符合多種道路路面需求之通用型路燈設計

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施威文(Wei-Wen Shih) 查詢紙本館藏

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光電科學研究所碩士在職專班

論文名稱

符合多種道路路面需求之通用型路燈設計
(Universal Street Lighting Design For Versatile Road Pavements)

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至系統瀏覽論文 (2024-9-1以後開放)

摘要(中)

本論文主要以道路輝度模擬為主加入了乾燥及潮濕路面，使用餘弦光形的疊加方法，找出可適用於乾燥(ME4a照明等級)及潮濕(MEW4照明等級)路面的路燈配光曲線，並提供優化後找到最低流明下可通過規範的配光曲線。
找到最佳的配光曲線後，再以此配光曲線於路面的等照度線圖為設計方向，在二次光學模擬設計上，可以以此等照度線圖為目標，進而較快速的設計出可通過法規之配光曲線。
本論文中透過此方法為複雜的道路照明光學設計中之光學模擬提供一個新的發展方向。

摘要(英)

In this thesis, we focus on the simulation of the road luminance for the dry surfaces and the wet surfaces both. By the superposition of multiple cosinusoidal light distributions, the optimal luminance/illuminance distribution can be found out to meet the requirement of the general standards for the dry roads (ME4a lighting level) and the wet roads (MEW4 lighting level). Then, the street lamps can be more easily designed with the guidance of the optimal illuminance distribution. Here, a new and effective procedure has been successfully developed for versatile street lamp lighting design on diverse road surfaces.

關鍵字(中)

★ 道路輝度模擬
★ 配光曲線
★ 照明光學

關鍵字(英)

★ road luminance
★ illuminance distribution
★ versatile street lamp

論文目次

摘要 I
Abstract II
目錄 III
圖目錄 V
表目錄 IX
第一章緒論 1
1-1 研究背景 1
1-2 研究動機與目的 5
1-3 論文大綱 10
第二章基礎原理 11
2-1 光度學 11
2-2 道路照明的照度與輝度 15
2-3 道路路面分類 15
第三章乾溼路面設計 20
3-1 LED路燈技術規範 21
3-2 歐洲EN13201法規 23
3-3 燈具傾角下的餘弦光強度分布疊加設計 24
3-4 光形傾角下的餘弦光強度分布疊加設計 37
第四章二次光學設計驗証 46
4-1 光形設計分析及光形設計流程 46
4-2 折射式光學透鏡設計 49
4-3 設計結果比較 52
4-4 光學透鏡設計光形與符合ME4a光形比較 56
第五章結論 59
參考文獻 62
中英文名詞對照表 67

