業洗牌潮-看中國與日本廠商如何求生存.