2001-2005; 2000-2005, Université de Technologie de Compiègne France; Northwestern Polytechnical University China, Doctor
1996-1999, Northwestern Polytechnical University China, Master
1987-1991, Northwestern Polytechnical University China, Bachelor

2012.12- Professor, Ph.D Supervisor，Institute of vibration, shock and noise, School of Mechanical Engineering, Shanghai Jiao Tong University, China
2006—2012 Associate Professor, M.Eng. Supervisor，Institute of vibration, shock and noise, School of Mechanical Engineering, Shanghai Jiao Tong University, China
2005—2006 Post-doc researcher, Université de Technologie de Compiègne, Laboratoy of Roberval- UMR UTC/CNRS 6066，France
2000—2006 Ph. D., Lecturer, Associate Professor, M.Eng. Supervisor, Department of Aircraft Manufacturing Engineering, School of Mechatronics Engineering, Northwestern Polytechnical University, China
1996—1997 Visiting Scholar UMUC of University of Maryland at College Park, U.S.A.
1992—2000 Lecturer, International Programmes Department of Northwestern Polytechnical University,China
1991—1992 Teaching assistant，Department Aircraft Manufacturing Engineering of Northwestern Polytechnical University, China

1. Smart materials, structure and system
2. Precision and mini/micro actuation technologies(Actuator, transducer, motor, sensor, vibration
isolator, machining tool, etc.)
3. Active vibration control and the equipment design
4. Integrated and digital design of smart-material-based machine, Research on application based on
Smart materials(GMM, MSM, SMA,ER/MR) and magnetic materials
5. Precision manufacturing engineering, Micro factory.

Applications: Aerospace, Precision mechanical engineering, Precision manufacturing, Biomedical, Automotive and Marine engineering.

1.2018.1-2021.12, Research in a novel magnetic-electro sensing mechanism by Coriolis
force principle for the ultra-precision rotation measurment of segment mirrors of telescopes, NSFC research programme (grant No.51775349)
2.2012.1-2015.12，Research into micro-nano meters vibration and testing platform,　NSFC research programme（grant No. 11172169）
3.2007.1-2009.12，Research into the magnetostrictive actuation technology application in very large astronomicaltelescope,　NSFC research programme（grant No. 10778620）
4.2012.1-2014.12, Research into the active/adaptive vibration control based on smart materials driven regoime,Shanghai Astronautical joint-laboratory research foundation;
4.2008.8-2011.7, Mini heavy-load magnetostrictive linear motor, Shanghai Pujiang talent research programme of shanghai government(No. 08PJ14061);
5.2009.4-2011.4, Research into Force control vibration platform based on permanent-magnetic actuation, Shanghai Astronautical research foundation;
6.2008.6-2010.9, Mini-polishing machine design based upon permanent-magnetic fields driving principle, the open research project of the state key lab. of mechanical system and vibration of China.
7.2008.12- 2010.8 Leading a Returned Overseas Experts Project Granted by the State Educational Commision;
8.2001.6-2006.2，“Magnetostrictive linear motor used in micro factory” at （CNRS）Roberval, accomplished the research work on micro high-efficiency actuator;
9.2002-2004, Second chief leader,（the National High-tech R&D Program of China, 863 Programme）“Precision and Large stroke magnetostrictive actuator design ”（Program No. 2002AA423210）；

[1] Wang X, Yang B. Transient vibration control using nonlinear convergence active vibration absorber for impulse excitation[J]. Mechanical Systems and Signal Processing, 2019, 117: 425-436.
[2] Yi S, Yang B, Meng G. Microvibration isolation by adaptive feedforward control with asymmetric hysteresis compensation[J]. Mechanical Systems and Signal Processing, 2019, 114: 644-657.
[3] Hu W, He Q, Sun X, Yang B. Design of an innovative active hinge for Self-deploying/folding and vibration control of solar panels[J]. Sensors and Actuators A: Physical, 2018, 281: 196-208.
