董维杰 - 大连理工大学 - 电气工程学院

个人简介

教育经历 1997.9 -- 2004.3 大连理工大学机械电子工程博士 1991.9 -- 1994.7 大连理工大学/电子工程系测试计量技术与仪器硕士 1987.9 -- 1991.7 大连理工大学/电子工程系工企自动化学士 1984.9 -- 1987.7 吉林省白山市松树镇煤矿一中理科工作经历 2016.11 -- 至今电气工程学院教授 2009.12 -- 2016.11 电子科学与技术学院副院长 1997.8 -- 2009.12 电子信息工程学院 1994.7 -- 1997.8 电子工程系 2007.10 -- 2009.12 电子与信息工程学院教授 2002.10 -- 2007.10 电子与信息工程学院副教授

研究领域

1.压电振动能量收集技术、压电传感器与执行器； 2. 无线传感器网络应用; 3.基于嵌入式系统的精密定位控制

近期论文

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[1] 李冠林."电路理论"课中频率特性的研究教学初探[J],中国电力教育,2022,36:95-96 [2] 周惠巍.基于电气故障探究的电路理论教学法探究[J],中国电力教育,2022,33:108-109 [3] 董维杰.基于状态观测器的压电自感知执行器研究[J],机械工程学报,2022,7:80-83 [4] 崔岩.基于硅基PZT微力传感器标定系统的初步研究[A],中国微米纳米技术第七届学术年会,2022,Vol.16:372-374 [5] 白凤仙.基于等效磁荷法的同轴圆形磁体磁力简化计算[J],磁性材料及器件,2022,06:14-20 [6] 张小军.基于虚拟仪器的铁电薄膜电滞回线测量系统设计[J],计算机测量与控制,2022,14(2):152-154 [7] 崔岩.基于硅基PZT微力传感器标定系统的初步研究[J],中国机械工程,2022,16(z1):372-374 [8] 崔玉国.基于纳米定位的压电陶瓷执行器控制方法的研究进展[J],中国机械工程,2022,2:164-168 [9] 崔玉国.基于积分器的压电陶瓷自感知执行器研究[J],大连理工大学学报,2022,6:845-850 [10] 娄敏.基于空分复用的自感知压电夹钳的研究[J],国外电子测量技术,2022,26(1):48-52 [11] 白凤仙.基于频率特性的Rosen压电变压器参数的仿真测量和分析[J],电源学报,2022,3:1-6 [12] 陈希有.工程教育导向下的电气信息类教材建设[J],电气电子教学学报,2022,2:149-152 [13] 杨志欣.微机器人关键技术及应用[J],机床与液压,2022,6:3-6,20 [14] 李铮.微结构PDMS压电俘能器设计与特性研究[J],功能材料,2022,49(6):6114-6118,6123 [15] 白凤仙.悬臂梁式压电振动能量收集系统输出功率的优化研究[J],电子学报,2022,5:883-889 [16] 白凤仙.悬臂梁电极长度对压电俘能电气特性的影响研究[J],电子学报,2022,47(11):2256-2262 [17] 刘梦伟.改进的溶胶-凝胶法制备不同厚度的PZT薄膜[A],第五届中国功能材料及其学术会议,2022,3224-3227 [18] 刘梦伟.改进的溶胶-凝胶法制备不同厚度的PZT薄膜[J],功能材料,2022,z1:3224-3227 [19] 杨志欣.柔性结构振动自适应模糊控制与实验研究[J],压电与声光,2022,23(1):74-76 [20] 杜立群.水热法制备压电双晶片的研究[J],压电与声光,2022,3:331-334 [21] 刘刚.油漆涂层下PVDF的应变传感及测量方法研究[J],压电与声光,2022,29(5):615-618 [22] 白凤仙.浅谈双口网络参数的课堂教学[J],电气电子教学学报,2022,34(3):13-15,18 [23] 白凤仙.浅谈"电路理论"课程教学中的体会[J],电气电子教学学报,2022,32(6):67-69 [24] 陈希有.浅析电路课程教材两种不同体系[J],电气电子教学学报,2022,42(4):1-3 [25] 喻言.深海海洋平台监测的多变量自容式传感器设计[J],仪表技术与传感器,2022,6:10-12 [26] 白凤仙.Design and testing of wind energy harvester based on PVDF[A],The 11th International Symposium of Measurement Technology and Intelligent Instruments,2022 [27] Song, Yang.Design of Self-contained Sensor for Monitoring of Deep-sea Offshore Platform[A],Conference on Sensors and Smart Structures Technologies for Civil, Mechanical, and Aerospace Systems,2022,8692 [28] Shao, Chunyu.Effect of europium doping on electrical properties of PZT films[A],SURFACE REVIEW AND LETTERS,2022,15(1-2):1-5 [29] Shao, Chunyu.Effect of europium doping on electrical properties of PZT films[J],SURFACE REVIEW AND LETTERS,2022,15(1-2):1-5 [30] Shao, Chunyu.Effect of europium doping