[1]   Wang D H, Wang S J, and Jia P G, In-line silica capillary tube all-silica fiber-optic Fabry-Perot interferometric sensor for detecting HIFU fields, Optics Letters, Vol. 37, Iss. 11, pp. 2046–2048 (2012)

[2]   Zhu W and Wang D H, Non-symmetrical Bouc-Wen model for piezoelectric ceramic actuators Sensors & Actuators: A. Physical, 27-APR-2012, DOI information: 10.1016/j.sna.2012.03.048

[3]   Wang D H, Yang Q, and Dong H M, A Monolithic Compliant Piezoelectric-Driven Microgripper: Design, Modeling, and Testing, IEEE/ASME Transactions on Mechatronics, on line published as DOI: 10.1109/TMECH.2011.2163200, Date of Publication: 12 Sep 2011

[1]   Wang D H and Bai X X, Pareto optimization based tradeoff between the controllable damping force and the sensed relative displacement of a self-sensing magnetorheological damper, Journal of Intelligent Material Systems and Structures, Vol 22, No 13, 1451-1467, Sep 2011 (2010 Best Student Paper Award on Symposium 4 of ASME 2010 Conference on Smart Materials, Adaptive Structures and Intelligent Systems)

[2]   Wang D H, Zhu W, and Yang Q, Linearization of stack piezoelectric ceramic actuators based on Bouc-Wen model, Journal of Intelligent Material Systems and Structures, Vol 22, No 5, 401-413, Mar 2011

[3]   Wang D H and Yuan G, A six-degree-of-freedom acceleration sensing method based on six coplanar single-axis accelerometers, IEEE Transactions on Instrumentation and Measurement, Vol 60, No 4, 1433-1442, Apr 2011

[4]   Wang D H and Zhu W, A phenomenological model for pre-stressed piezoelectric ceramic stack actuators, Smart Materials and Structures, Vol 20, No 3, 035018(11pp), Mar 2011

[5]   Wang D H and Liao W H, Topical Review: Magnetorheological fluid dampers: A review of parametric modeling, Smart Materials and Structures, Vol 20, No 2, 023001(34pp), Jan 2011

[6]   Wei Zhu and Dai-Hua Wang A comprehensive model for piezoelectric ceramic stack actuators, 22th International Conference on Adaptive Structures and Technologies (ICAST 2011), Corfu, Greece, 10-12 Oct, 2011

[7]   Wang D H and Zhou L T, An Energy Management Circuit for Self-Powered Self-Sensing Magnetorheological Dampers, 22th International Conference on Adaptive Structures and Technologies (ICAST 2011), Corfu, Greece, 10-12 Oct, 2011

[8]   袁刚, 王代华, 一种压电式六维加速度传感器的校准方法研究，仪器仪表学报, Vol 32, No 8, 1681-1689, Aug 2011/ Yuan G and Wang D H, Research on the Calibration Method for the Piezoelectric Six Degree-of-Freedom Accelerometer, Chinese Journal of Scientific Instrument, Vol 32, No 8, 1681-1689, Aug 2011

[9]   袁刚, 王代华, 一种压电式六维加速度传感器的快速原型及其特性, 仪器仪表学报, Vol 32, No 2, 356-362, Feb 2011 / Yuan G and Wang D H, Principle and characteristics of the rapid prototype of a piezoelectric six degree-of-freedom accelerometer, Chinese Journal of Scientific Instrument, Vol 32, No 2, 356-362, Feb 2011

[10]   赵艳, 王代华, 用于光纤法珀传感器腔长互相关解调的光楔的数学模型研究, 光学学报, Vol 31, No 1, 0106007(7pp), Jan, 2011/ Zhao Y and Wang D H, Mathematical Model of Optical Wedges for the Cross-correlation Demodulation of the Cavity Length of Optical Fiber Fabry-Perot Sensors, Acta Optica Sinica (in Chinese), Vol 31, No 1, 0106007(7pp), Jan 2011

