高性能结构研究室

ZEESHAN QAISER

博士,助理教授

联系地址:上海市四平路1239号同济大学土木大楼B209室,邮编200092

联系电话:021-65987359

电子邮件:zeeshan@tongji.edu.cn



Zeeshan Qaiser博士毕业于上海交通大学密西根学院并获得了机械工程博士学位,他现在是同济大学土木工程学院的助理教授。他现在研究主要集中在地震工程、机器学习、可调刚度、优化设计方法等领域。在2021-2022年度,他因在可调刚度机制领域的杰出研究而获得了ASME机制和机器人期刊授予的最佳论文荣誉。Zeeshan Qaiser博士发表了32篇经同行评审的期刊和会议论文,其中15篇是期刊论文。他的工作成果获得了美国机械工程师协会、中国国家留学基金委、英国萨里大学、晨星博士后激励计划和上海交通大学的嘉奖


研究方向

  1. 地震工程, 机器学习, 可调刚度, 优化设计方法。

  2. 柔性机构,即可调刚度机构(TSMs)和恒力机构(CFMs)。

  3. 使用MATLAB,Python脚本及有限元分析进行结构优化。

  4. 纤维增强聚合物(FRP)复合材料的可重构制造系统(RMS)。

  5. 汽车碰撞安全性分析:为更好的比能量吸收(SEA)设计汽车碰撞减震器。

教育背景

  • 2016.9 – 2020.3   博士   上海交通大学密西根学院机械工程         

  • 2014.9 – 2016.9   硕士   上海交通大学密西根学院机械工程         

  • 2008.8 – 2012.9   本科   伊斯兰堡空间技术研究所航空航天工程   

工作经历

  • 2022.9 - 至今        同济大学土木工程学院助理教授

  • 2020.7 – 2022.8   上海交通大学密西根学院博士后

  • 2014.8 – 2020.3   上海交通大学密西根学院研究生科研助理

  • 2012.9 – 2014.6   伊斯兰堡空间技术研究所航空航天系研究生科研助理

荣誉和奖项

  1. 2022 ASME JMR 期刊最佳论文(国际认可)

  2. 2021 晨星博士后激励计划奖 (博士后协会认可)

  3. 2019上海交通大学优秀研究生 (上海交大认可)

  4. 2018 CSC博士研究优秀学生奖(国内认可)

  5. 2018 桑坦德大学博士研究奖,萨里大学 (国际认可)

  6. 2016上海市政府A类博士奖学金获得者

  7. 2015上海交通大学优秀留学生奖

  8. 2015上海交通大学机械工程学院大使

  9. 2014上海交通大学优秀硕士奖学金获得者  

  10. 2010-2012 伊斯兰堡空间技术研究所优秀奖学金获得者

专利

Johnson, S. Ou, H., Qaiser, Z., Kang, L. 2017, “Orthoses with Continuous Arch Height Changing Device”, Chinese Patent Application No. 2017106620745, (authorized).

期刊论文

  1. Qaiser, Z., Rehman, T., Johnson, S., 2022, “Structure-controlled adjustable constant force mechanism by tuning the slenderness ratio” Journal of Mechanism and Machine Theory, (Q1, EI, SCI; IF=3.866) (Under Review).

  2. Kunlin, Y., Qaiser, Z.*, Rui, C., Ou, H., Johnson, S., 2022, “Design and optimization of an extended multi-actuated optimized reconfigurable freeform surface (e-MORFS) mold” IEEE Transactions on Mechatronics. (Q1, EI, SCI; IF=5.867) (Under Review).

  3. Yaru, M., Qaiser, Z., and Johnson, S., 2022, “Structural and winding sequence optimization of coreless filament wound composite lattice structures” Composites Part B, (Q1, EI, SCI; IF=10.9) (Under Review).

  4. Qaiser, Z., Kunlin, Y., Rui, C., Ou, H., Johnson, S., 2022, “Feasibility study of a novel Multi-actuated Optimized Reconfigurable Freeform Surface (MORFS) mold” International Journal of Advanced Manufacturing and Technology. (Q2, EI, SCI; IF=3.226).

  5. Zhang,L., Hong,L., Dhupia, J.S., Johnson, S., Qaiser, Z., Zhou, Z., 2022, “A novel semi-active tuned mass damper with continuously controllable tunable stiffness” Part C: Journal of Mechanical Engineering Science, (Q2/Q3,EI, SCI; IF=1.762).

