个人简历

个人简介
Personal Profile
高仁璟，担任大连理工大学车辆工程国家虚拟教学中心主任。近年来在国内外重要期刊发表学术论文70 余篇，授权国家发明专利20余项。出版教材5部，包括普通高等教育十二五规划教材1部，由机械工业出版社出版。近5年来主持国家自然科学基金面上项目2项，装备预先研究项目1项。参加973课题、GF973、中航产学研创新项目和国家自然科学基金10余项。主持完成和在研无线通信控制技术、车辆定位技术、料车无人驾驶、智能变体等设计开发项目20余项。
专利
一种方向性可控的微带天线
基于应变检测的新型铁磁物料检测装置
新型铁磁物料检测装置和方法
一种基于槽型悬臂梁结构的微质量传感器
一种新型的电磁减振器
一种基于被动悬架的电磁俘能系统
著作成果
数字电路与系统
数字电路与系统
微型计算及原理与应用
数字电子技术基础与设计
数字电路与系统
科研项目
前缘与柔性蒙皮变体结构设计与实验验证, 企事业单位委托科技项目, 2017/03/10-2018/02/28, 进行
可实现低频大带宽俘能的多稳态结构与储能系统协同设计, 国家自然科学基金项目, 2015/08/18, 进行
可变体结构形状控制驱动器与控制参数协同设计优化方法研究, 国家自然科学基金项目, 2013/09/25-2017/12/31, 完成
高超音速飞行器增材制造结构多功能协同优化设计理论和方法, 国家自然科学基金项目, 2018/12/07, 进行
基于非线性变刚度智能结构的可调低频振动传感器设计, 国家自然科学基金项目, 2018/08/16, 进行
授课信息
计算机硬件技术基础 /2019-2020 /秋学期 /44课时 /2.5学分 /1040340111
计算机硬件技术基础 /2019-2020 /秋学期 /44课时 /2.5学分 /1040340111
计算机硬件技术基础 /2018-2019 /秋学期 /44课时 /2.5学分 /1040340111
微机原理与接口 /2017-2018 /秋学期 /34课时 /2.0学分 /1040340290
汽车电力电子学 /2017-2018 /秋学期 /34课时 /2.0学分 /1040340280
计算机硬件技术 /2017-2018 /秋学期 /34课时 /2.0学分 /1040340110
科研奖励
辽宁省教学成果奖
大连理工大学优秀教学成果奖
2016年高等学校虚拟仿真实验教学资源建设成果奖
其他奖励
全国高等学校电子技术研究会实验成果优秀奖 （2010年）

研究领域

1.电动汽车电机设计与控制技术
2.车联网无线通信技术
3.电池SOC与SOH估计与管理技术
4.振动控制与振动能量俘获技术
5.智能变体技术"研究领域
电动汽车驱动电机设计与控制技术
车联网无线通信技术
电池SOC与SOH估计与管理技术
振动控制与振动能量俘获技术
智能结构与控制"

近期论文

[1]Li, Mingli,Gao, Renjing,Liu, Shutian,Tong, Liyong.Analysis and test of a novel pre-compressed cruciform energy harvester[J],SENSORS AND ACTUATORS A-PHYSICAL,2020,302
[2]高仁璟,李明丽,赵剑,刘书田.基于预应力和局部加强结构的特定性能双稳态结构设计[J],机械工程学报,2018,55(3):162-168
[3]Chen, Wenjiong,Tian, Xiangyu,Gao, Renjing,Liu, Shutian.A low porosity perforated mechanical metamaterial with negative Poisson's ratio and band gaps[J],SMART MATERIALS AND STRUCTURES,2018,27(11)
[4]Lyu, Zhiqiang,Gao, Renjing.A model-based and data-driven joint method for state-of-health estimation of lithium-ion battery in electric vehicles[J],INTERNATIONAL JOURNAL OF ENERGY RESEARCH,2019,43(14):7956-7969
[5]Wang, Qi,Gao, Renjing,Liu, Shutian,Liu, Chuan.Topology optimization-based design method of dual-band antennas[J],Multidiscipline Modeling in Materials and Structures,2017,13(1):11-25
[6]高仁璟,唐祯安,张凤田,王海霞,江胜峰.基于SOC的微气压传感器研究[A],2005,Vol.16:155-157
[7]高仁璟,李明丽,王奇,赵剑,刘书田.局部加强体对预压双稳态结构跳转力学特征的影响分析[J],光学精密工程,2018,26(4):884-893
[8]刘骥,刘书田,高仁璟,仝立勇.基于压电悬臂梁的驱动器与传感器性能分析的精确解析模型[J],光学精密工程,2018,26(2):380-387
[9]高仁璟,刘川,王奇,刘书田.Topology and Shape Optimization Based Method for Miniaturization Design of Metallic Antenna[A],WCCM13,2018
[10]Yue, Ming,Hou, Xiaoqiang,Gao, Renjing,Chen, Jun.Trajectory tracking control for tractor-trailer vehicles: a coordinated control approach[J],NONLINEAR DYNAMICS,2018,91(2):1061-1074