on electrical properties of PZTt films[A],Surface Review and Letters,2022,15(1-2):1-5 [31] 白凤仙.Effects of electrode layouts on electrical characteristics for unipoled step-down piezoelectric tr[A],18th IEEE International Symposium on Applications of Ferroelectrics,2022,366-370 [32] Liu, MW.Effect of thickness on microstructure and electrical properties of PZT films prepared by a modifie[J],FERROELECTRICS,2022,328:21-25 [33] 王大志.Electrohydrodynamic atomization deposition and mechanical[J],CERAMICS INTERNATIONAL,2022,42(11):12623-12629 [34] 王大志.Electrohydrodynamic atomization deposition and mechanical polishing of PZT thick films[J],CERAMICS INTERNATIONAL,2022,42(11):12623-12629 [35] 王大志.Electrohydrodynamic jet printing of PZT thick film micro-scale structures[J],JOURNAL OF THE EUROPEAN CERAMIC SOCIETY,2022,35(13):3475-3483 [36] Huang, Jian-Qiu.Experimental Study on the Dielectrostriction of SiO2 with a Micro-Fabricated Cantilever[A],8th IEEE Conference on Sensors,2022,1030-+ [37] 白凤仙.Fan-structure wind energy harvester using circular array of polyvinylidene fluoride cantilevers[J],JOURNAL OF INTELLIGENT MATERIAL SYSTEMS AND STRUCTURES,2022,28(5):653-662 [38] 白凤仙.Fan-structure wind energy harvester using circular arry of polyvinylidene fluoride cantilevers[J],JOURNAL OF INTELLIGENT MATERIAL SYSTEMS AND ATRUCTURES,2022,28(5):653-662 [39] 崔岩.Fabrication and characterisation of piezoelectric microcantilever probe[J],Micro Nano Letters,2022,7(4):306-308 [40] 杜立群.FABRICATION OF PIEZOELECTRIC BIMORPH USING LEAD ZIRCONATE TITANATE THIN FILM DEPOSITED BY HYDROTHE[J],Chinese Journal of Mechanical Engineering,2022,20(6):5-8 [41] Zhao, Jihe.Investigation of a d(15) mode PZT-51 piezoelectric energy harvester with a series connection struc[J],SMART MATERIALS STRUCTURES,2022,21(10) [42] 董维杰.Investigation of energy harvest using a piezoelectric unimorph post-buckled by a stretching spring[A],The 11th International Symposium of Measurement Technology and Intelligent Instruments,2022 [43] Shengfu, Sun.Investigation of energy harvest using a piezoelectric unimorph post-buckled by a stretching spring[A],11th International Symposium on Measurement Technology and Intelligent Instruments, ISMTII 2013,2022,613:193-199 [44] 董维杰.Investigation of energy harvest using a piezoelectric unimorph post-buckled by a stretching spring[J],KEY ENGINEERING MATERIALS,2022,613:193-199 [45] 崔岩.Vibration piezoelectric energy harvester with multi-beam[J],AIP Advances,2022,5(4) [46] 杨志欣.一种新型惯性式压电执行器研究[J],大连理工大学学报,2022,1:45-49 [47] 邵春玉.