Optimum Design of LED Plant Light Source Based on Taguchi Method

FU Min; WEN Shang-sheng; ZHONG Hui-ting; MA Bing-xu; CHEN Hao-wei

doi:10.3788/fgxb20173807.0953

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Optimum Design of LED Plant Light Source Based on Taguchi Method

更新时间：2020-08-12

- Optimum Design of LED Plant Light Source Based on Taguchi Method
- Chinese Journal of Luminescence Vol. 38, Issue 7, Pages: 953-959(2017)
- 作者机构：
  
  1. 华南理工大学聚合物新型成型装备国家工程研究中心, 广东广州 510640
  2. 华南理工大学发光材料与器件国家重点实验室,广东广州,510640
- 作者简介：
- 基金信息：
  
  Supported by Guangdong Province and Guangzhou Science and Technology Project (2015B0
- DOI：10.3788/fgxb20173807.0953
  CLC： TN402
- Received：15 December 2016，
  
  Revised：19 March 2017，
  
  Published：05 July 2017
- 稿件说明：
移动端阅览
符民, 文尚胜, 钟惠婷等. 基于Taguchi方法的LED植物光源优化设计[J]. 发光学报, 2017,38(7): 953-959

FU Min, WEN Shang-sheng, ZHONG Hui-ting etc. Optimum Design of LED Plant Light Source Based on Taguchi Method[J]. Chinese Journal of Luminescence, 2017,38(7): 953-959
符民, 文尚胜, 钟惠婷等. 基于Taguchi方法的LED植物光源优化设计[J]. 发光学报, 2017,38(7): 953-959 DOI： 10.3788/fgxb20173807.0953.

FU Min, WEN Shang-sheng, ZHONG Hui-ting etc. Optimum Design of LED Plant Light Source Based on Taguchi Method[J]. Chinese Journal of Luminescence, 2017,38(7): 953-959 DOI： 10.3788/fgxb20173807.0953.

摘要

为了提高LED植物光源的有效利用率，基于Taguchi的实验方法对LED植物红蓝光源阵列进行设计和优化。用MATLAB软件编程进行仿真模拟，通过ANOVA方法分析得出对植物光源照射距离为10 cm处的红蓝光的光子数比值（

R/B

）分布均匀度影响最大的因子，并对试验最优结果采用TracePro光学软件进行试验验证，从而获得本次试验最佳的参数组合。结果表明：曲率半径为50 mm的凹形曲面底板的圆心加点排布方式，圆心为LED蓝光芯片，圆环上为LED红光芯片，芯片数量分别为6个LED红光芯片和1个LED蓝光芯片，芯片距离为10 mm的最优化组合是本次试验的最优组合。通过ANOVA方法分析得出，LED红蓝芯片之间的间距对植物光源的

R/B

的均匀分布影响最大，占有35.17%的比例，LED红蓝芯片的排布方式也不可忽略，因为其占有了28.05%的影响比例。

Abstract

In order to improve the efficiency of LED plant light source

the LED array of red and blue light source was designed and optimized based on Taguchi method. The work was simulated by MATLAB software

then the largest influential factor which influenced on the ratio distribution of red and blue light photon numbers (

R/B

) at a distance of 10 cm from the plant light source was analyzed by ANOVA method. At last

the best results were tested by TracePro optics software. The results show that the optimal combination consists by the arrangement of one blue LED chip on the center and six red LED chips on the ring on the concave surface with the curvature radius of 50 mm

and the distance of LED chips is 10 mm. The distance of LED chips has the greatest impact on the distribution of

R/B

accounting for 35.17%. Of course

the arrangement of LED chips can not be ignored

because it occupies 28.05% of the impact of the ratio.

关键词

Keywords

references

杨其长, 徐志刚, 陈弘达, 等. LED光源在现代农业的应用原理与技术进展[J]. 中国农业科技导报, 2011, 13(5):37-43. YANG Q C, XU Z G, CHEN H D, et al.. Application principle and technology progress in using light emitting diode (LED) light sources in modern agriculture[J]. J. Agric. Sci. Technol., 2011, 13(5):37-43. (in Chinese)

史晨阳, 文尚胜, 陈颖聪. 基于Taguchi方法的曲面LED阵列照度问题研究[J]. 发光学报, 2015, 36(3):348-354. SHI C Y, WEN S S, CHEN Y C. Study on curved surface LED array illumination problem based on Taguchi method[J]. Chin. J. Lumin., 2015, 36(3):348-354. (in Chinese)

杨其长, 张成波. 植物工厂概论[M]. 北京:中国农业科学技术出版社, 2005. YANG Q C, ZHANG C B. An Introduction to Plant Factory[M]. Beijing:Chinese Agricultural Science and Technology Press, 2005. (in Chinese)

潘瑞炽, 王小菁, 李娘辉. 植物生理学[M]. 7版. 北京:高等教育出版社, 2012. PAN R C, WANG X J, LI N H. Plant Physiology[M]. 7th ed. Beijing:Higher Education Press, 2012. (in Chinese)

OUZOUNIS T, HEUVELINK E, JI Y, et al.. Blue and red LED lighting effects on plant biomass, stomatal conductance, and metabolite content in nine tomato genotypes[C]. Ⅷ International Symposium on Light in Horticulture 1134, East Lansing, Michigan, USA, 2016:251-258.