[11]   王代华，黄海，光纤传感用半导体激光器光频调制驱动电源，激光杂志，Vol 32, No 1, 32-34, Jan 2011/Wang D H and Huang H, Electrical driving source for semiconductor lasers for optic fiber sensors based on direct frequency modulation, Laser Journal, Vol 32, No 1, 32-34, Jan 2011

[12]   王代华, 磁流变器件的自供能与自传感原理及关键技术[大会特邀报告], 第六届全国电磁流变液及其应用学术会议, 2011年11月16日—18日, 浙江宁波/Wang D H, Self-powering and self-sensing principle of magnetorheological devices [Invited Plenary Speech], 6th National Conference on ER/MR Fluids and Applications, Ningbo, Zhejiang, 16-18 Nov, 2011

[13]   白先旭, 王代华, 付航, 一种具有圆环形-圆盘形液流通道的磁流变阻尼器, 第六届全国电磁流变液及其应用学术会议, 2011年11月16日—18日, 浙江宁波/ Bai X X, Wang D H, and Fu H, A magnetorheological damper with annular-radical fluid channels, 6th National Conference on ER/MR Fluids and Applications, Ningbo, Zhejiang, 16-18 Nov, 2011

[14]   王代华, 付航, 严松林, 用于工程机械驾驶室振动隔离的一种新型磁流变悬置, 第六届全国电磁流变液及其应用学术会议, 2011年11月16日—18日, 浙江宁波/Wang D H, Fu H, and Yan S L, A novel magnetorheological mount for drivers cabins of engineering machines, 6th National Conference on ER/MR Fluids and Applications, Ningbo, Zhejiang, 16-18 Nov, 2011

[1]   Wang D H and Huo J, Modeling and testing for the static deflections of circular piezoelectric unimorph actuators, Journal of Intelligent Material Systems and Structures, Vol 21, No 16, 1603-1616, Nov 2010

[2]   Wang D H, Bai X X, and Liao W H, An integrated relative displacement self-sensing magnetorheological damper: prototyping and testing, Smart Materials and Structures, Vol 19, No 10, 105008 (19pp), October 2010

[3]   Wang D H and Bai X X, Pareto optimization based tradeoff between the controllable damping force and the relative displacement Sensing of a self-sensing magnetorheological damper, Proceedings of the ASME 2010 Conference on Smart Materials, Adaptive Structures and Intelligent Systems, September 28-October 1, 2010, Philadelphia, Pennsylvania, SMASIS2010-3716 (15pp) (2010 Best Student Paper Award on Symposium 4 of ASME 2010 Conference on Smart Materials, Adaptive Structures and Intelligent Systems)

[4]   Wang D H and Bai X X, Principle of a Self-Powered Self-Sensing Magnetorheological Damper, Proceedings of the 21th International Conference on Adaptive Structures and Technologies (ICAST 2010), PennState, USA,4-6 Oct, 2010

[5]   王代华, 霍静, 圆形压电单晶执行器的静态模拟与实验验证, 压电与声光, Vol 32, No 6, 987-990, Dec 2010/ Wang D H and Huo J, Static Modeling and Experimental Validation for Circular Piezoelectric Unimorph Actuators, Piezoelectrics & Acoustooptics (in Chinese), Vol 32, No 6, 987-990, Dec 2010

[6]   王代华, 周锋, 吴朝明, 基于阈值的调焦方向判断方法, 仪器仪表学报, Vol 31, No 8, 1813-1818, August 2010/ Wang D H, Zhou F, and Wu Z M, A direction judgment method for autofocus based on thresholds, Chinese Journal of Scientific Instrument, Vol 31, No 8, 1813-1818, August 2010

[7]   王代华, 刘书信, 贾平岗, 袁刚, 赵艳, 多通道并联复用光纤法珀加速度传感器及其信号解调方法的研究, 光学学报, Vol 30, No 6, 1776-1782, June 2010 / Wang D H, Liu S X, Yuan G, Jia P G, and Zhao Y, Study on parallel multiplexed Fabry-Perot fiber optic accelerometers and the signal demodulation method, Acta Optica Sinica (in Chinese), Vol 30, No 6, 1776-1782, June 2010