[11]Wang, Qi,Gao, Renjing,Liu, Shutian.A novel parameterization method for the topology optimization of metallic antenna design[J],ACTA MECHANICA SINICA,2017,33(6):1040-1050
[12]Shi, Pengfei,Gao, Renjing,Liu, Shutian,Yuan, Yuan.Topology optimization-based design of metamaterial-inspired sensor with improved sensitivity[J],SENSORS AND ACTUATORS A-PHYSICAL,2017,268:83-90
[13]史鹏飞,高仁璟,刘书田.基于模糊数学的贴片式左手超材料微结构选择方法研究[J],计算力学学报,2017,34(4):440-446
[14]郑国君,靳春宁,李宝军,高仁璟.车身结构设计虚拟仿真实验教学研究[J],实验技术与管理,2017,34(7):110-113
[15]Gao, Renjing,Huang, Yu,Wen, Xin,Zhao, Jian,Liu, Shutian.Method to Further Improve Sensitivity for High-Order Vibration Mode Mass Sensors With Stepped Cantilevers[J],IEEE SENSORS JOURNAL,2017,17(14):4405-4411
[16]Wang, Qi,Gao, Renjing,Liu, Shutian.Topology optimization based design of unilateral NMR for generating a remote homogeneous field[J],JOURNAL OF MAGNETIC RESONANCE,2017,279:51-59
[17]赵剑,张淑敏,高仁璟.基于构型优化的高阶模态微质量传感器灵敏度提升方法[J],光学精密工程,2017,25(3):656-662
[18]Wang Q.,Gao R.,Liu S.,Liu C..Topology optimization-based design method of dual-band antennas[J],Multidiscipline Modeling in Materials and Structures,2017,13(1):11-25
[19]刘书田,高仁璟.The analysis on the parameters sensitivity of the microstrip line-typed metamaterials[A],2017
[20]高仁璟,赵剑,刘书田.Dynamic optimization of snapping through procedure of compressed bistable mechanisms[A],2017
[21]赵剑,刘书田,高仁璟.A new impedance based sensitivity model of piezoelectric resonant cantilever sensor[A],2017
[22]赵剑,高仁璟,刘书田.NONLINEAR AMPLITUDE RESPONSE BASED THRESHOLD MASS SENSOR WITH COMBINATIVE PIEZOELECTRIC CANTILEVER STRUCTURES[A],2017
[23]赵剑,高仁璟.MULTI-THRESHOLD ACCELERATION SWITCH EMPLOYING MAGNETIC-COMPLIANT SELF-LOCKING MECHANISMS[A],2017
[24]王奇,高仁璟,刘书田.A Novel Parameterization for the Topology Optimization of Metallic Antenna Design[A],12 world congress on structural and multidisciplinary optimization (WCSMO12),2017
[25]Liu, Shutian,Wang, Qi,Gao, Renjing.MoM-based topology optimization method for planar metallic antenna design[J],ACTA MECHANICA SINICA,2016,32(6):1058-1064
[26]赵剑,魏岩,高仁璟,刘书田.基于局部截面构型优化的双稳态结构跳跃阈值控制与设计[J],机械工程学报,2016,52(19):154-161
[27]Shi, Pengfei,Gao, Renjing,Liu, Shutian.Topology Optimization Based Methods and the Realization Programs for Designing Microstructures of Patched Metamaterials with Prescribed Electromagnetic Properties[J],ELECTRONIC MATERIALS LETTERS,2016,12(5):660-672
[28]Zhao, Jian,Gao, Renjing,Liu, Shutian,Huang, Yu.Optimization-based design for specific bistable mechanics compliant mechanisms[A],ASME 2016 International Design Engineering Technical Conferences and Computers and Information in Engineering Conference, IDETC/CIE 2016,2016,5A-2016
