A novel detection method of spray droplet distribution based on LIDARs
Abstract
Keywords: droplets, distribution, detection, agricultural aviation, UAV
DOI: 10. 25165/j.ijabe.20171004.3118
Citation: Zheng Y J, Yang S H, Lan Y B, Hoffmann C, Zhao C J, Chen L P, et al. A novel detection method of spray droplet distribution based on LIDARs. Int J Agric & Biol Eng, 2017; 10(4): 54–65.
Keywords
Full Text:
PDFReferences
Qin W C, Xue X Y, Zhou L X, Zhang S C, Sun Z, Kong W, et al. Effects of spraying parameters of unmanned aerial vehicle on droplets deposition distribution of maize canopies. Transactions of the CSAE, 2014; 30(5): 50–56. (in Chinese )
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.
Ru Y, Jin L, Zhou H P, Jia Z C. Charging characteristics of droplets effect on the distribution and adhesion of droplets on target. Journal of Nanjing Forestry University (Natural Sciences Edition), 2014; 38(3): 129–133. (in Chinese)
Song S R, Hong T S, Wang W X, Zhang H X, Luo X W, Francis S. Testing analysis on deposit and distribution of pesticide spraying in rice fields. Transactions of the CSAM, 2004; 35(6): 90–93. (in Chinese )
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.
Qin W C, Xue X Y, Cui L F, Zhou Q Q, Xu Z F, Chang F L. Optimization and test for spraying parameters of cotton defoliant sprayer. Int J Agric & Biol Eng, 2016; 9(4): 63–72.
Bonds J A, Mulla C, Hunter E. Characterization of the effects of droplet size, air blast strength, and angle on spray distribution and efficacy of a buffalo turbine barrier treatment sprayer. Journal of ASTM International, 2011; 8(5): 1–6.
Wolf R E. Comparing downwind spray droplet deposits of four flat-fan nozzle types measured in a wind tunnel and analyzed using dropletscan software. Applied Engineering in Agriculture, 2005; 21(2): 173–177.
De Boer D W, Monnens M J, Kincaid D C. Measurement of sprinkler droplet size. Transactions of the ASABE, 2001; 17(1): 11–15.
Guan X P. Effects of Operating Parameters for Unmanned Aerial Vehicles on Spraying Deposition. Hubei Agricultural Sciences, 2014; 53(3): 678–680. (in Chinese).
Qiu B J, Wang L W, Cai D L, Wu J H, Ding G R, Guan X P. Effects of flight altitude and speed of unmanned helicopter on spray deposition uniform. Transactions of the CSAE, 2013; 29(24): 25–32. (in Chinese)
Foqué D, Nuyttens D. Effect of air support and spray angle on coarse droplet sprays in ivy pot plants. Transactions of the ASABE, 2011; 54(2): 409–416.
Qi L J, Hu K Q, Mang L, Wang H T. Droplet detection based on image processing. Transactions of the CSAM, 2009; 40(Supp.1): 48–51. (in Chinese)
Lu J, Li P P, Qiu B J, Jia W D. Analysis of charged droplet characteristics and deposition motion in agricultural high voltage electrostatic spraying field. High Voltage Engineering, 2009; 35(5): 1077–1082. (in Chinese)
Salyani M, Fox R D. Performance of image analysis for assessment of simulated spray droplet distribution. Transactions of the ASAE, 1994; 37(4): 1083–1089.
Zhang H C, Dorr Gary, Zheng J Q, Zhou H P. Wind tunnel experiment of influence on droplet size distribution of flat fan nozzles. Transactions of the CSAM, 2012; 43(6): 53–57. (in Chinese ).
Wedding J B, Kim Y J. Wind tunnel characterization of aerial spray nozzles using the laser particle spectral analyzer. Optical Engineering, 1986; 25(4): 556–560.
Sidahmed M M, Yates W E. Measuring spray droplets with PMS-FSSP probes. Transactions of the ASAE, 1997; 40(5): 1237–1242.
Endalew A M, Debaer C, Rutten N, Vercammen J, Delele M A, Ramon H, et al. A new integrated CFD modelling approach towards air-assisted orchard spraying. Part I. Model development and effect of wind speed and direction on sprayer airflow. Computers and Electronics in Agriculture, 2010; 71(2): 128–136.
Crowe T G, Downey D, Giles D K. Digital device and technique for sensing distribution of spray deposition. Transactions of the ASAE, 2005; 48(6): 2085–2093.
Zheng Y J, Lan Y B, Kang F, Ma C, Chen H, Tan Y. Using laser sensor for measuring crop conditions in precision agriculture. 2013 ASABE Annual International Meeting, 2013: 2595–2602.
Shao Q, Xu T, Yoshino T, Zhao Y, Yang W, Zhu H. Point
cloud online measurement of stored bulk grain. Int J Agric & Biol Eng, 2016; 9(1): 71–78.
Zhao T, Noguchi N, Yang L L, Ishii K, Chen J. Development of uncut crop edge detection system based on laser rangefinder for combine harvesters. Int J Agric & Biol Eng, 2016; 9(2): 21–28.
Wang Y X, Xu S S, Li W B, Kang F, Zheng Y J. Identification and location of grapevine sucker based on information fusion of 2D laser scanner and machine vision. Int J Agric & Biol Eng, 2017; 10(2): 84–93.
Zhang Y Y. Zhou J. Laser Radar Based Orchard Trunk Detection. Journal of China Agricultural University, 2015; 20(5): 249–255. (in Chinese)
Xue J L, Zhang S S. Navigation of an agricultural robot based on laser radar. Transactions of the CSAM, 2014; 45(9): 55–60. (in Chinese)
SICK Company. The laser scanning and measurement system: Area scan and profile measurement. 1–62. (in Chinese)
Copyright (c)