[1]   Yu, R., Zhao, W. Li, Y. Rules and optimization-based topology and parameter synthesis of multi-speed 

      Ravigne aux automatic transmissions. J Braz. Soc. Mech. Sci. Eng. 2022，44, 334. https://doi.org/10.1007/s404

   30-022-03624-6

[2]   Li, Y., Zhao, W., Zhang, W., Chen, M. A dynamic model for engineering change propagations in multiple product 

     development stages. Artificial Intelligence for Engineering Design, Analysis and Manufacturing, 2022,36, E13. 

     doi:10.1017/S089006042100041X

[3]   Li Yuliang, et al. Resource-Constrained Scheduling of Design Changes based on Simulation of Change Propagation Process in the Complex Engineering Design. Research in Engineering Design, 2019, 30(1): 21-40.

[4]      Li Yuliang, et al., Simulation based scheduling of multiple change propagations in multistage product development processes. Expert Systems with Applications, 2017, 89, 1-19.

[5]     Li Yuliang, et al., A shortest path method for sequential change propagations in complex engineering design processes. Artificial Intelligence for Engineering Design, Analysis and Manufacturing, 2016, 30(1), 107-121.

[6]     Li Yuliang, et al., Automatic product conceptual optimization based on object-oriented performance components and graph grammars. Concurrent Engineering: Research & Applications.2015, 23(2), 145-165.

[7]     Li Yuliang, et al., A Design exploration method for resolving parameter coupling in engineering change propagation. International Journal of Design Engineering, 2011,4(3),220-243.

[8]     Li Yuliang, et al., An integrated change propagation scheduling approach for product design，Concurrent Engineering: Research & Applications，2014，22(4)，347-360.

[9]     Li Yuliang, et al., Scheduling of Changes in Complex Engineering Design Process Via Genetic Algorithm and Elementary Effects Method. Advances in Mechanical Engineering, 2014，1-13.

[10]     Li Yuliang, et al., A process oriented hybrid resource integration framework for product variant design. Transactions of ASME Journal of Computing and Information Science in Engineering, 2012, 12(4), 041005.

[11]      Li Yuliang, et al., A process simulation based method for scheduling product design change propagation. Advanced Engineering Informatics, 2012, 26(3), 529-538.

[12]    Li Yuliang, et al., A strategy for resolving evolutionary performance coupling at the early stages of complex engineering design. Journal of Engineering Design, 2011, 22(9), 603-626.

[13]    Li Yuliang, et al., Process template based flexible resource integration for product innovative reuse design. International Journal of Computer Integrated Manufacturing, 2011, 24(1), 53-73.

[15]   李玉良等，基于最小二乘的工程结构边界载荷反求误差消减方法，计算力学学报，2020，37（3），284-292。

[16]   李玉良等，结构边界载荷反向确定法分析推耙机结构疲劳, 农业工程学报, 2016, 32（4）, 62-68。