MATSUDA R, YAMANO T, MURAKAMI K, et al.. Effects of spectral distribution and photosynthetic photon flux density for overnight LED light irradiation on tomato seedling growth and leaf injury[J]. Sci. Hortic., 2016, 198:363-369.

HUNG N K, NGOC P B, THU HIEN N T, et al.. Study on the effects of led light on physiological and morphological characteristics of dang shen (Codonopsis sp.) growth in in vitro condition[J]. Tap. Chi. Sinh. Hoc., 2016, 38(2), doi:10.15625/0866-7160/v38n2.7106.

PINHO P, JOKINEN K, HALONEN L. The influence of the LED light spectrum on the growth and nutrient uptake of hydroponically grown lettuce[J]. Light. Res. Technol., 2016, doi:10.1177/1477153516642269.

符民, 文尚胜, 陈浩伟, 等. 基于LSD分析LED多重光质配比对芦荟生长的影响[J]. 发光学报, 2016, 37(3):366-371. FU M, WEN S S, CHEN H W, et al.. LSD analysis based on multiple LED light quality ratio on growth of aloe[J]. Chin. J. Lumin., 2016, 37(3):366-371. (in Chinese)

周国泉, 郑军, 周益民, 等. 温室植物生产用LED组合光源的优化设计[J]. 光电子激光, 2008, 19(10):1319-1323. ZHOU G Q, ZHENG J, ZHOU Y M, et al.. Optimal design of LED assembled light source used in the production of greenhouse plant[J]. J. Opt. Laser, 2008, 19(10):1319-1323. (in Chinese)

钱可元. LED近场光学模型与直下式背光源透镜的设计优化[J]. 光学学报, 2015, 35(5):052201-1-8. QIAN K Y. Near field optical modeling of LED and design optimization for direct-type backlight optical system[J]. Acta Opt. Sinica, 2015, 35(5):052201-1-8. (in Chinese)

CHEN Y C, WEN S S, SONG P C. Design of a backlight module with a freeform surface by applying the Taguchi method[J]. Chin. Opt. Lett., 2015, 13(3):032302-1-5.

陈浩伟, 文尚胜, 马丙戌, 等. 光量子学下适用于植物照明的自由曲面LED光源设计[J]. 光学学报, 2017, doi:10.3788/aos201737.0222001. CHEN H W, WEN S S, MA B X, et al.. Design of plant lighting LED lamp with freeform surface substrate based on light quantum theory[J]. Acta Opt. Sinica, 2017, doi:10.3788/aos201737.0222001. (in Chinese)

WHANG A J W, CHEN Y Y, TENG Y T. Designing uniform illumination systems by surface-tailored lens and configurations of LED arrays[J]. J. Dis. Technol., 2009, 5(3):94-103.

QIN Z, WANG K, CHEN F, et al.. Analysis of condition for uniform lighting generated by array of light emitting diodes with large view angle[J]. Opt. Exp., 2010, 18(16):17460-17476.

MORENOI, AVENDAO-ALEJO M, TZONCHEV R I. Designing light-emitting diode arrays for uniform near-field irradiance[J]. Appl. Opt., 2006, 45(10):2265-2272.

SU Z P, XUE D L, JI Z C. Designing LED array for uniform illumination distribution by simulated annealing algorithm[J]. Opt. Exp., 2012, 20(S6):A843-A855.

赵芝璞, 季凌燕, 沈艳霞, 等. 基于PSO粒子群算法的LED照明系统光照均匀性研究[J]. 发光学报, 2013, 34(12):1677-1682. ZHAO Z P, JI L Y, SHEN Y X, et al.. Research of illumination uniformity for LED arrays based on PSO algorithm[J]. Chin. J. Lumin., 2013, 34(12):1677-1682. (in Chinese)

JAO R C, FANG W. Simulation of light environment under blue and red LEDs[J]. J. Agric. Mach., 2000:51-63.

FANG Y C, TZENG Y F, LI S X. Multi-objective design and extended optimization for developing a miniature light emitting diode pocket-sized projection display[J]. Opt. Rev., 2008, 15(5):241-250.

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