[4] Yang Y, Yang B, Niu M. Adaptive trajectory tracking of magnetostrictive actuator based on preliminary hysteresis compensation and further adaptive filter controller[J]. Nonlinear Dynamics, 2018, 92(9):1-10.
[5] Yang Y, Niu M, Yang B. Static nonlinear model of both ends clamped magnetoelectric heterostructures with fully magneto-mechanical coupling[J]. Composite Structures, 2018.
[6] Yang Y, Yang B, Niu M. Dynamic/static displacement sensor based on magnetoelectric composites[J]. Applied Physics Letters, 2018, 113(3):032903.
[7] Sun X, Yi S, Wang Z, Yang B. A new bi-directional giant magnetostrictive-driven compliant tensioning stage oriented for maintenance of the surface shape precision[J]. Mechanism & Machine Theory, 2018, 126:359-376.
[8] Niu M, Yang B, Yang Y, et al. Two generalized models for planar compliant mechanisms based on tree structure method[J]. Precision Engineering, 2018, 51: 137-144.
[9] Yang Y, Yang B, Niu M. Adaptive infinite impulse response system identification using opposition based hybrid coral reefs optimization algorithm[J]. Applied Intelligence, 2018, 48(7):1689-1706.
[10] Yang Y, Yang B, Niu M. Hybrid Frequency-dependent Hysteresis Model of Magnetostrictive Actuator[C]. IOP Conference Series: Materials Science and Engineering. IOP Publishing, 2018, 378(1): 012013.
[11] Wang X, Yang B, Guo S, et al. Nonlinear convergence active vibration absorber for single and multiple frequency vibration control[J]. Journal of Sound and Vibration, 2017, 411: 289-303.
[12] Wang X, Yang B, Yu H. Optimal Design and Experimental Study of a Multidynamic Vibration Absorber for Multifrequency Excitation[J]. Journal of Vibration and Acoustics, 2017, 139(3): 031011.
[13] Xiaoqing Sun, Bintang Yang. A new methodology for developing flexure-hinged displacement amplifiers with micro-vibration suppression for a giant magnetostrictive micro drive system[J]. Sensors and Actuators A: Physical, 2017.
[14] Sun, X., Yang, Y., Hu, W., & Yang, B.. Optimal design and experimental performances of an integrated linear actuator with large displacement and high resolution[J]. Microsystem Technologies, 2017: 1-11.
[15] Xiaoqing Sun, Bintang Yang, Shufeng Guo. Design and analysis of a novel tensioning stage driven by a giant magnetostrictive actuator[C]. The 5th International Conference on Mechanical, Automotive and Materials Engineering, Guangzhou, August 1-3, 2017.
[16] Niu M, Yang B, Yang Y, et al. Dynamic modelling of magnetostrictive actuator with fully coupled magneto-mechanical effects and various eddy-current losses[J]. Sensors & Actuators A Physical, 2017, 258:163-173.
[17] Niu M, Yang B, Yang Y, et al. Modeling and optimization of magnetostrictive actuator amplified by compliant mechanism[J]. Smart Materials and Structures, 2017, 26(9): 095029.
[18] Sicheng Yi, Bintang Yang , and Muqing Niu, etc. Micropositioning Control for an Amplified Magnetostrictive-Actuated Device[C]. The 5th International Conference on Mechanical, Automotive and Materials Engineering, Guangzhou, August 1-3, 2017.
[19] Wei Hu, Quan He, Bintang Yang*，Shufeng Guo, Wenqiang Zhao, Jietan Zhang. Design of a Novel Active Joint Mechanism for Solar Panels[C]. The 5th International Conference on Mechanical, Automotive and Materials Engineering, Guangzhou, August 1-3, 2017.
[20] Hu Yu, Bintang Yang, Xiaoqing Sun, Xi Wang, Hangjie Mo. Effects of Tunable Angle for Vortex Generators on Aerodynamic Performances of Airfoils[C]. The Second International Coference on Applied Engineering, Materials and Mechanics, Tianjin, April 14-16, 2017.
