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陆海博
个人简介
陆海博,男,博士,讲师,硕士生导师。主要从事智能机器人、先进控制、智能制造等领域的研究,目前共发表国际学术论文12篇 (9篇SCI),参加国际学术会议1次。 欢迎有志于将来从事智能机器人/人工智能、先进控制、智能制造等领域研究的学生联系和报考!(交通工程、机电自动化、电子信息技术及应用数学等专业均可,支持申请出国联合培养或双学位) 通讯地址: 湖南省长沙市天心区中南大学铁道校区交通楼412,邮编410075 邮箱: haibo.lu2@csu.edu.cn 教育经历 • 2012.10--2016.10 博士研究生,机械工程(控制),澳大利亚昆士兰大学 • 2011.09--2012.06 硕士研究生(第一年),机械工程(控制),中南大学 • 2007.09--2011.06 工学学士,机械设计制造及其自动化,中南大学 工作经历 • 2018.01--至今,中南大学交通运输工程学院,讲师 • 2016.11--2017.06,澳大利亚昆士兰大学机械与采矿学院,助理研究员 • 2013.02--2014.06,澳大利亚昆士兰大学机械与采矿学院,助教 荣誉奖励 • 国家建设高水平大学公派博士研究生奖学金,2012-2016 • 澳大利亚昆士兰大学学费奖学金,2012-2016 • 中南大学优秀学生干部(连续两年),2008, 2009 • 中南大学优秀学生,2008 Publications 1. Lu, H.*, Kearney, M., Wang, C., Liu, S., & Meehan, P. A. (2017). Part accuracy improvement in two point incremental forming with a partial die using a model predictive control algorithm. Precision Engineering, 49, 179-188. 2. Lu, H.*, Kearney, M., Liu, S., Daniel, W. J., & Meehan, P. A. (2017). Two-directional toolpath correction in single-point incremental forming using model predictive control. The International Journal of Advanced Manufacturing Technology, 91(1-4), 91-106. 3. Lu, H.*, Kearney, M., Li, Y., Liu, S., Daniel, W. J., & Meehan, P. A. (2015). Model predictive control of incremental sheet forming for geometric accuracy improvement. The International Journal of Advanced Manufacturing Technology, 82(9-12), 1781-1794. 4. Lu, H. B.*, Li, Y. L., Liu, Z. B., Liu, S., & Meehan, P. A. (2014). Study on step depth for part accuracy improvement in incremental sheet forming process. Advanced Materials Research, 939, 274-280. 5. Huang, L., Qian, M., Lu, H., Sun, Y., Wang, L., & Zou, J. (2017). Reducing electric current and energy consumption of spark plasma sintering via punch configuration design. Ceramics International, 43(18), 17225-17228. 6. Li, Y., Lu, H., Daniel, W. J., & Meehan, P. A. (2015). Investigation and optimization of deformation energy and geometric accuracy in the incremental sheet forming process using response surface methodology. The International Journal of Advanced Manufacturing Technology, 79(9-12), 2041-2055. 7. Wang, C. H., Daniel, W. J., Lu, H. B., Liu, S., & Meehan, P. A. (2017). An Experimental and Numerical Study on Forming Force, Fracture Behavior, and Strain States in Two Point Incremental Forming Process. Key Engineering Materials, 725, 586-591. 8. Li, Y., Daniel, W. J., Liu, Z., Lu, H., & Meehan, P. A. (2015). Deformation mechanics and efficient force prediction in single point incremental forming. Journal of Materials Processing Technology, 221, 100-111. 9. Li, Y., Liu, Z., Lu, H., Daniel, W. B., Liu, S., & Meehan, P. A. (2014). Efficient force prediction for incremental sheet forming and experimental validation. The International Journal of Advanced Manufacturing Technology, 73(1-4), 571-587. 10. Li, Y. L., Liu, Z. B., Lu, H. B., Daniel, W. J. T., & Meehan, P. A. (2014). Experimental study and efficient prediction on forming forces in incremental sheet forming. Advanced Materials Research, 939, 313-321. 11. Shuai, C., Mao, Z., Lu, H., Nie, Y., Hu, H., & Peng, S. (2013). Fabrication of porous polyvinyl alcohol scaffold for bone tissue engineering via selective laser sintering. Biofabrication, 5(1), 015014. 12. Shuai, C., Nie, Y., Gao, C., Lu, H., Hu, H., Wen, X., & Peng, S. (2012). Poly (l-lactide acid) improves complete nano-hydroxyapatite bone scaffolds through the microstructure rearrangement. Electronic Journal of Biotechnology, 15(6), 4-4. 国际学术会议 • 16th International Conference on Advances in Materials & Processing Technologies, Oral Presentation, 2013.09
科研方向
智能机器人/人工智能;先进控制;智能制造/快速成形;