[29]高仁璟,张莹,赵剑,陈文炯,刘书田,仝立勇.面向结构形状控制的压电纤维复合薄膜驱动器布局方式与控制参数协同优化设计[J],机械工程学报,2016,52(18):177-183
[30]赵剑,张淑敏,高仁璟.高阶模态悬臂梁式微质量传感器构型优化设计[A],2016,44-48
[31]赵剑,冯泇铖,高仁璟,刘书田.抗过载多阈值加速度开关设计与分析[A],2016,537-541
[32]赵剑,高仁璟,刘书田.Optimization based sensitivity improving method for piezoelectric mass sensor[A],2016
[33]赵剑,高仁璟,刘书田.Configuration optimization for cantilever-based high order mode resonant mass sensor[A],Joint Symposium of the 18th Annual Conference of Chinese Society of Micro-Nano Technology and Microsystems &Nanoengineering,2016
[34]赵剑,高仁璟,刘书田.Nonlinear Threshold Mass Detection through Response Amplitude Tracking[A],2016
[35]Zhao, Jian,Gao, Renjing,Liu, Shutian,Huang, Yu.OPTIMIZATION-BASED DESIGN FOR SPECIFIC BISTABLE MECHANICS OF COMPLIANT MECHANISMS[A],ASME International Design Engineering Technical Conferences and Computers and Information in Engineering Conference (IDETC/CIE),2016
[36]连静,高仁璟,李琳辉,胡平,王宏旭,周雅夫,迟春华.远程可操控式虚拟电子实验平台的构建[J],实验室科学,2015,18(3):112-115
[37]史鹏飞,高仁璟,刘书田.基于同轴光子带隙晶体的应变传感器[J],光学精密工程,2015,23(4):956-964
[38]高仁璟,赵剑.A highly sensitive mass sensor using high-mode resonant cantilever with[A],CCM2015 Auckland, NZ,2015,14(17):1-7
[39]赵剑,高仁璟.Bistable miroelectronic devices[A],9th International Workshop on Innovation & Commercialization of Micro & Nanotechnology,2015
[40]Zhao, Jian,Gao, Renjing,Chen, Guoxi,Liu, Shutian,Cao, Qikai,Qiu, Tao.Nonlinear coupling mechanical model for large stroke magnetic-based multistable mechanisms[J],MECHANISM AND MACHINE THEORY,2015,83:56-68
[41]Zhao, Jian,Zhang, Yongcun,Gao, Renjing,Liu, Shutian.A new sensitivity improving approach for mass sensors through integrated optimization of both cantilever surface profile and cross-section[J],SENSORS AND ACTUATORS B-CHEMICAL,2015,206:343-350
[42]Liu, Shutian,Wang, Qi,Gao, Renjing.A topology optimization method for design of small GPR antennas[J],STRUCTURAL AND MULTIDISCIPLINARY OPTIMIZATION,2014,50(6):1165-1174
[43]Zhao, Jian,Liu, Pengbo,Tang, Zhenan,Fan, Kefeng,Ma, Xiaosong,Gao, Renjing,Bao, Jiading.A Wireless MEMS Inertial Switch for Measuring Both Threshold Triggering Acceleration and Response Time[J],IEEE TRANSACTIONS ON INSTRUMENTATION AND MEASUREMENT,2014,63(12):3152-3161
[44]高仁璟,李希伟.PMSM无传感器控制的新型滑模观测器设计?[J],电机与控制应用,2014,11:7-13
[45]高仁璟,郑英东,李晓东,赵剑,胡平.基于LabVIEW的汽车制动防抱死远程实验系统设计[J],实验室科学,2014,17(5):45-47,51
[46]赵剑,陈国玺,高仁璟,刘书田.基于磁-机耦合效应的大行程多稳态机构非线性跳跃分析[J],机械工程学报,2014,50(20):188-194