[8]   王代华, 杨群, 一种压电致动微夹钳及其开环位移特性, 纳米技术与精密工程, Vol 8, No 1, 47-53, January 2010 / Wang D H and Yang Q, A piezoelectrically driven microgripper and its open-loop displacement characteristics, Nanotechnology and Precision Engineering (in Chinese), Vol 8, No 1, 47-53, January 2010

[9]   王代华, 朱炜, WTYD型压电陶瓷微位移器的迟滞特性模拟, 光学精密工程, Vol 18, No 1, 205-211, January 2010 / Wang D H and Zhu W, The hysteretic modeling and experimental verification for WTYD type piezoceramic micro-actuators, Optics and Precision Engineering (in Chinese), Vol 18, No 1, 205-211, January 2010

[1]   Wang D H and Liao W H, Semi-active suspension systems for railway vehicles using magnetorheological dampers. Part II: Simulation and analysis, Vehicle System Dynamics, Vol. 47, No. 12, 1439–1471, December 2009

[2]   Wang D H and Liao W H, Semi-active suspension systems for railway vehicles using magnetorheological dampers. Part I: System integration and modeling, Vehicle System Dynamics, Vol. 47, No. 11, 1305–1325, November 2009

[3]   Wang D H, Ai H X, and Liao W H, A magnetorheological valve with both annular and radial flow resistance gaps, Smart Materials and Structures, Vol 18, No 11, Article No 115001(16pp), November 2009

[4]   Wang D H, Zhu W, Yang Q, and Ding W M, A high-voltage and high-power amplifier for driving piezoelectric stack actuators, Journal of Intelligent Material Systems and Structures, Vol 20, No 16, 1987-2001, October 2009

[5]   Wang D H and Wang T, Principle, design and modeling of an integrated relative displacement self-sensing magnetorheological damper based on electromagnetic induction, Smart Materials and Structures, Vol 18, No 9, Article No 095025(20pp), September 2009

[6]   Wang D H and Zhu W, Letter to the editor Re: “A limit cycle approach for the parametric identification of hysteretic systems” [Systems & Control Letters 57 (2008) 663-669], Systems & Control Letters, Vol 58, No 9, 700-701, September 2009

[7]   Wang D H, Zhu W, and Yang Q, Linearization of stack piezoelectric ceramic actuators based on Bouc-Wen model, Proceedings of the 20th International Conference on Adaptive Structures and Technologies (ICAST 2009), Hong Kong, pp 41-52, 20-22 Oct, 2009

[8]   王代华, 高大勇, 袁刚, 基于DSP的六维加速度传感器信号采集与处理，压电与声光，Revision: 25 May 2009 / Wang D H, Gao D Y, and Yuan G, DSP based data acquisition and processing of a six degree-of-freedom accelerometer, Piezoelectrics & Acoustooptics (in Chinese), Revision: 25 May 2009

[9]   雷玉常, 王代华, 袁刚, 一种基于最远Voronoi图的最小外接圆求解方法, 计量学报, Vol 30, No 2, 111-114, Mar 2009 / Lei Y C, Wang D H, and Yuan G, Algorithm for minimum circumscribed circle detection based on the farthest Voronoi diagram, Acta Metrologica Sinica (in Chinese), Vol 30, No 2, 111-114, Mar 2009

[10]   程磊, 王代华, 一种高轴向刚度三轴转动柔性铰的有限元分析与模拟, 机械设计, Vol 26, No 1, 9-13, Jan 2009 / Cheng L and Wang D H, Finite element analysis and simulation on a kind of 3 axle rotary flexible hinge with high axial rigidity, Journal of Machine Design (in Chinese), Vol 26, No 1, 9-13, Jan 2009