參考文獻

1. Commission Internationale de l’E’ clairage, Lighting of Roads for Motor and Pedestrian Traffic. (CIE 115:2010. Vienna: CIE 2010).
2. Waldram JM. “The development of street lighting in Great Britain. Transactions of the Illuminating Engineering Society”, 15:285–313 (1950).
3. British Standard Specification 307: Street Lighting (1927).
4. Jolley LBW, Waldram JM, and Wilson GH. “The Theory and Design of Illuminating Engineering Equipment”, London: Chapman and Hall Ltd. (1930).
5. van Bommel WJM, de Boer JB. “Road Lighting. Antwerp, Belgium: Kluwer Technische Boeken BV”, (1980).
6. Hargroves RA, Simons RH, and Simpson MD. “Development of a new code of practice for traffic routes”, Lighting Research and Technology; 18: 143–156 (1986).
7. British Standards Institution. “BS5489-2:1985 Draft Code of Practice for Road Lighting: Part 2,” London: BSI (1985).
8. Commission International de l’ E’ clairage, Recommendations for the Lighting of Roads for Motorized Traffic, CIE 12.2:1977. Vienna: CIE, 1977. (Note: superseded by CIE115:1995 and CIE115:2010).
9. British Standards Code of Practice (BSCP) 1004: 1974: Part 2 (Lighting for Traffic Routes (Group A). London: BSI, (1974).
10. Box PC, “Relationship between illumination and freeway accidents,” Illuminating Engineering. IERI Project 85-67 66(5): 365–393 (1971).
11. Gibbons R, Guo F, Medina A, Terry T, Du J, Lutkevich P, Corkum D, and Vetere P. “Guidelines for the Implementation of Reduced Lighting on Roadways,” Virginia Polytechnic Institute and State University, Blacksburg: Federal Highway Administration, Report no. FHWA HRT 14 050 (2014).
12. Commission International de l’ E’ clairage. Calculation and Measurement of Luminance and Illuminance in Road Lighting. CIE 30.2:1982. Vienna: CIE, 1982. (Note: superseded by CIE 140:2000).
13. Illuminating Engineering Society of North America. ANSI IESNA RP-8, Recommended Practice on Roadway Lighting. (New York, NY: IESNA, 1983).
14. Sorensen K., “Road Surface Reflection Data. Lyngby,” Denmark: The Danish Illuminating Engineering Laboratory, Report 10 (1975).
15. Hargroves RA, “Road lighting - as calculated and as in service,” Lighting Research and Technology; 13: 130–136 (1981).
16. Bodmann HW, and Schmidt HJ., “Road surface reflection and road lighting: Field investigations,” Lighting Research and Technology; 21: 159–170 (1989).
17. Fotios SA, Boyce PR, and Ellis CE., “The effect of pavement material on road lighting performance,” Lighting Journal; 71: 35–40 (2006).
18. Wanvik PO., “Effects of road lighting: An analysis based on Dutch accident statistics 1987-2006,” Accident Analysis and Prevention; 41: 123–128 (2009).
19. Yannis G, Kondyli A, and Mitzalis N., “Effect of lighting on frequency and severity of road accidents,” Proceedings of the Institution of Civil Engineers: Transport; 166(TR5): 271–281 (2013).
20. Jacket M, and Frith W., “Quantifying the impact of road lighting on road safety—A New Zealand study,” IATSS Research; 36: 139–145 (2013).
21. Adrian W., “Visibility of targets: Model for calculation.” Lighting Research and Technology; 21: 181–188 (1989).
22. Illuminating Engineering Society of North America, ANSI IESNA RP-8. Recommended Practice on Roadway Lighting. (New York, NY: IESNA, 2000).
23. Wikipedia website, “固態照明,” https://zh.wikipedia.org/wiki/%E5%9B%BA%E6%85%8B%E7%85%A7%E6%98%8E
24. 黃孟嬌, “由美國DOE研發計畫，看LED技術發展方向,” https://www.moea.gov.tw/MNS/doit/industrytech/IndustryTech.aspx?menu_id=13545&it_id=311
25. LEOTEK Inc., “GCJ J-Series Specification Sheet,” https://leotek.com/greencobra/gcj/
26. International Energy Agency, “Light’s labour’s lost : policies for energy- efficient lighting,” OECD/IEA, Paris (2006).
27. LEDinside, “全球白熾燈禁用時間表(2009.01),” http://www.ledinside.com.tw/knowledge/20090109-8979.html.
28. DOE, “Adoption of Light-Emitting Diodes in Common Lighting Applications,” SSL Report (2020).
29. CIE 31-1976 Glare and uniformity in road lighting installations. (1976).
30. Andreas Walkling and Christoph Schierz, “Adaptive road lighting : Is 2-LID road lighting for dry und wet roads useful?,” (2015).
31. H. Ries and J. A. Muschaweck, “Tailored freeform optical surfaces,” J. Opt. Soc. Am. A 19(3), 590–595 (2002).
32. R. A. Hicks, “Designing a mirror to realize a given projection,” J. Opt. Soc. Am. A 22(2), 323–330 (2005).
33. L. L. Doskolovich and S. I. Kharitonov, “Calculating the surface shape of mirrors for shaping an image in the form of a line,” J. Opt. Technol. 72(4), 318–321 (2005).
34. B. Parkyn and D. Pelka, “Free-form illumination lens designed by a pseudo-rectangular lawnmower algorithm,” Proc. SPIE 6338, 633808-7 (2006).
