AN AUTOMATIC SORTING SYSTEM FOR GREEN LEAFY VEGETABLE HARVESTING

Huisong Gao, Jinlin Xue, and Weihao Gu

References

  1. [1] M.I. Gil, Preharvest factors and fresh-cut quality of leafy vegetables, Acta Horticulturae, 1141, 2016, 57–64.
  2. [2] J. Wang, D. Du, J. Hu, and J. Zhu, Vegetable mechanized harvesting technology and its development, Transactions of the Chinese Society for Agricultural Machinery, 45(2), 2014, 81–87.
  3. [3] M.I. Gil, M.V. Selma, T. Suslow, L. Jacxsens, M. Uyttendaele, and A. Allende, Pre- and post-harvest preventive measures and intervention strategies to control microbial food safety hazards of fresh leafy vegetables, Critical Reviews in Food Science & Nutrition, 55(4), 2015, 453–468.
  4. [4] E.S. Shepardson, E.D. Markwardt, W.F. Millier, and G.E. Rehkugler, Mechanical harvesting of fruits and vegetables, College of Agriculture & Life Sciences, 5, 1970, 2–12.
  5. [5] M. Hachiya, T. Amano, M. Yamagata, and M. Kojima, Development and utilization of a new mechanized cabbage harvesting system for large fields, JARQ – Japan Agricultural Research Quarterly, 38(2), 2014, 300–304.
  6. [6] K. Yamamoto, Cabbage harvester, Journal of JSAM, 59, 1997, 147–149.
  7. [7] J.T. Hong, Y. Choi, J.H. Sung, Y.K. Kim, and K.M. Lee, Design factors for Chinese cabbage harvester attachable to tractors, Journal of Korean Society of Steel Construction, 26(4), 2001, 337–354.
  8. [8] V.N. Nang and S. Yamane, Development of prototype harvester for head lettuce, Engineering in Agriculture Environment & Food, 8(1), 2014, 18–25.
  9. [9] Y. Chida, Development of an automatic harvester of spinach based on passive handling, Journal of the Japan Society for Precision Engineering, 81(9), 2015, 815–818.
  10. [10] S. Hong, Development of welsh onion harvester for tractor, Journal of Biosystems Engineering, 39(4), 2014, 290–298.
  11. [11] H.J. Jun, S.H. Kim, J.T. Hong, and Y. Choi, Cutting and conveying characteristics for development of Chinese leek harvester, Journal of Biosystems Engineering, 30(4), 2005, 220–228.
  12. [12] X. Gai, H. Liu, L. Zhai, et al., Vegetable yields and soil biochemical properties as influenced by fertilization in southern China, Applied Soil Ecology, 107, 2016, 170–181.
  13. [13] X. Li, F. Wang, W. Guo, Z. Gong, and J. Zhang, Influencing factor analysis of cabbage root cutting force based on orthogonal test, Transactions of the Chinese Society of Agricultural Engineering, 29(10), 2013, 42–48.
  14. [14] H. Lu, J. Lv, W. Jin, P. Zhang, Z. Wu, and Y. Chen, The current situation of the mechanized harvesting technology development of leaf vegetable in China, Journal of Agricultural Mechanization Research, 6, 2018, 261–268.
  15. [15] M. Sinecen, R. Temizkan, and C. Caner, Investigation of the morphological and color changes of damaged green plums during storage time using digital image processing techniques, Gazi University Journal of Science, 28(1), 2015, 133–139.
  16. [16] M. Wang and H. Wang, An adaptive attitude algorithm based on a current statistical model for maneuvering acceleration, Chinese Journal of Aeronautics, 30(1), 2017, 426–433.
  17. [17] W. Sun and Y. Yang, Adaptive maneuvering frequency method of current statistical model, IEEE/CAA Journal of Automatica Sinica, 4(1), 2017, 154–160.
  18. [18] W. Zhao, H. Li, L. Zou, and R. Yuan, Adaptive and robust singular value decomposition aided cubature Kalman filter with chi-square test, Control & Intelligent Systems, 44(1), 2016, 36–43
  19. [19] Z. Farnaz, H.S. Sajith, A.D. Abeysekara, S. Welikala, and L. Samaranayake, DC motor torque control using state estimation, Control & Intelligent Systems, 44(3), 2016, 130–138.

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