Optimization of control parameters of droplet density in citrus trees using UAVs and the Taguchi method
Abstract
Keywords: droplet density, citrus, Taguchi method, aerial spraying, unmanned aerial vehicle (UAV), plant protection
DOI: 10.25165/j.ijabe.20191204.4139
Citation: Hou C J, Tang Y, Luo S M, Lin J T, He Y, Zhuang J J, et al. Optimization of control parameters of droplet density in citrus trees using UAVs and the Taguchi method. Int J Agric & Biol Eng, 2019; 12(4): 1–9.
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Damalas C A, Eleftherohorinos I G. Pesticide exposure, safety issues, and risk assessment indicators. International Journal of Environmental Research and Public Health , 2011 ; 8: 1402–1419.
Li J, Lu H, Yang Z, Lü E L. Orchard Facilities and Equipment for Litchi and Longan in China. ASABE Annual International Meeting, St. Joseph, Mich., 2011; pp.1–7.
He X K, Bonds J, Herbst A, Langenakens J. Recent development of unmanned aerial vehicle for plant protection in East Asia. Int J Agric & Biol Eng, 2017; 10(3): 18–30.
Costa F G, Ueyama J, Braun T, Pessin G, Osório F S, Vargas P A. The use of unmanned aerial vehicles and wireless sensor network in agricultural applications. 2012 IEEE International Geoscience and Remote Sensing Symposium, 2012; pp. 5045–5048.
Yang S L, Yang X B, Mo J Y. The application of unmanned aircraft systems to plant protection in China. Precision Agriculture, 2018; 19(2): 278–292.
Gao Y Y, Zhang Y T, Zhao Y C, Li X H, Yang D B, Yuan H Z. Primary studies on spray droplet distribution and control effects of aerial spraying using unmanned aerial vehicle (UAV) against the corn borer. Plant Protection, 2013; 39: 152–157.
Zheng Y J, Yang S H, Zhao C J, Chen L P, Lan Y B, Tan Y. Modelling operation parameters of UAV on spray effects at different growth stages of corns. Int J Agric & Biol Eng, 2017; 10(3): 57–66.
Chen S D, Lan Y B, Li J Y, Zhou Z Y, Liu A M, Mao Y D. Effect of wind field below unmanned helicopter on droplet deposition distribution of aerial spraying. Int J Agric & Biol Eng, 2017; 10(3): 67–77.
Qin W C, Qiu B J, Xue X Y, Chen C, Xu Z F, Zhou Q Q. Droplet deposition and control effect of insecticides sprayed with an unmanned aerial vehicle against plant hoppers. Crop Protection, 2016; 85: 79–88.
Xue X Y, Tu K, Qin W C, Lan Y B, Zhang H H. Drift and deposition of ultra-low altitude and low volume application in paddy field. Int J Agric & Biol Eng, 2014; 7(4): 23–28.
Zhou L P, He Y. Simulation and optimization of multi spray factors in UAV. 2016 ASABE Annual International Meeting, St. Joseph, Mich., 2016; pp.1–8.
Hewitt A. Droplet size and agricultural spraying, Part I: Atomization, spray transport, deposition, drift, and droplet size measurement techniques. Atomization and Sprays, 1997; 7: 235–244.
Gao Y, Zhang Y L, Zhang N Q, Niu L, Zheng W, Yuan H. Primary studies on spray droplets distribution and control effects of aerial spraying using unmanned aerial vehicle (UAV) against wheat midge. Crops, 2013; 2: 139–142.
Xue X Y, Lan Y B, Sun Z, Chang C, Hoffmann W C. Develop an unmanned aerial vehicle based automatic aerial spraying system. Computers and Electronics in Agriculture, 2016; 128: 58–66.
Zhang P, Wang K, Lyu Q, He S, Yi S, Xie R, et al. Droplet distribution and control against citrus leafminer with uav spraying. International Journal of Robotics and Automation, 2017; 32: 299–307.
Derksen R C, Krause C R, Fox R D, Brazee R D, Zondag R. Effect of application variables on spray deposition, coverage, and ground losses in nursery tree applications. Journal of Environmental Horticulture, 2006; 24: 45–52.
Carmita C N. Optimization of cutting parameters for minimizing energy consumption in turning of AISI 6061 T6 using Taguchi methodology and ANOVA. Journal of Cleaner Production, 2013; 53: 195–203.
Yang W P, Tarng Y S. Design optimization of cutting parameters for turning operations based on the Taguchi method. Journal of Materials Processing Technology, 1998; 84: 122–129.
Phadke M S. Quality engineering using robust design. Prentice Hall PTR, 1995.
Nguyen N K. A note on the construction of near-orthogonal arrays with mixed levels and economic run size. Technometrics, 1996; 38: 279–283.
Wendelberger J R, Moore L M, Hamada M S. Making tradeoffs in designing scientific experiments: A case study with multi-level factors. Quality Engineering, 2009; 21: 143–155.
Balki M K, Sayin C, Sarıkaya M. Optimization of the operating parameters based on Taguchi method in an SI engine used pure gasoline, ethanol and methanol. Fuel, 2016; 180: 630–637.
Asiltürk I, Neşeli S. Multi response optimisation of CNC turning parameters via Taguchi method-based response surface analysis. Measurement, 2012; 45: 785–794.
Ficici F, Durat M, Kapsiz M. Optimization of tribological parameters for a brake pad using Taguchi design method. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 2014; 36: 653–659.
Gopalsamy B M, Mondal B, Ghosh S. Taguchi method and ANOVA: An approach for process parameters optimization of hard machining while machining hardened steel. Journal of Scientific & Industrial Research, 2009; 68: 686–695.
Shahavi M H, Hosseini M, Jahanshahi M, Meyer R L, Darzi G N. Clove oil nanoemulsion as an effective antibacterial agent: Taguchi optimization method. Desalination and Water Treatment, 2016; 57: 18379–18390.
Zhang P, Deng L, Lyu Q, He S L, Yi S L, Liu Y D, et al. Effects of citrus tree-shape and spraying height of small unmanned aerial vehicle on droplet distribution. Int J Agric & Biol Eng, 2016; 9(4): 45–52.
Zhou N, Pierre J W, Trudnowski D. A stepwise regression method for estimating dominant electromechanical modes. IEEE Transactions on Power Systems, 2012; 27: 1051–1059.
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