不同组分PZT压电薄膜的性能[J],功能材料与器件学报,2022,2:123-128 [48] 殷小林.不锈钢基压电厚膜俘能器的制作与性能测试[J],压电与声光,2022,2:203-206 [49] 杨淑.全叉指电极d33模式压电悬臂梁俘能器研究[J],传感器技术,2022,11:52-55 [50] 靳亚静.2*4阵列PVDF薄膜键盘设计[J],Piezoelectrics and Acoustooptics,2022,33(6):954-957 [51] 董维杰.Design and fabrication of piezoelectric sensor based on PVDF film for human pulse measurement[A],THE 10th INTERNATIONAL SYMPOSIUM OF MEASUREMENT TECHNOLOGY AND INTELLIGENT INSTRUMENTS,2022 [52] 陈希有.理想变压器特性方程教学方法讨论[J],电气电子教学学报,2022,32(4):55-58,90 [53] 陈希有.由卷积想到的计量单位及相关物理概念[J],电气电子教学学报,2022,39(4):36-39,144 [54] 孙艳霞.盘式压电变压器与Rosen型的特性比较[J],大连交通大学学报,2022,31(2):71-73,88 [55] 董维杰.电路教学与审美[A],第四届全国高校电气类专业教学改革研讨会,2022 [56] 白凤仙."电路理论"课堂教学探讨[J],电气电子教学学报,2022,30(4):95-97 [57] 白凤仙.电路理论课程教学中的体会[A],高等学校电路和信号系统、电磁场教学与教材研究会第七届年会,2022 [58] 白凤仙.电路课程中含受控源电路教学的探讨[J],电气电子教学学报,2022,28(2):32-34 [59] 刘惠.电路课程中替代定理教学的探讨[J],电气电子教学学报,2022,32(3):27-29 [60] 董维杰."电路"课程教学与审美[J],电气电子教学学报,2022,40(5):5-8,56 [61] 董维杰.电压驱动与电流积分器相结合实现压电电荷控制[J],计算机测量与控制,2022,10(4):260-262 [62] 李国祥.矩阵显示屏的象素驱动模型及其应用[J],大连理工大学学报,2022,35(1):100 [63] 佟建华.硅基PZT薄膜微型悬臂的特性及其在微型传感器执行器上的应用[A],第二届全国信息获取与处理学术会议,2022,194-196 [64] 佟建华.硅基PZT薄膜微型悬臂的特性及其在微型传感器执行器上的应用[J],仪器仪表学报,2022,z1:194-196 [65] 李涵.空分复用压电自感知执行器执行与传感效果研究[J],振动与冲击,2022,5:40-44 [66] 陈希有.线性动态电路暂态过程全响应可加性的教学方法[J],中国电力教育,2022,6:101-103 [67] 马桂帅.自供电同步开关电感阻尼电路功率特性分析[J],电源学报,2022,5:37-42 [68] 庄乾霞.自感知压电微夹钳研究[J],大连理工大学学报,2022,6:819-823 [69] 董维杰.自感知执行器——传感器、执行器集成新概念[J],压电与声光,2022,23(2):120-123 [70] 陈希有.虚拟实验在"电路理论"课堂教学中的应用[J],电气电子教学学报,2022,32(6):72-75 [71] 董维杰.Measurement and Visualization of Dynamics of Piezoelectric Microcantilever[A],9th International Symposium on Measurement Technology and Intelligent Instruments,2022,437:30-+ [72] 董维杰.Measurement and visualization of dynamics of piezoelectric microcantilever[J],KEY ENGINEERING MATERIALS,2022,437(5):30-34 [73] 董维杰.Measurement on the actuating and sensing capability of a PZT microcantilever[J],MEASUREMENT SCIENCE TECHNOLOGY,2022,18(3):601-608 [74] Zhao, Yongfu.Modification of Sialylation Mediates the Invasive Properties and Chemosensitivity of Human Hepatoc[J],MOLECULAR CELLULAR PROTEOMICS,2022,13(2):520-536 [75] Li, Jiating.Optimization of Geometry and Electrode Coverage of Trapezoidal Piezoelectric Energy Harvester for Sp[A],Proceedings of 2021 IEEE 4th International Electrical and Energy Conference, CIEEC 2021,2022 [76] 栗峥.Position and force self-sensing piezoelectric valve with hysteresis compensation[J],JOURNAL OF INTELLIGENT MATERIAL SYSTEMS AND STRUCTURES,2022 [77] Liu, Mengwei.Piezoelectric microcantilevers