35. L. L. Doskolovich and M. A. Moiseev, “Calculations for refracting optical elements for forming directional patterns in the form of a rectangle,” J. Opt. Technol. 76(7), 430–434 (2009).
36. J. J. Chen and C. T. Lin, “Freeform surface design for a light-emitting diode–based collimating lens,” Opt. Eng. 49(9), 093001 (2010).
37. F. R. Fournier, W. J. Cassarly, and J. P. Rolland, “Fast freeform reflector generation using source-target maps,” Opt. Express 18, 5295–5304 (2010).
38. M. A. Moiseev, L. L. Doskolovich, and N. L. Kazanskiy, “Design of high-efficient freeform LED lens for illumination of elongated rectangular regions,” Opt. Express 19, A225-A233 (2011).
39. W. A. Parkyn and D. G. Pelka, “New TIR lens applications for light-emitting diodes,” Proc. SPIE 3139, 135–140 (1997).
40. F. Fournier and J. Rolland, “Optimization of freeform lightpipes for light-emitting-diode projectors” ,Appl. Optics 47, 957-966 (2008).
41. J. C. Chaves, W. Falicoff, B. Parkyn, P. Benítez, and J. C. Miñano, “Increased brightness by light recirculation through an LED source,” Proc. SPIE 7059, 705902 (2008).
42. H. J. Cornelissen, H. Ma, C. Ho, M. Li, and C. Mu, “Compact collimators for high brightness blue LEDs using dielectric multilayers,” Proc. SPIE 8123, 81230J (2011).
43. Xiaojia Hu and Keyuan Qian, “Optimal design of optical system for LED road lighting with high illuminance and luminance uniformity” ,APPLIED OPTICS / Vol. 52, No. 24 (2013).
44. Angel Pachamanov and Dessislava Pachamanova, “Optimization of the light distribution of luminaries for tunnel and street lighting“ ,Engineering Optimization Vol. 40, No. 1, January , 47–65 (2008).
45. Zexin Feng, Yi Luo, and Yanjun Han, “Design of LED freeform optical system for road lighting with high luminance/illuminance ratio” , OPTICS EXPRESS Vol. 18, No. 21 (2010).
46. CIE 1988 2° spectral luminous efficiency functions of photopic vision. (CIE Publication No. 86, 1988).
47. V. N. Mahajan, Optical Imaging and Aberrations: Part I Ray Geometrical Optics (SPIE PRESS, Washington, 1998).
48. E. F. Schubert, Light-Emitting Diodes (Cambridge University, 2006).
49. Y. Ding, X. Liu, Z. Zheng, and P. Gu, “Freeform LED lens for uniform illumination,” Opt. Express 16, 12958–12966 (2008).
50. Y. Liu, D. Ding, C. Leung, Y. Ho, and M. Lu, “Optical design of a high brightness LED street lamp,” Proc. SPIE 7635, 1–9 (2009).
51. Y. Luo, Z. Feng, Y. Han, and H. Li, “Design of compact and smooth free-form optical system with uniform illuminance for LED source,” Opt. Express 18, 9055–9063 (2010).
52. CIE Publication 140:2000 Road Lighting Calculations (2000).
53. 經濟部能源局，全臺設置LED路燈技術規範，中華民國一百零肆年。
54. EN 13201-1, Road lighting - Part 1: Guidelines on selection of lighting classes. (Österreichisches Normungsinstitut, 2004).
55. EN 13201-2, Road lighting - Part 2: Perfomance requirements. (Österreichisches Normungsinstitut, 2004)
56. DIALUX, “DIALux 4,” https://www.dialux.com/zh-CN/download.
57. 趙又嬋，社區戶外照明節能與綠色照明之研究，中華民國一百零肆年。
58. EN 13201-3, Road lighting - Part 3: Calculation of performance. (2004).
59. Synopsys Lighttools, https://www.synopsys.com/optical-solutions/lighttools.html.
60. ANSI LM63-2, ANSI/IESNA Standard File Format for the Electronic Transfer of Photometric Data and Related Information. (2002).
61. IEC LM-79,認定方法︰固態照明產品的電氣和光度測量，中華民國一百零玖年。
62. 經濟部標準檢驗局，CNS 15233「發光二極體道路照明燈具」國家標準的制定程序，中華民國一百零玖年。
63. Philips Inc., https://www.lighting.philips.com/main/prof/outdoor-luminaires#pfpath=0-OCOUTD_GR.
64. Cree Inc., https://www.creelighting.com/products/outdoor/street-and-roadway/xsp-series.
65. GE Inc., https://www.gecurrent.com/outdoor-lighting/led-roadway-street-lights.
66. Visual Template Tool., https://www.visual-3d.com/tools/template/
67. 李碩重，照明設計學，全華圖書股份有限公司，中華民國一百零捌年。
68. 林奇鋒， ”LED照明用之二次光學透鏡最佳化設計，” 科儀新知第三十三卷第六期，中華民國一百零捌年。
69. Lumileds Inc., https://www.lumileds.com/products/high-power-leds/luxeon-5050/.
70. Illuminating Engineering Society of North America. ANSI/IES RP-8-18, Recommended Practice for Lighting Roadway and Parking Facilities. (New York, NY: IESNA, chapter 10.6, 2018).
71. CIE Publication 144:2001, Road surface and road marking reflection characteristics (2001).
72. 交通部中央氣象局, https://e-service.cwb.gov.tw/HistoryDataQuery/index.jsp.
73. CIE International Commission on Illumination Publication 115, Recommendations for the lighting of roads for motor and pedestrian traffic. (CIE, Vienna 1995).

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

2021-9-27

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