[21] Fengyu Cao, Muqing Niu, Yikun Yang, Baoying Xie and Bintang Yang. Modeling of the electromagnetic torque on the permanent magnet in a novel drive mechanism[C]. The Second International Coference on Applied Engineering, Materials and Mechanics, Tianjin, April 14-16, 2017.
[22] Fengyu Cao, Bintang Yang, Muqing Niu, Baoying Xie and Wei Hu. Electrical-magnetic-mechanical modeling of a novel vibration shaker based on a rotary permanent magnet[C]. The 5th International Conference on Mechanical, Automotive and Materials Engineering, Guangzhou, August 1-3, 2017.
[23] Yang Y, Yang B, Niu M. Parameter identification of Jiles–Atherton model for magnetostrictive actuator using hybrid niching coral reefs optimization algorithm[J]. Sensors and Actuators A: Physical, 2017, 261: 184-195.
[24] Yang Y, Yang B, Niu M. Spline adaptive filter with fractional-order adaptive strategy for nonlinear model identification of magnetostrictive actuator[J]. Nonlinear Dynamics, 2017, 90(3): 1647-1659.
[25] Xi Wang, Bintang Yang, Hu Yu, Yulong Gao. Transient vibration analytical modeling and suppressing for vibration absorber system under impulse excitation[J]. Journal of Sound and Vibration, 2017, 394: 90-108.
[26] Xi Wang, Bintang Yang, Yu Zhu. Adaptive model-based feedforward to compensate Lorentz force variation of voice coil motor for the fine stage of lithographic equipment[J]. Optik-International Journal for Light and Electron Optics, 2017, 135: 27-35.
[27] Xi Wang, Bintang Yang, Jiaxin You, Zhe Gao. Coarse-fine adaptive tuned vibration absorber with high frequency resolution[J]. Journal of Sound and Vibration, 2016, 383: 46-63.
[28] Xi Wang, Bintang Yang, Yu Zhu. Modeling and analysis of a novel rectangular voice coil motor for the 6-DOF fine stage of lithographic equipment[J]. Optik - International Journal for Light and Electron Optics, 2016, 127(4): 2246-2250.
[29] Xi Wang, Bintang Yang, Yu Zhu. Optimization of current distribution coefficients to decouple the 6-DOF fine stage of lithographic equipment[J]. Optik - International Journal for Light and Electron Optics, 2016, 127(20): 9896-9904.
[30] Xi Wang, Bintang Yang. Adaptive dynamic absorber for wideband micro-vibration control based on precision self-positioning linear actuator[C]. 15th International Conference on New Actuators, Bremen, Germany, 2016.
[31] Xi Wang, Bintang Yang, Hu Yu. Optimal design and experimental study of a multi-dynamic vibration absorber for multi-frequency excitation[J], Journal of Vibration and Acoustics, 2017, 139(3): 031011.
[32] Xiaoqing Sun, Bintang Yang, Long Zhao, Xiaofen Sun. Optimal design and experimental analyses of a new micro-vibration control payload-platform[J]. Journal of Sound and Vibration, 2016, 374: 43-60.
[33] Bintang Yang, Yikun Yang. A new angular velocity sensor with ultrahigh resolution using magnetoelectric effect under the principle of Coriolis force[J]. Sensors and Actuators A: Physical, 2016, 238: 234-239.
[34] Muqing Niu, Bintang Yang, Guang Meng. Design and modelling of a sensor-integrated actuator using combined effects of magnetostriction and piezoelectricity[C]. 15th International Conference on New Actuators, Bremen, Germany, 2016.
[35] Quan He, Bin-tang Yang. Design and optimization of a new type of active hinge[C]. 2nd International Conference on Mechanical, Electronic and Information Technology Engineering, Chongqing, May 21-22, 2016.