[11]   王代华, 专业综合课程设计在高等工程教育中的作用和地位[大会特邀报告], 2009 年高等学校仪器科学与技术教学研讨会,长春, 2009 年7 月28 日－8 月1 日/ Wang D H, Functions and Status of Specialty Synthetical Course Projects in Higher Engineering Education [Invited Plenary Speech], 2009 Education Conference on Instrument Science and Technology in Universities, Changchun, 28 July-1 Aug, 2009

[1]   Wang D H, Wang T, Bai X X, Yuan G, and Liao W H, A self-sensing magnetorheological shock absorber for motorcycles, Proceedings of 19th International Conference on Adaptive Structures and Technologies (ICAST 2008), Ascona, Switzerland, 6-9 October 2008

[2]   Han P, Wang T, and Wang D H, Modeling and control of a Stewart platform based six-axis hybrid vibration isolation system, Proceedings of the 7th World Congress on Intelligent Control and Automation (WCICA'08), pp. 1613-1618, 25-27 June 2008

[3]   Yuan G, Wang D H, Hou X H, and Zhao Y, Rapid prototyping of a piezoelectric six-axis accelerometer, Proceeding of the 7th World Congress on Intelligent Control and Automation (WCICA'08), pp. 2723-2726, 25-27 June 2008

[4]   王代华, 明亮, 基于压电致动的微流体主动控制阀的研究, 压电与声光, Vol 30, No 5, 547-550, 2008 / Wang D H and Ming L, Study on an active controlled microfluidic valve utilizing the unimorph circular piezoelectric actuator, Piezoelectrics & Acoustooptics (in Chinese), Vol 30, No 5, 547-550, 2008

[5]   丁文明, 王代华, 一种压电陶瓷执行器动态驱动电源, 压电与声光, Vol 30, No 3, 297-300, 2008 / Ding W M and Wang D H, A dynamic power supply for piezoelectric actuators, Piezoelectrics & Acoustooptics (in Chinese), Vol 30, No 3, 297-300, 2008

[6]   侯向红, 王代华, 袁刚, 一种快速开关响应式多通道电荷放大器, 压电与声光, Vol 30, No 3, 272-275, 2008 / Hou X H, Wang D H, and Yuan G, A multi-channel charge amplifier with rapid on-off response, Piezoelectrics & Acoustooptics (in Chinese), Vol 30, No 3, 272-275, 2008

[7]   王代华, 磁流变阻尼器的集成传感技术[大会特邀报告], 第五届全国电磁流变液及其应用学术会议, 大连, 2008年10月23日-25日/Wang D H, Self-sensing technology of magnetorheological dampers [Invited Plenary Speech], 5th National Conference on ER/MR Fluids and Applications, Dalian, 23-25 Oct, 2008

[8]   汪涛, 王代华, 智能阻尼器的瞬态磁场有限元分析, 第五届全国电磁流变液及其应用学术会议论文集, 大连, 2008年10月23日-25日/Wang T and Wang D H, Analyzing the transient magnetic field in the smart damper with finite element method, 5th National Conference on ER/MR Fluids and Applications, Dalian, 23-25 Oct, 2008

[1]   Wang D H and Liao W H, Semi-active suspension systems for railway vehicles based on magnetorheological fluid dampers, Proceedings of the ASME 2007 International Design Engineering Technical Conferences & Computers and Information in Engineering Conference, DETC2007-34776, 4-7 September, 2007

[2]   王代华, 袁刚, 赵艳, 侯向红, 一种六维加速度传感器原理的研究, 微纳电子技术, Vol 30, No 7/8, 168-171, 2007 / Wang D H, Yuan G, Zhao Y, and Hou X H, Study of principle of a 6-DOF accelerometer, Micronanoelectronic Technology (in Chinese), Vol 44, No 7, 168-171, 2007

[3]   王代华, 在测控技术及仪器专业教学中开设专业综合课程设计的实践, 高等工程教育研究, No 3, 125-128, 2007 / Wang D H, Practice on guiding the specialty synthetical course project in the major of measurement control technology and instruments, Researches in Higher Education of Engineering (in Chinese), No 3, 125-128, 2007

