References
[1]. An, H. F. (2018). Development and design of remote monitoring system for agricultural machinery Operation [J]. Agricultural Science and Technology and Assembly (1), 47-49.
[2]. Li, Y. (2018). Problems existing in the application of remote monitoring system for deep Loose operation of agricultural machinery and suggestions for improvement [J]. Agricultural Machinery Operation and Maintenance (8), 95.
[3]. Zhao, P. Y. (2020). Research on digital design of agricultural machinery based on mathematical modeling [J]. Journal of Agricultural Mechanization Research 42(10), 243-246.
[4]. Li, Y. Q. (2019). Research on the application of dynamic optimization method in agricultural machinery design [J]. Journal of Shandong University of Agricultural Engineering 36(6), 13-14.
[5]. Ma, C. (2020). Application analysis of modern digital design and manufacturing technology in agricultural machinery design and manufacturing [J]. Internal Combustion Engine and Accessories (2), 232-233.
[6]. Luo, Z. J. (2018). Application of virtual prototype technology in agricultural machinery design [J]. Southern Agricultural Machinery 49(24), 76+78.
[7]. Shen, C. J., Kong, X. J. and Gao, S. H. (2006). Application of modern design technology in agricultural machinery engineering design [J]. Agricultural Mechanization Research (6), 189-191.
[8]. Gao, G. Z. and Ma, M. Y. (2020). Discussion on application of bionic design in agricultural machinery design [J]. Guangxi Agricultural Mechanization (3), 25-26.
[9]. Wang, H., Jin, J. and Zhang, X. Y., et al. (2022). Development and design of agricultural machinery operation monitoring system [J]. Agricultural Development & Assembly (3), 50-52.
[10]. Yuan, Y., Li, S. W. and Wang, W. W., et al. (2007). Application of software platform in remote monitoring system of orchard ecological environment [J]. Transactions of the Chinese Society of Agricultural Engineering (6), 186-188.
Cite this article
Liang,B. (2023). Research on digital production of agricultural machinery based on mathematical modeling. Applied and Computational Engineering,9,254-258.
Data availability
The datasets used and/or analyzed during the current study will be available from the authors upon reasonable request.
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References
[1]. An, H. F. (2018). Development and design of remote monitoring system for agricultural machinery Operation [J]. Agricultural Science and Technology and Assembly (1), 47-49.
[2]. Li, Y. (2018). Problems existing in the application of remote monitoring system for deep Loose operation of agricultural machinery and suggestions for improvement [J]. Agricultural Machinery Operation and Maintenance (8), 95.
[3]. Zhao, P. Y. (2020). Research on digital design of agricultural machinery based on mathematical modeling [J]. Journal of Agricultural Mechanization Research 42(10), 243-246.
[4]. Li, Y. Q. (2019). Research on the application of dynamic optimization method in agricultural machinery design [J]. Journal of Shandong University of Agricultural Engineering 36(6), 13-14.
[5]. Ma, C. (2020). Application analysis of modern digital design and manufacturing technology in agricultural machinery design and manufacturing [J]. Internal Combustion Engine and Accessories (2), 232-233.
[6]. Luo, Z. J. (2018). Application of virtual prototype technology in agricultural machinery design [J]. Southern Agricultural Machinery 49(24), 76+78.
[7]. Shen, C. J., Kong, X. J. and Gao, S. H. (2006). Application of modern design technology in agricultural machinery engineering design [J]. Agricultural Mechanization Research (6), 189-191.
[8]. Gao, G. Z. and Ma, M. Y. (2020). Discussion on application of bionic design in agricultural machinery design [J]. Guangxi Agricultural Mechanization (3), 25-26.
[9]. Wang, H., Jin, J. and Zhang, X. Y., et al. (2022). Development and design of agricultural machinery operation monitoring system [J]. Agricultural Development & Assembly (3), 50-52.
[10]. Yuan, Y., Li, S. W. and Wang, W. W., et al. (2007). Application of software platform in remote monitoring system of orchard ecological environment [J]. Transactions of the Chinese Society of Agricultural Engineering (6), 186-188.