[36] Xiaoqing Sun, Qiwei Guo, Bintang Yang. Study and simulation of a vibration-isolation system for the large precision optical load on the Chinese space station[C]. The 7th International Conference On Vibration Engineering, Shanghai, September, 2015.
[37] Muqing Niu, Bintang Yang, Guang Meng. Design and modelling of a 3-DOF hybrid micro-vibration isolator[C]. The 7th International Conference On Vibration Engineering, Shanghai, September, 2015.
[38] B.T. Yang, T. Zhang, J.Q. Li, F.C. Li, H.G. Li and G. Meng, Research on Giant Magnetostrictive Actuator for Low Frequency Adaptive Vibration Control[J]. Advances in Vibration Engineering, 2013, 12(6):611-622.
[39] Kai Deng, Bintang Yang. The adaptive feedback control with dynamic feed-forward compensation of the giant magnetostrictive actuator[J]. Applied Mechanics and Materials, 2014, 654：208-211.
[40] Pei Cai, Bintang Yang. Design and research of smart blades based on load optimization and power control[J]. Applied Mechanics and Materials, 2014, 654：229-232.
[41] Zhang Ting , Yang Bin Tang* , Li Hong Guang , Meng Guang. Dynamic Modeling and Adaptive Control of a Giant Magnetostrictive Actuator for Vibration Control[J]. Sensors and Actuators A: Physical, 2013, 190: 96-105.
[42] Z.K. PENG, W.M. Zhang, B.T. YANG, G. MENG, Fulei Chu. The parametric characteristic of bispectrum for nonlinear systems subjected to Gaussian input[J]. Mechanical Systems and Signal Processing, 2013, 36(2): 456-470.
[43] Bintang Yang, Tianxiang Che, Guang Meng, Zhiqiang Feng, Jie Jiang, Shuo Zhang and Qi Zhou. Design of a safety escape device based on magnetorheological fluid and permanent magnet[J]. Journal of intelligent material systems and structures, 2013, 24(1): 49-60.
[44] Bintang Yang, Qingwei Liu, Ting Zhang, Yudong Cao. Zhiqiang Feng, Guang Meng, Non-contact translation-rotation sensor using combined effects of magnetostriction and piezoelectricity[J]. Sensors, 2012, 12(10), 13829-13841.
[45] Bin-tang Yang, De-hua Yang, Peng-you Xu, Yu-dong Cao, Zhi-Qiang Feng, Guang Meng. Large stroke and nanometer-resolution giant magnetostrictive assembled actuator for driving segmented mirrors in very large astronomical telescopes[J]. Sensors and Actuators A: Physical, 2012, 179: 193-203.
[46] Y.D. Cao, B.T. Yang*. Non-linear modelling of multilayer piezoelectric actuators in non-trivial configurations based on actuator design parameters and piezoelectric material properties[J]. Journal of Intelligent Material Systems and Structures, 2012, 23(8): 875-884.
[47] Wang Q, Yang B T, Liu L T, et al. Design and Modeling of a New Inchworm Linear Motor[J]. Advanced Materials Research. Trans Tech Publications, 2012, 562: 603-606.
[48] Lan-tao Liu, Bin-tang Yang*, Qi Wang, Guang Meng. Modeling and Simulation of A Novel Drive Joint Based on Permanent Magnet and Electromagnet[C]. Materials Engineering and Automatic Control(ICMEAC2012), Jinan, April 27-29, 2012.
[49] L.T. Liu, B.T. Yang *, Q. Wang, L. Li, G. Meng. Design of A New Type of Drive Joint for Rehabilitation Robots[C]. 2012 6th International Conference on Bioinformatics and Biomedical Engineering (iCBBE 2012), Shanghai, May 17-20, 2012.
[50] B.T. Yang*, Q. Wang, M.Bonis, Z.Y.Zhang, G.Meng, X.F. Sun, Z.Q. Feng, D.H.Yang. Development of a novel electromagnetic-driven low frequency and heavy load vibration table with a rotary permanent magnet[C]. Proceedings of ACTUATOR 2012, 13th International Conference on New Actuators, BREMEN, Germany, June 16-19, 2012.