[1]   Wang D H and Liao W H, Wireless transmission for health monitoring of large structures, IEEE Transactions on Instrumentation and Measurement, Vol 55, No 3, 972-981, 2006

[2]   Ai H X, Wang D H, and Liao W H, Design and modeling of a magnetorheological valve with both annular and radial flow paths, Journal of Intelligent Material Systems and Structures, Vol 17, No 4, 327-334, 2006

[3]   Wang D H and Lai D K, A magnetoelectric relative displacement self-sensing magnetorheological damper, Proceedings of the 10th International Conference on Electrorheological (ER) Fluids and Magneto-rheological (MR) Suspensions, Lake Tahoe, CA, USA, 18-22 June, 2006

[4]   Wang D H, Yuan G and Liao W H, Experimental validation of a signum function based damper controller for MR fluid dampers, Proceedings of the 10th International Conference on Electrorheological (ER) Fluids and Magneto-rheological (MR) Suspensions, Lake Tahoe, CA, USA, 18-22 June, 2006

[5]   袁刚, 王代华, 李一平, 摩托车用磁流变阻尼器的可控电流驱动器, 功能材料, Vol 37, No 5, 736-738, 2006 / Yuan G, Wang D H, and Li Y P, A controllable current driver for motorcycle used magnetorheological fluid dampers, Journal of Functional Materials (in Chinese), Vol 37, No 5, 736-738, 2006

[6]   赖大坤，王代华, 基于有限元方法的磁流变阻尼器性能的仿真研究, 功能材料, Vol 37, No 6, 999-1002, 2006 / Lai D K and Wang D H, Finite element method based performance prediction of magnetorheological dampers, Journal of Functional Materials (in Chinese), Vol 37, No 6, 999-1002, 2006

[7]   王代华, 艾红霞, 磁流变复合液压执行器及其效率研究, 功能材料, Vol 37, No 7, 1183-1186, 2006 / Wang D H ?and Ai H X, Magnetorheological hybrid hydraulic actuator and its efficiency, Journal of Functional Materials (in Chinese), Vol 37, No 7, 1183-1186, 2006

[8]   王代华, 赖大坤, 一种磁流变阻尼器振动自传感技术, 功能材料, Vol 37, No 7, 1176-1178, 2006 / Lai D K and Wang D H, A vibration self-sensing technique for magnetorheological dampers, Journal of Functional Materials (in Chinese), Vol 37, No 7, 1176-1178, 2006

[9]   王代华, 袁刚, 李一平, 一种磁流变阻尼器的阻尼器控制器的实验测试, 功能材料, Vol 37, No 7, 1156-1159, 2006 / Wang D H Yuan G, and Li Y P, Experimental testing of a damper controller for magnetorheological dampers, Journal of Functional Materials (in Chinese), Vol 37, No 7, 1156-1159, 2006

[10]   王代华, 艾红霞, 一种高效磁流变阀及其特性测试, 功能材料, Vol 37, No 7, 1179-1182, 2006 / Wang D H? and Ai H X, A high efficient magnetorheological valve and its testing, Journal of Functional Materials (in Chinese), Vol 37, No 7, 1179-1182, 2006

[1]   Wang D H and Liao W H, Semiactive controllers for magnetorheological fluid dampers, Journal of Intelligent Material Systems and Structures, Vol 16, No 11/12, 983-993, 2005

[2]   Wang D H and Liao W H, Modeling and control of magnetorheological fluid dampers using neural network, Smart Materials and Structures, Vol 14, No 1, 111-126, 2005

[3]   Xu P and Wang D H, Vibration isolation modeling of Stewart platform through Newton-Euler approach, Proceedings of SPIE Conference on Smart Structures and Materials, Vol 5764, pp. 650-661, 6-10 March, 2005