  6. Rehman, T., Qaiser, Z., Ou, H., Haiping, Y., Johnson, S., 2022, “Exploring and exploiting path based design optimization of a constant force mechanism” Journal of Mechanism and Machine Theory, (Q1, EI, SCI; IF=3.866).

  7. Ou, H., Haiping, Y., Qaiser, Z., Rehman, T., Johnson, S., 2022, “A structural optimization framework to design compliant contant force mechanisms with large energy storage” ASME Journal of mechanisms and robotics, (Q2, EI, SCI; IF=2.085).

  8. Yaru, M., Qaiser, Z., and Johnson, S., 2021 'A reconfigurable and adjustable compliance system for the measurement of Interface orthotic properties' in IEEE Transactions on Neural Systems and Rehabilitation Engineering, doi: 10.1109/TNSRE.2021.3109977, (Q1, EI, SCI; IF=3.802).

  9. Qaiser, Z., Faraz A. and Johnson, S., 2020, 'Feasibility Study of a Rapid Evaluate and Adjust Device (READ) for custom foot orthoses prescription,' in IEEE Transactions on Neural Systems and Rehabilitation Engineering, vol. 28, no. 8, pp. 1760-1770, Aug. 2020, doi: 10.1109/TNSRE.2020.3007668, (Q1, EI, SCI;  IF=3.802).

  10. Qaiser, Z., Johnson, S., 2019, “Generalized Spiral Spring (GSS): A bioinspired tunable stiffness mechanism (TSM) for linear response with high resolution” ASME Journal of mechanisms and robotics. https://doi.org/10.1115/1.4045654, (Q2, EI, SCI; IF=2.085).

  11. Rehman, T., Qaiser, Z., Johnson, S., 2019, “Tuning bifurcation loads in bistable composites with tunable stiffness mechanisms” Journal of Mechanism and Machine Theory. 142,103585, (Q1, EI, SCI; IF=3.866).

  12. Qaiser, Z., Kang, L., Ou, H., Johnson, S., 2018, “e-Spring: A novel bending to axial Tunable Stiffness Mechanism” Journal of Mechanism and Machine Theory. 128, 368-381, (Q1, EI, SCI; IF=3.866).

  13. Ou, H., Qaiser, Z., Johnson, S., 2017, “Effect of skin on finite element modeling of foot and ankle during balanced standing” Journal of Shanghai Jiao tong University 23(1), (EI; IF=0.4).

  14. Qaiser, Z., Kang, L., Johnson, S., 2017. 'Experimental and computational analysis of orthotic medial longitudinal arch support height.' Footwear Science 9 (sup1): S1-S2, (EI; IF=0.6).  

  15. Qaiser, Z., Johnson, S., Kang, L., 2017, “Design of a bioinspired tunable stiffness robotic foot” Journal of Mechanism and Machine Theory. 110, 1-15, (Q1, EI, SCI; IF=3.866).

  16. Qaiser, Z.*, Qureshi, O., Johnson, S., Khan, A., 2015, “Thin walled circular beams with sinusoidal embedded patterns under axial impacts,” Thin Walled Structures 99, 76-82, (Q1, EI, SCI; IF=4.442).

  17. Qureshi, O., Qaiser, Z., Bertocchi, E., 2014, “Frequency embedded box beam crash absorbers under oblique impacts”, Thin Walled Structures 75, 1-7, (Q1, EI, SCI; IF=4.442).

  18. Qaiser, Z., Qureshi, O., Awan, K., 2013, “Thin walled circular beams with sinusoidal embedded patterns under deep bending collapse,” Thin Walled Structures 73, 94-100, (Q1, EI, SCI; IF=4.442).

会议论文

  1. Tahir, S., Qaiser, Z., Johnson, S., 2022 Crease Line Failure Analysis in Corrugated Packages Using Lattice Models, Proceeding of the IMECE International Mechanical Engineering Congress & Exposition, Greater Columbus Convention Center, Columbus, OH, USA.

  2. Kunlin, Y., Rui, C., Qaiser, Z., Johnson, S., 2021, “An Extended Multi-Actuated Optimized Reconfigurable Freeform Surface (e-MORFS) mold with targeted variability capacity” Proceeding of the IMECE International Mechanical Engineering Congress & Exposition, Virtual Conference, Online, November 1 – 5, 2021.