[51] Qi Wang, Bin-tang Yang*, Lan-tao Liu, Guang Meng. Design and Modeling of a New Inchworm Linear Motor[C]. Materials Engineering and Automatic Control(ICMEAC2012), Jinan, April 27-29, 2012.
[52] B.T. Yang*, T. Zhang, J. Q. LI, F.C.LI, H.G LI, G. Meng. Research on Giant Magnetostrictive Actuator for Low Frequency Adaptive Vibration Control[C]. The Seventh International Conference on VIBRATION ENGINEERING AND TECHNOLOGY OF MACHINERY, Shanghai, November 21-24.
[53] B.T. Yang, Y.M Lu, G. Meng, Zh-Q Feng. Numerical and experimental study of a vibration driver due to electromagnetic forces on a rotary permanent magnet[J]. Sensors and Actuators A: Physical, 2011, 172(2): 491-496.
[54] Bintang Yang, Guang Meng, Zhi-Qiang Feng, Dehua Yang. Giant magnetostrictive clamping mechanism for heavy-load and precise positioning linear inchworm motors[J]. Mechatronics, 2011, 21(1): 92-99.
[55] Pan Pengsheng, Yang Bintang*, Meng Guang, Design and Simulation of a mini precision positioning magnetostrictive inchworm linear motor[J]. Applied Mechanics and Materials. 2011, 130-134: 2846-2850.
[56] Jianqiang Li, Bintang Yang*, Guang Meng, Dynamic Modeling and Simulation of 3-d.o.f. Vibration Active Isolation Platform Based on Giant Magnetostrictive Actuators[J]. Applied Mechanics and Materials. 2011, 130-134:2719-2723.
[57] W. B. Xu, B. T. Yang , G. Meng, Y. M. Lu.. Dynamic Modeling and Simulation to Precision Positioning Magnetostrictive Inchworm Linear Motor[C]. Proceedings of ACMFMS2010, Nanjing, China.
[58] B.T. Yang, G. Meng, Z.Q. Feng, D.H. Yang, W.B. Xu, Y.M. Lu.. Heavy Load and Nano-Metric Positioning Magnetostrictive Inchworm Linear Motor[C]. Proceedings of ACTUATOR 2010, 12th International Conference on New Actuators, BREMEN, Germany, June 13-16, 2010.
[59] Feng Z.-Q., Yang B. T., Cros J.-M., and Renaud C.. Dynamics of shell structures with contact interfaces[C]. IV European Conference on Computational Mechanics, Paris, France, May 16-21, 2010.
[60] C.Renaud, Z.Q.Feng, J. Cros, B.T.Yang. The Yeoh model applied to the modeling of large deformation contact/impact problems[J]. International Journal of Impact Engineering, 2009, 36: 659-666.
[61] Yang B.T, Meng G, Yang D.H, Feng Z.Q, PY. Xu, Tan X.T.. Magnetostrictive blocked-force mechanism for secure and heavy-load inchworm motion[C]. Proceedings of the ASME 2009 Conference on Smart Materials, Adaptive Structures and Intelligent Systems SMASIS2009-1268, Oxnard, California, USA, September 20-24, 2009.
[62] Liang Shao, Dehua Yang, Bintang Yang, Kunxin Chen. Design and Test of a Micro-displacement Actuator Based on Giant Magnetostrictive Material[C]. Second International Conference on Smart Materials and Nanotechnology in Engineering, Proc. of SPIE, 2007.
[63] Bintang Yang, Dehua Yang, Guang Meng, Kunxin Chen, Yongjun Qi, Haiting Zhou, Peiyong Hou. Application study on giant-magneostrictive actuator for drivingsegmented mirrors of very large astronomical telescope[C]. Int. Conf. on Smart Materials and Nanotechnology in Engineering, Proc. of SPIE, 2007.
