Graduated from the School of Mechanical Engineering of Shanghai Jiao Tong University with a PhD in 2018. After post-doctor, got the faculty position as an associate professor in the School of Design of Shanghai Jiao Tong University in 2021. Taking in charge of and participating in a number of scientific research projects, including the Youth Project of NSFC, the China Postdoctoral Science Foundation project, the Major Project of NSSFC, the Key Project of NSFC, the Special Project of Innovative Methods of the Ministry of Science and Technology of the People's Republic of China, and the Key Project of Soft Science of Shanghai Science and Technology Commission. The scientific research project "Research on the AI-based product design theory in the distributed resource environment" won the first Shanghai "Super Postdoctoral" Incentive Program. Published more than 10 SCI papers, and won the "Best Paper" Award in the 10th International Axiomatic Design Conference.
1. 2018, first Shanghai "Super Postdoctoral" Incentive Program.
2. 2016, "Best Paper" Award in the 10th International Axiomatic Design Conference
[1] Chen B, Hu J, Chen W, Qi J. Scalable multi-process inter-server collaborative design synthesis in the Internet distributed resource environment. Advanced Engineering Informatics, 2021, 47: 101251.(SCI)
[2] Chen B, Hu J, Qi J, Chen W. Concurrent multi-process graph-based design component synthesis: Framework and algorithm. Engineering Applications of Artificial Intelligence, 2021, 97: 104051.(SCI)
[3] Chen B, Hu J, Qi J, Chen W. A computer-aided approach improving the Axiomatic Design theory with the distributed design resource environment. AI EDAM-Artificial Intelligence for Engineering, Design, Analysis and Manufacturing, 2020, 34(1): 80-103.(SCI)
[4] Chen B, Hu J, Chen W, Qi J. Geometrical analysis of the connecting beam mandala: a planar deployable mechanism. Journal of Mechanisms and Robotics - Transactions of the ASME, 2020, 12(1): 011009.(SCI)
[5] Chen B, Hu J, Chen W. DRE-based semi-automation of the axiomatic design transformation: from the functional requirement to the design. Journal of Engineering Design, 2019, 30(7): 255-287.(SCI)
[6] Chen, B. Conceptual design synthesis based on series-parallel functional unit structure. Journal of Engineering Design, 2018, 29(3): 87-130.(SCI)
[7] Chen B, Xie Y. A computational approach for the optimal conceptual design synthesis based on the distributed resource environment. International Journal of Production Research, 2017, 55(20): 5881-5901.(SCI)
[8] Chen B, Xie Y. Functional knowledge integration of the design process. Science China Technological Sciences, 2017, 60(2): 209-218.(SCI)
[9] Chen B, Xie Y. A knowledge resource acquisition system for the product life cycle. Journal of Engineering Research, 2017, 5(4): 155-168.(SCI)
[10] Chen B, Xie Y. A computer-assisted automatic conceptual design system for the distributed multi-disciplinary resource environment. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, 2017, 231(6): 1094-1112.(SCI)
[11] Chen B, Xie Y. A function unit integrating approach for the conceptual design synthesis in the distributed resource environment. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, 2018, 232(5): 759-774.(SCI)
[12] Chen B, Xie Y. A complex-number-domain-based conceptual design synthesis for multidisciplinary products. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, 2017, 231(7): 1292-1307.(SCI)
[13] Chen B, Liu J, Xie Y. An improved axiomatic design approach in distributed resource environment, Part 2: Algorithm for functional unit chain set generation. Procedia CIRP, 2016, 53: 44-49.(EI)
[14] Chen B, Hu J, Chen W. A graph-based computerized optimal conceptual design synthesis within the distributed multi-disciplinary resource environment. Journal of Engineering Research.(SCI, Accepted)
[15] J Liu, B Chen, Y B Xie. An Improved Axiomatic Design Approach in Distributed Resource Environment, Part 1: Toward Functional Requirements to Design Parameters Transformation. Procedia CIRP, 2016, 53: 35-43.(EI)
[16] W Chen, F Gao, X Meng, B Chen, A Ren. W2P: A high-power integrated generation unit for offshore wind power and ocean wave energy. Ocean Engineering, 2016, 128:41-47.(SCI)
[17] P Qiu, R Sun, G Gao, B Chen, C Zhang, T Yin, J Zhang, S Fang, D Cui. Hydrothermal Targeted-Explosion Synthesis of Hollow/Porous Upconversion Nano- and Microcrystals with Potential for Luminescent Displays and Biological Imaging. Chemnanomat, 2015, 1(2):128–134.(SCI)
[18] P Qiu, R Sun, G Gao, C Zhang, B Chen, N Yan, T Yin, Y Liu, J Zhang, Y Yang, D Cui. An anion-induced hydrothermal oriented-explosive strategy for the synthesis of porous upconversion nanocrystals. Journal of Clinical Hepatology, 2011, 5(5):456.(SCI)
[19] P Qiu, R Sun, G Gao, T Yin, Y Shen, B Chen, K Wang, C Zhang, X Qian, D Cui. Crystal cell oriented-rotation triggered phase transition of porous upconversion nanocrystals synthesis in hydrothermal system. Journal of Materials Chemistry B, 2015, 3(19):3948-3958.(SCI)
[20] B Chen, W Chen. Distributed design resource integration system. License No.:2019SR0015284. (Software Copyright)
[21] B Chen, W Chen. Functional design resource management and synthesis system. License No.:2019SR0015384. (Software Copyright)
1. 2019-2021,Youth Project of NSFC:Research on the cellular-automata-based integration method for the distributed design resources,take in charge
2. 2018-2020,China Postdoctoral Science Foundation:Research on the method of the multi-process concurrent design synthesis within the cloud resource environment,take in charge
3. 2018-2020,Shanghai “Super Post-doctor” Project:Research on the AI-based product design theory in the distributed resource environment,take in charge
4. 2020-2025,Key Project of NSFC:Research of complex forming equipment positive innovative design methodology inspired by multidisciplinary knowledge,participate in
5. 2017-2022,Major Project of NSSFC:Research on the design morphology,participate in
6. 2018-2020,Special Project of Innovative Methods of the Ministry of Science and Technology of the People's Republic of China:Development and application demonstration of the innovative methods and tools supporting integrated innovation,participate in
7. 2020-2020,Key Project of Soft Science of Shanghai Science and Technology Commission:Research on the thinking and countermeasures of energy level improvement of Shanghai Science and Technology Innovation Center,participate in