  3. Yaru, M., Qaiser, Z., and Johnson, S., 2021, “Design and development of a reconfigurable and adjustable compliance system for the measurement of orthotic properties” Proceeding of the IMECE International Mechanical Engineering Congress & Exposition, Virtual Conference, Online, November 1 – 5, 2021.

  4. Rehman, T., Qaiser, Z., Ou, H., Johnson, S., 2021, “A graph based design methodology for compliant mechanisms (non-linear springs) to more fully explore and exploit the design domain” Proceeding of the IMECE International Mechanical Engineering Congress & Exposition, Virtual Conference, Online, November 1 – 5, 2021.

  5. Qaiser, Z., Kang, L, & Johnson, S. 'Design and development of a constant force non-linear spring (CF-NLS) for Energy Storage.  Proceedings of the 41st Mechanisms and Robotics Conference IDETC/CIE 202020. Virtual, Online. August 17–19, 2020.

  6. Kang, L., Ou, H., Qaiser, Z., Mascort, J., Johnson, S., 2018, “Automated box buckling strength analyses with finite element modeling” Advances in Graphic Communication, Printing and Packaging Proceedings of 2018, 9th China Academic Conference on Printing and Packaging December 2018, DOI10.1007/978-981-13-3663-8_89.

  7. Zhang,L., Dhupia, J.S., Johnson, S., Qaiser, Z., Zhou, Z., 2018, “A novel semi-active tuned mass damper with tunable stiffness”, AIM IEEE/ASME International Conference on Advanced Intelligent Mechatronics Jul, 2018, Auckland, New Zealand.

  8. Rehman, T., Qaiser, Z., Johnson, S., 2018, “Tunable bistable composites for semiactive morphing”, 1st International Conference on Theoretical, Analytical and Computational Methods for Composite Materials and Composite Structures (ICOMP 2018) 23-25 May 2018, Wuhan, China.

  9. Qaiser, Z., Johnson, S., Kang, L., 2017 “Concentric helical axial spring tunable stiffness mechanism: Analytical modeling, design optimization and Experimental validation”, Proceedings of the 41st Mechanisms and Robotics Conference IDETC/CIE 2017, Cleveland, Ohio, USA.

  10. Johnson, S., Van Beek, A., Qaiser, Z., Kang, L., 2017 “Optimization for large or linear tunable stiffness control with a concentric circular tapered beam design”, Proceedings of the 41st Mechanisms and Robotics Conference IDETC/CIE 2017, Cleveland, Ohio, USA.

  11. Ou, H., Qaiser, Z., Kang, L., Johnson, S., 2017, “Adjustable Medial Longitudinal Arch Height Foot Orthoses and Biomechanical Significance,” Congress of the International Society of Biomechanics, June 22-27, 2017, Brisbane, Australia.

  12. Ou, H., Qaiser, Z., Kang, L., Johnson, S., 2017, “Experimental and computational analysis of orthotic medial longitudinal arch support height,” Footwear Biomechanics Symposium, June 19-22, 2017, Gold Coast, Australia.

  13. Qaiser, Z., Ou, H., Johnson, S., 2016 “The effect of the plantar plate on Plantar Aponeurosis strain: 3D Finite Element modeling of foot and ankle”, 34th International Society of Biomechanics in Sport Conference, Tsukuba, Japan, July 18-22.

  14. Johnson, S., Qaiser, Z., H. Ou, and L. Kang. 2016. 'In search of the optimum height for custom made foot orthoses, a 3D Finite Element Study.' Foot and Ankle Surgery 22 (2, Supplement 1):113. doi: http://dx.doi.org/10.1016/j.fas.2016.05.301.

  15. Johnson, S., Qaiser, Z., Ou, H., Liping, K., 2015 “The development of a subject specific tunable foot orthoses”, Chinese Congress of Theoretical & Applied Mechanics CCTAM, Shanghai Jiao Tong University, Shanghai, PRC.

  16. Qaiser, Z., Qureshi, O., Awan, K., 2013 “Numerical Investigation of usage of patterned collapsible energy absorbers in steering column of an automotive vehicle”, International Conference on Aerospace Science and Engineering, Institute of Space

招生信息

欢迎拥有土木工程、机械、机电、航空工程背景海内外同学与我一起探讨令人兴奋的新点子,硕士和博士研究生将会从2024年开始招聘。此外有毕业设计项目监督需求的大四同学也非常欢迎。

联系地址:上海市四平路1239号同济大学土木大楼B座  电话:021-65982666   传真:021-65982668  邮箱:ddms@tongji.edu.cn   邮编:200092

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