[4]   Lai D K and Wang D H, Principle, modeling, and validation of a relative displacement self-sensing magnetorheological damper, Proceedings of SPIE Conference on Smart Structures and Materials, Vol 5764, pp. 130-141, 6-10 March, 2005

[5]   Liang Z, Chen W, Wang D H, Fu Y, and Zhu Y, A technique for damage diagnosis of bridge structure based on information fusion, Proceedings of SPIE Conference on Nondestructive Evaluation and Health Monitoring of Aerospace Materials, Composites, and Civil Infrastructure, Vol 5767, pp. 408-415, 6-10 March, 2005

[6]   Lai D K and Wang D H, An integrated relative displacement sensor for magnetorheological damper, Proceedings of 2005 IEEE International Conference on Information Acquisition, Hong Kong and Macau, China, pp. 227-232, 27 June-3 July 2005

[7]   赖大坤，王代华, 基于有限元方法的磁流变阻尼器性能的仿真研究, 第四届全国电磁流变液及其应用学术会议, 2005年12月14日—16日, 重庆/ Lai D K and Wang D H, Finite Element Method Based Performance Prediction of Magnetorheological Dampers, 4th National Conference on ER/MR Fluids and Applications, Chongqing, 14-16 Dec, 2005

[8]   王代华，袁刚，李一平, 一种磁流变阻尼器的阻尼器控制器的实验测试, 第四届全国电磁流变液及其应用学术会议, 2005年12月14日—16日, 重庆/Wang D H, Yuan G, and Li Y P, Experimental Testing of a Damper Controller for Magnetorheological Dampers, 4th National Conference on ER/MR Fluids and Applications, Chongqing, 14-16 Dec, 2005

[9]   `王代华，艾红霞, 磁流变复合液压执行器及其效率研究, 第四届全国电磁流变液及其应用学术会议, 2005年12月14日—16日, 重庆/ Wang D H and Ai H X, Magnetorheological Hybrid Hydraulic Actuator and its Efficiency, 4th National Conference on ER/MR Fluids and Applications, Chongqing, 14-16 Dec, 2005

[10]   王代华，艾红霞, 一种高效磁流变阀及其特性测试, 第四届全国电磁流变液及其应用学术会议, 2005年12月14日—16日, 重庆/ Wang D H and Ai H X, A High Efficient Magnetorheological Valve and its Testing, 4th National Conference on ER/MR Fluids and Applications, Chongqing, 14-16 Dec, 2005

[11]   赖大坤，王代华, 磁流变阻尼器的一种振动自传感技术, 第四届全国电磁流变液及其应用学术会议, 2005年12月14日—16日, 重庆/ Lai D K and Wang D H, A Vibration Self-Sensing Technique for Magnetorheological Dampers, 4th National Conference on ER/MR Fluids and Applications, Chongqing, 14-16 Dec, 2005

[12]   袁刚，王代华，李一平, 摩托车用磁流变阻尼器的可控电流驱动器, 第四届全国电磁流变液及其应用学术会议, 2005年12月14日—16日, 重庆/Yuan G, Wang D H, and Li Y P, A Controllable Current Driver for Motorcycle Used Magnetorheological Fluid Dampers, 4th National Conference on ER/MR Fluids and Applications, Chongqing, 14-16 Dec, 2005

[1]   Ai H X, Wang D H, and Liao W H, Design and modeling of a magnetorheological valve with both annular and radial flow paths, Proceeding of 9th International International Conference on Electrorheological (ER) Fluids and Magneto-rheological (MR) Suspensions, Beijing, China, 29 August-3 September 2004

[2]   徐鹏, 王代华, Simulink环境下的Stewart平台的动力学仿真, 仪器仪表学报, Vol 25, No 4, 118-122, 2004 / Xu P and Wang D H, Dynamic simulation of Stewart platform in Simulink, Chinese Journal of Scientific Instrument (in Chinese), Vol 25, No 4, 118-122, 2004

[1]   Liao W H and Wang D H, Semiactive vibration control of train suspension systems via magnetorheological dampers, Journal of Intelligent Material Systems and Structures, Vol 14, No 3, 161-172, 2003

