教育经历
[1] 2003.08-2009.03,本硕连读,西安电子科技大学
本科:电子信息工程,电子工程学院与理学院联合培养
硕士:信息与信号处理,雷达信号处理国家重点实验室
[2] 2009.07-2012.09,博士,工程学院,University of HULL
工作经历
2012.12-2015.08,山东大学控制科学与工程学院,讲师
2015.07-2016.08,教育部科技发展中心,借调
2015.09-至今,山东大学控制科学与工程学院,副教授
主持科研项目
1. 国家重点研发计划课题(2018YFB1305404),多肢体协调控制与辅助作业策略研究,182万,2019年01月—2021年12月,主持 2. 中央军委科技委创新特区项目,***关键技术,80万,2019年08月-2020年08月,主持 3. 国家自然科学基金面上项目,61673246,恶性肿瘤转移性骨病发病机理生物数学建模及疗法预测评价方法研究,2017/01-2020/12,62万元,在研,主持 4. 国家自然科学基金青年项目,81301294,多发性骨髓瘤骨病形成过程数学建模及治疗方法模拟评测研究,2014/01-2016/12,23万元,已结题,主持 5. 国际合作种子基金,新型高性能扑固翼飞行器关键技术研究,31400088395406,2018/09-2021/08, 90万,在研,主持 6. 基于传统中药提取新型抗菌药物创新方法研究,2019/01-2020/12,14万,在研,主持 7. 高性能扑翼仿生飞行器关键技术研究,2016/01-2018/12,12万,已结题,主持 8. 山东省重点研发计划,2015GGE27226,高性能扑翼仿生飞行机器人关键技术研究,2015/07-2017/11,25万元,已结题,主持
代表性论著目录
1. Jingtao Hu, Weiming Wu, Bing Ji,Wang, Cong. Observer Design for Sampled-Data Systems via Deterministic Learning, IEEE Transactions on Neural Networks and Learning Systems, 2020. 2. Qinghua Sun, Qian Wang, Bing Ji*, Cong Wang*. The Cardiodynamicsgram Based Early Detection of Myocardial Ischemia Using the Lempel-Ziv Complexity,IEEE ACESS, 2020. 3. Bing Ji, Yao Zhang, Changqing Zhen, Michael J Fagan, Qing Yang. Mathematical modelling of canonical and non-canonical NF-κB pathways in TNF stimulation. Computer Methods and Programs in Biomedicine, 2020,196:105677 . 4. Bing Ji, Jiawei Bai, Luis A J Mur, Mengjia Zou, Jiwan Han, Rui Gao, Qing Yang. Mathematical modelling of Her2 (ErbB2) PI3K/AKT signalling pathways during breast carcinogenesis to include PTPD2. AIMS Mathematics, 2020, 5(5): 4946-4958. doi: 10.3934/math.2020316 . 5. Bing Ji, Jie Chen, Changqing Zhen, Qing Yang, Nengwang Yu*. Mathematical modelling of the role of Endo180 network in the development of metastatic bone disease in prostate cancer. Computers in Biology and Medicine, 2020, 117:103619. 6. Yao Zhang, Changqing Zhang, Qing Yang, Bing Ji*. Mathematical modelling of the role of GADD45β in the pathogenesis of multiple myeloma. Royal Society Open Science, 2020,7:192152. 7. Bing Ji, Dawei Li, Shuai Fu, Zhao Zhang, Tong Yang, Yaohai Wu, You Zuo, Zhonghua Xu. Nengwang Yu. A Population Study to Identify Candidates for Cytoreductive Nephrectomy in Patients with Metastatic Sarcomatoid Renal Cell Carcinoma from the Surveillance, Epidemiology, and End Results (SEER) Database. Medical Science Monitor. 2020;26:e921297. 8. Bing Ji#, Dawei Li#, Shuai Fu#, Zhao Zhang, Tong Yang, Yaohai Wu, You Zuo, Zhonghua Xu, Nengwang Yu*. Propensity-score matched comparison of partial versus radical nephrectomy for T1N0M0 sarcomatoid renal cell carcinoma. Transl Androl Urol, 2020, 9(2):250-257 . 9. Bing Ji, Fa Xie, Xinpei Wang, ShengQuan He, Dazhao Song. Investigate contribution of multi-microseismic data to rockburst risk prediction using support vector machine with genetic algorithm. IEEE ACCESS, 2020, 8: 58817-58828 (IF:4.076, JCR 1区). 10. Bing Ji, Zenggang Zhu, Shijun Guo*, Si Chen, Qiaolin Zhu, Yushuai Zhu, Fan Yang, Rui Song, Yibin Li. Aerodynamic Analysis of a Flapping Wing Aircraft for Short Landing. Applied Sciences. 2020, 10: 3404 (IF:2.474, JCR 2区). 11. Bing Ji, Qiaolin Zhu, Shijun Guo, et al. Design and experiment of a bionic flapping wing mechanism with flapping-twist-swing motion based on a single rotation[J]. AIP Advances, 2020, 10, 6:501801-501816 (IF:1.627, JCR 4区). 