[64] B.T. Yang, M. Bonis, H. Tao, C. Prelle and F. Lamarque. Magnetostrictive mini actuator for long-stroke positioning with nanometer resolution[J]. J. Micromech. Microeng., 2006, 16: 1227-1232.
[65] Hongjun Qiu, Hua Tao, Bintang Yang, Xiaobin Gao. Study on formalizable aircraft assembly process planning knowledge[J]. Materials Science Forum, 2006, 532-533: 640-643.
[66] B.T. YANG, M.BONIS. An aproach of optimum design of an inchworm magnetostrictive mini-actuator[C]. 1st International Conference of Micromanufacturing, University of Illinois, Urbana-Champaign, September 13-15, 2006.
[67] B.T. YANG, M.BONIS. Experimental study on giant magnetostrictive material for mini-actuator design[C]. Proceedings of the 2nd International Conference on Smart Materials & Structures in Aerospace Engineering, Nanjing, China, September 24-26, 2006.
[68] Yang B.T., Bonis M., Tao H., Prelle C. Lamarque F.. Modeling and simulation study for a mini actuator using a giant magnetostrictive material[C]. Proc. of 5th euspen international conference, Montpellier, France, May 8-11, 2005.
[69] Yang B.T., Bonis M., Tao H., Prelle C.. Design approach of a magnetostrictive actuator[C]. Proc. of 4th euspen international conference, Glasgow, Scotland (UK), May 31st-June 2nd, 2004.
[70] Yang B.T., Prelle C., Lamarque F., Bonis M., Tao H.. Development of a Mini-actuator Based on Giant Magnetostrictive Materials[C]. Proc. of 4th International Workshop on Microfactories, Shanghai, China, October 15-17, 2004.

1.Smart materials, structure and system (SP245/once/year, Undergraduate student courses, 32hrs credit:2 )
2.Smart materials and precision-driving technologies (ME085/once/year,Undergraduate student courses,48hrs credit:3 )
3.Technical English for vibration and mechanical engineering (for graduate student,36hrs credit:2 )
4.Advances in vibration and mechanical engineering(graduate student,36hrs,credit:2)

1. YANG B,et al, CN, Rotating speed control device for rotating shaft 201582341-U, 2009;
2. YANG B,et al, Portable high-rise safety escape-cable device，CN101695594-A, 2009;
3. YANG B,et al, Magnetic drive switching device for rare-earth magnetostrictive-type electric power system, CN101651064-A, 2008
4. YANG B, et al. Drive control device for motor, CN201365184-Y, 2008
5. YANG B, et al. Coarse-fine composite drive precision position adjusting device, CN101494427-A; CN101494427-B,2009
6. YANG B,et al, Electromagnetic driving device by permanent magnet moving structure, CN101425733-A,2007
7. YANG B,et al, Magnetic drive switching device for electric power system, CN101221865-A, 2008
8. YANG B,et al, Fast linear motor, CN101207320-A; CN101207320-B,2008
9. YANG Bintang: INCHWORM-MOTION LINEAR MOTOR BASED ON ELECTROMAGNETIC CLAMPING MECHANISMS. SHANGHAI JIAOTONG UNIVERSITY, CN201010291475.2
10. YANG Bintang,et al,SELF-DRIVEN JOINT. / JOINT AUTO-ENTRAÎNÉ. SHANGHAI JIAOTONG UNIVERSITYMarch 2012: WO 2012/037777(PCT)
11. YANG Bintang: INCHWORM-MOTION LINEAR MOTOR BASED ON ELECTROMAGNETIC CLAMPING MECHANISMS. SHANGHAI JIAOTONG UNIVERSITYMay 2012: WO 2012/062034(PCT)

ASME Member,EUSPEN Member, CMAE senior member,Member,China Instrument&control society member，
Reviewer of Journal of Applied Physics, Mechatronics, Smart Materials and Structures, Journal of Intelligent Material Systems and Structures

2008 Shanghai PUJIANG Talent, Shanghai,China
2016 First award of technology invention of the Ministry of Education, China