Huisong Gao, Jinlin Xue, and Weihao Gu
[1] M.I. Gil, Preharvest factors and fresh-cut quality of leafy vegetables, Acta Horticulturae, 1141, 2016, 57–64. [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] 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] 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] 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] K. Yamamoto, Cabbage harvester, Journal of JSAM, 59, 1997, 147–149. [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] V.N. Nang and S. Yamane, Development of prototype harvester for head lettuce, Engineering in Agriculture Environment & Food, 8(1), 2014, 18–25. [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] S. Hong, Development of welsh onion harvester for tractor, Journal of Biosystems Engineering, 39(4), 2014, 290–298. [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] 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] 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] 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] 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] 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] 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] 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] 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.
Important Links:
Go Back