12. Si Chen#; Hao Li; Shijun Guo*; Mingbo Tong; Bing Ji, Unsteady Aerodynamic Model of Flexible Flapping Wing, Aerospace Science and Technology, 2018, 80:354-367. 13. Si Chen#; Hao Li; Shijun Guo*; Mingbo Tong; Bing Ji, Short Landing Performance and Scale Effect of a Flapping Wing Aircraft,Journal of Aerospace Engineering, 2020,33(6). 14. Bing Ji*, Yao Zhang, Changqing Zhen, Fagan Michael, Qing Yang#. Mathematical modelling of bone remodelling cycles including the NFκB signalling pathway. Computers in Biology and Medicine, 2019, 107:257-264. 15. Yongling An,Zhen Zhang,Huifang Fei, Shenglin Xiong;, Bing Ji, Jinkui Feng, Ultrafine TiO2 Confined in Porous-Nitrogen-Doped Carbon from Metal-Organic Frameworks for High-Performance Lithium Sulfur Batteries, Acs Applied Materials & Interfaces, 2017.4.12, 9(14): 12400~12407. 16. Bing Ji*#; Paul G. Genever; Michael J. Fagan, A virtual approach to evaluate therapies for management of multiple myeloma induced bone disease,International Journal for Numerical Methods in Biomedical Engineering, 2016.3, 32(3). 17. Bing Ji*#; Yibin Li; Siqi Li; Guangjun Wang; Xin Ma; Jiwan Han, Could cloud technology be useful in autonomous developmental robotics? a case study, International Journal of Robotics and Automation, 2016, 31(3): 213~224. 18. Bing Ji# ; Paul G Genever; Ronald J Patton; Michael J Fagan*,Mathematical modelling of the pathogenesis of multiple myeloma-induced bone disease,International Journal for Numerical Methods in Biomedical Engineering, 2014,30(11): 1085~1102. 19. Bing Ji*#; Qing Yang; Paul G Genever; Ronald J Patton; Michael J Fagan, A predator-prey based mathematical model of the bone remodelling cycle:Exploring the relationship between the model parameters and biochemical factors,Proceedings of the Institution of Mechanical Engineers Part H Journal of Engineering in Medicine, 2014.10, 228(10): 1035~1042 . 20. Bing Ji*# ; Qing Yang; Paul G Genever; Ronald J Patton; Michael J Fagan, Investigating the efficacy of bisphosphonates treatment against multiple myeloma induced bone disease using a computational model,Bio-medical Materials and Engineering, 2014, 24(6): 3373~3378. 21. Bing Ji# ; Paul G Genever; Ronald J Patton; Devi Putra; Michael J Fagan*, A novel mathematical model of bone remodelling cycles for trabecular bone at the cellular level,Biomechanics and Modelling in Mechanobiology, 2012.9, 11(7): 973~982. 22. Bing Ji, Paul G Genever, Ronald J Patton, Devi Putra, Michael J Fagan*. A predator-prey mathematical model of bone remodeling cycles at the cellular level. Osteoporosis International, 2010, 21: 443- 518. 23. Devi Putra, Bing Ji, Ronald J Patton, Paul G Genever, Michael J Fagan*. Simulation of the BMU remodelling cycle using a new predator-prey algorithm. Bone, 2010, 47(1):95 (SCI). 授权发明专利
1. 第1位; ORTHOPEDIC POSTURE SUPPORTING AND ADJUSTING DEVICE AND METHOD, 2020, 国际专利,LU101692 . 2. 第1位;SURGICAL TOOL FOR FORCE MEASUREMENT AND DISTANCE MEASUREMENT, 2020, 国际专利,LU101607. 3. 第1位; MECHANISM CAPABLE OF IMPLEMENTING PASSIVE FOLDING AND TWISTING OF WING, 2019, 国际专利,LU101291. 4. 第1位; FLAPPING WING AIRCRAFT OPEN-CLOSE WING STRUCTURE BASED ON HYBRID DRIVEN,2019,国际专利, LU101146. 5. 第1位; 一种基于微震数据的岩爆预测方法及系统,2020,中国,202010014449.9. 6. 第1位; 一种用于测力测距的手术工具,2020,中国,201911166359.5. 7. 第1位; 一种可实现机翼被动折叠与扭转的机构,2020, 中国,201910117942.0. 8. 第1位;一种基于混合驱动的扑翼飞行器开合式机翼结构,2020, 中国, CN201710935093.0. 9. 第1位;基于云计算的自主心智发育云机器人系统,2017,中国, CN201410163756.8. 10. 第1位; 一种扑翼仿鸟飞行器的混合动力源系统及方法,2017,中国,201510227297.X .
|