[2]   Wang D H and Liao W H, Ride quality improvement ability of semi-active, active and passive suspension systems for railway vehicles, Proceedings of SPIE Conference on Smart Structures and Materials, Vol 5056, pp. 201-212, 2003

[3]   Wang D H and Liao W H,Semiactive controllers for magnetorheological fluid dampers, Proceedings of 14th International Conference on Adaptive Structures and Technologies, pp. 111-120, 2003

[1]   Liao W H, Wang D H, and Huang S L, Wireless monitoring of cable tension of cable-stayed bridges using PVDF piezoelectric films, Journal of Intelligent Material Systems and Structures, Vol12, No 5, 331-339, 2001

[2]   Liao W H and Wang D H, Semiactive vibration control of train suspension systems via magnetorheological dampers, Proceedings of the 12th International Conference on Adaptive Structures and Technologies (ICAST 2001), CRC Press, pp. 137-146, 15-17 October 2001

[3]   Wang D H and Liao W H,Neural network modeling and controllers for magnetorheological fluid dampers, Proceedings of2001 IEEE International Fuzzy Systems Conference, Melbourne, Australia, pp. 1323-1326, December 2001

[4]   Wang D H and Liao W H, Instrumentation of a wireless transmission system for health monitoring of large infrastructures, Proceedings of the 18th IEEE Instrumentation and Measurement Technology Conference (IMTC 2001), Budapest, Hungary, Vol 1, pp. 634-6391, 21-23 May, 2001

[5]   王代华, 基于压电传感的斜拉索动力特性在线监测, 压电与声光; Vol 23, No 1, 80-84, 2001 / Wang D H, In-situ monitoring theory and method for stayed-cables dynamic response based on piezoelectric sensors, Piezoelectrics & Acoustooptics (in Chinese), Vol 23, No 1, 80-84, 2001

[1]   Wang D H and Huang S L, Health monitoring and diagnosis for flexible structures with PVDF piezoelectric film sensor array, Journal of Intelligent Material Systems and Structures, Vol 11, No 6, 482-491, 2000

[2]   Liao W H and Wang D H, A wireless transmission system for monitoring cable tension of cable-stayed bridges using PVDF piezoelectric films, Proceedings of the 11th International Conference on Adaptive Structures and Technologies, Nagoya, Japan, pp. 277-284, October 23-26, 2000

[3]   Wang D H and Liao W H, Application of MR dampers for semiactive suspension of railway vehicles, Proceedings of the International Conference on Advances in Structural Dynamics: Advances in Structural Dynamics, Edited by J M Ko and Y L Xu, Hong Kong, China, Elsevier Science Ltd., Vol II, pp. 1389-1396, 13-15 December, 2000

[4]   Wang D H, Sun W, Liao W H, Li W J, and Huang S L, Wireless in-situ monitoring of stayed-cable tension of cable-stayed bridges using PVDF sensors, Proceedings of the International Forum Cum Conference on Information Technology and Communication at the Dawn of the New Millennium, Bangkok, Thailand, pp. 457-466, August 1-4, 2000

[5]   王代华, 熊炼, 周徳高, 黄尚廉, 基于神经网络的柔性结构损伤模式识别方法, 振动、测试与诊断, Vol 20, No 4, 240-244, 2000 / Wang D H, Zhou D G, and Huang S L, The identification method of flexible structures’ damages modes based on artificial neural network (ANN), Journal of Vibration, Measurement and Diagnosis (in Chinese), Vol 20, No 4, 240-244, 2000

[6]   王代华, 黄尚廉, 斜拉桥横向振动的半主动筋腱控制, 应用力学学报, Vol 17, No 2, 12-18, 2000 / Wang D H and Huang S L, Semi-active tendon control to transitive vibration of cable-stayed bridge, Chinese Journal of Applied Mechanics (in Chinese), Vol 17, No 2, 12-18, 2000

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