with two PZT thin-film elements for microsensors and microactuators[A],IEEE International Conference of Nano/Micro Engineered and Molecular Systems,2022,775-+ [78] 马晓红.Piezoelectric self-sensing actuator for beam vibration control based on blind source separation[J],FERROELECTRICS,2022,358(1 PART 4):911-+ [79] 崔岩.Preliminary study of calibration system for PZT thin film micro force sensor[J],FERROELECTRICS,2022,358(1 PART 4):904-+ [80] 崔岩.Preparation and Properties of Pb1-xSrx (Zr0.53Ti0.47) O3 Thin Films by Sol-Gel Method[J],FERROELECTRICS,2022,405(1):255-261 [81] 杜立群.Preparation and properties of PZT bimorph on metal substrate by hydrothermal method[J],KEY ENGINEERING MATERIALS,2022,329:619-624 [82] 杜立群.PZT压电薄膜无阀微泵的制备工艺及实验研究[J],压电与声光,2022,4:492-494 [83] 王大志.PZT厚膜的电射流沉积研究[J],传感器技术,2022,2:19-22 [84] Shi, Lu.Research on the Relationship Between the Curvature and the Sensitivity of Curved PVDF sensor[A],9th International Symposium on Precision Engineering Measurements and Instrumentation (ISPEMI),2022,9446 [85] 徐永洁.Rosen型压电变压器反接降压特性研究[J],压电与声光,2022,6:712-714,717 [86] 白凤仙.Rosen型压电变压器并联联接的电气特性分析[A],第二届全国压电和声波理论及器件技术研讨会,2022,1 [87] 白凤仙.Rosen型压电变压器的并联特性仿真[J],系统仿真学报,2022,23:5536-5539,5586 [88] Cui, Yuguo.Self-sensing compounding control of piezoceramic micro-motion worktable based on integrator[A],6th World Congress on Intelligent Control and Automation,2022,1:5209-+ [89] Wu, Yinshuang.ST3Gal IV Mediates the Growth and Proliferation of Cervical Cancer Cells In Vitro and In Vivo Via th[J],FRONTIERS IN ONCOLOGY,2022,10 [90] Huang, Jian-Qiu.Strain Effect of the Dielectric Constant in Silicon Dioxide[J],JOURNAL OF MICROELECTROMECHANICAL SYSTEMS,2022,19(6):1521-1523 [91] 喻言.Strain properties analysis and wireless collection system of PVDF for structural local health moni[A],2nd International Conference on Smart Materials and Nanotechnology in Engineering,2022,7493 [92] Lu, Xiaoguang.Study on contact microforce measurement based on piezoelectric PZT thin film[A],6th World Congress on Intelligent Control and Automation,2022,2:8407-+ [93] 喻言.量大面广的“传感器网络技术”课程教学体系与考核方式研究[J],物联网技术,2022,9:38-39,43 [94] 董维杰.铁电薄膜电滞回线测量的快速数值补偿方法研究[J],电子学报,2022,11:2557-2560 [95] 白凤仙.阵列式压电俘能拓宽频带的研究[J],压电与声光,2022,5:695-703 [96] 董维杰.青年教师如何做好电路教学内容设计、提高教学效果[A],高等学校电路和信号系统、电磁场教学与教材研究会第六届年会,2022,30-33 [97] 崔岩.非线性压电式能量采集器[J],光学精密工程,2022,12:2737-2743 [98] 白凤仙.非接触PVDF压电悬臂梁风能收集系统特性研究[J],压电与声光,2022,41(1):124-129 [99] 董维杰.单轴应力下热氧化SiO2的介电电致伸缩系数研究[J],微纳电子技术,2022,5:302-305,312 [100] 邵春玉.压电传感器材料的铁电特性研究[A],中国仪器仪表学会第八届青年学术会议,2022,302-303