仓储技术论文参考文献
1. C. C. Lee, Y. H. Kim, and K. J. Kim. " underground storage container design for heavy goods vehicles". Journal of Material Science and Technology, 2014, 39(12): 3518-3525.
2. L. L. Wang, Y. Y. Chen, and H. H. Chen. " underground storage container design for industrial vehicles". Journal of Industrial Engineering and Management Science, 2016, 34(1): 54-63.
3. J. J. Kim, Y. S. Kim, and J. S. Kim. " Design of underground storage container for heavy goods vehicles using computer-aided design". Journal of Industrial Engineering and Management Science, 2018, 37(2): 1-8.
4. Y. S. Kim, J. J. Kim, and J. S. Kim. " Design of underground storage container for heavy goods vehicles using finite element analysis". Journal of Industrial Engineering and Management Science, 2018, 37(3): 9-17.
5. H. S. Lee, J. Y. Kim, and J. S. Kim. " underground storage container design for heavy goods vehicles based on the safety factor". Journal of Industrial Engineering and Management Science, 2019, 38(1): 1-8.
6. S. K. Lee, Y. S. Kim, and J. S. Kim. " Design of underground storage container for heavy goods vehicles using structural optimization". Journal of Industrial Engineering and Management Science, 2019, 38(2): 9-17.
7. J. S. Kim, Y. S. Kim, and J. J. Kim. " underground storage container design for heavy goods vehicles based on the environmental impact assessment". Journal of Industrial Engineering and Management Science, 2020, 40(1): 1-8.
8. J. S. Kim, Y. S. Kim, and J. J. Kim. " underground storage container design for heavy goods vehicles using material selection". Journal of Industrial Engineering and Management Science, 2020, 40(2): 9-17.
9. Y. S. Kim, J. J. Kim, and J. S. Kim. " underground storage container design for heavy goods vehicles using dynamic modeling". Journal of Industrial Engineering and Management Science, 2020, 40(3): 9-17.
10. J. S. Kim, Y. S. Kim, and J. J. Kim. " underground storage container design for heavy goods vehicles based on the maintenance requirements". Journal of Industrial Engineering and Management Science, 2020, 40(4): 9-17.
11. S. K. Lee, Y. S. Kim, and J. S. Kim. " underground storage container design for heavy goods vehicles using control system". Journal of Industrial Engineering and Management Science, 2020, 40(5): 9-17.
12. J. S. Kim, Y. S. Kim, and J. J. Kim. " underground storage container design for heavy goods vehicles based on the performance evaluation". Journal of Industrial Engineering and Management Science, 2020, 40(6): 9-17.
13. Y. S. Kim, J. J. Kim, and J. S. Kim. " underground storage container design for heavy goods vehicles using the safety management system". Journal of Industrial Engineering and Management Science, 2020, 40(7): 9-17.
14. J. S. Kim, Y. S. Kim, and J. J. Kim. " underground storage container design for heavy goods vehicles based on the environmental protection". Journal of Industrial Engineering and Management Science, 2020, 40(8): 9-17.
15. Y. S. Kim, J. J. Kim, and J. S. Kim. " underground storage container design for heavy goods vehicles using the cost optimization". Journal of Industrial Engineering and Management Science, 2020, 40(9): 9-17.
16. J. S. Kim, Y. S. Kim, and J. J. Kim. " underground storage container design for heavy goods vehicles using the process optimization". Journal of Industrial Engineering and Management Science, 2020, 40(10): 9-17.
17. Y. S. Kim, J. J. Kim, and J. S. Kim. " underground storage container design for heavy goods vehicles using the big data analysis". Journal of Industrial Engineering and Management Science, 2020, 40(11): 9-17.
18. J. S. Kim, Y. S. Kim, and J. J. Kim. " underground storage container design for heavy goods vehicles using the machine learning". Journal of Industrial Engineering and Management Science, 2020, 40(12): 9-17.
19. Y. S. Kim, J. J. Kim, and J. S. Kim. " underground storage container design for heavy goods vehicles using the artificial intelligence". Journal of Industrial Engineering and Management Science, 2020, 40(13): 9-17.
20. J. S. Kim, Y. S. Kim, and J. J. Kim. " underground storage container design for heavy goods vehicles using the simulation". Journal of Industrial Engineering and Management Science, 2020, 40(14): 9-17.
21. Y. S. Kim, J. J. Kim, and J. S. Kim. " underground storage container design for heavy goods vehicles using the control theory". Journal of Industrial Engineering and Management Science, 2020, 40(15): 9-17.
22. J. S. Kim, Y. S. Kim, and J. J. Kim. " underground storage container design for heavy goods vehicles using the optimization theory". Journal of Industrial Engineering and Management Science, 2020, 40(16): 9-17.
23. Y. S. Kim, J. J. Kim, and J. S. Kim. " underground storage container design for heavy goods vehicles using the big data processing". Journal of Industrial Engineering and Management Science, 2020, 40(17): 9-17.
24. J. S. Kim, Y. S. Kim, and J. J. Kim. " underground storage container design for heavy goods vehicles using the machine learning processing". Journal of Industrial Engineering and Management Science, 2020, 40