[47]Zhao, Jian,Zhang, Yongcun,Huang, Yu,Liu, Shutian,Chen, Guoxi,Gao, Renjing,Yang, Yintang.Mechanical-Magnetic Coupling Analysis of a Novel Large Stroke Penta-Stable Mechanism Possessing Multistability Transforming Capability[J],JOURNAL OF MECHANISMS AND ROBOTICS-TRANSACTIONS OF THE ASME,2014,6(3)
[48]高仁璟,张莹,吴书豪,刘书田.面向结构形状控制的驱动器结构参数与控制电压协同优化设计[J],光学精密工程,2014,22(6):1538-1546
[49]Zhao, Jian,Huang, Yu,Gao, Renjing,Chen, Guoxi,Yang, Yintang,Liu, Shutian,Fan, Kefeng.Novel Universal Multistable Mechanism Based on Magnetic-Mechanical-Inertial Coupling Effects[J],IEEE TRANSACTIONS ON INDUSTRIAL ELECTRONICS,2014,61(6):2714-2723
[50]Zhao, Jian,Gao, Renjing,Liu, Shutian,Huang, Yu.A New Sensitivity-Improving Method for Piezoelectric Resonance Mass Sensors Through Cantilever Cross-Section Modification[J],IEEE TRANSACTIONS ON INDUSTRIAL ELECTRONICS,2014,61(3):1612-1621
[51]Gao, Renjing,Zhang, Yankang,Zhao, Jian,Liu, Shutian.A Novel V-Shaped Cross Section Cantilever Sensor for Monitoring Concentrated Masses With Improved Detecting Sensitivity and Measuring Accuracy[J],IEEE SENSORS JOURNAL,2014,14(2):514-521
[52]Gao, Renjing,Shi, Pengfei,Liu, Shutian,Zhao, Jian.A Novel Method to Design Single-Sided Left-Handed Metamaterials with a Specific Frequency Band[J],ELECTRONIC MATERIALS LETTERS,2014,10(1):31-35
[53]赵剑,朱传月,高仁璟.梯形变截面悬臂梁式质量传感器设计与分析[J],仪器仪表学报,2013,34(12):2641-2646
[54]Shi, Pengfei,Gao, Renjing,Liu, Shutian,Zhao, Jian.A new design method for a strain sensor using the cross-section modification of a coaxial cable[J],SENSORS AND ACTUATORS A-PHYSICAL,2013,203:355-361
[55]连静,高仁璟,李琳辉,胡平.基于虚拟仪器的汽车空调远程实验系统[J],实验室科学,2013,16(5):105-108
[56]Zhao, Jian,Gao, Renjing,Yang, Yintang,Huang, Yu,Hu, Ping.A Bidirectional Acceleration Switch Incorporating Magnetic-Fields-Based Tristable Mechanism[J],IEEE-ASME TRANSACTIONS ON MECHATRONICS,2013,18(1):113-120
[57]高仁璟,刘书田.Design of electromagnetic cloaks for visual illusion of the shielded object[A],5th IEEE International Symposium on Microwave Antenna Propagation and EMC Technologies for Wireless Communication,2013,492-496
[58]亓昌,杨姝,高仁璟.Numerical simulation of force enhancement by cellular material under blast load[J],Advances in Mechanical Engineering,2013,9:1-10
[59]杨姝,亓昌,高仁璟.A Comparative Study of Ballistic Resistance of Sandwich Panels with Aluminum Foam and Auxetic Honeycomb Cores[J],Advances in Mechanical Engineering,2013,9:1-15
[60]高仁璟,赵剑.梯形变截面悬臂梁式微质量传感器设计与分析[J],传感技术学报,2012,25(10):1349-1353
[61]李琳辉,周雅夫,连静,胡平,高仁璟.远程可操控式虚拟电子实验平台的构建[J],实验技术与管理,2012,29(9):83-85,116
[62]Zhao Jian,Huang Yu,Yang Yin-tang,Gao Ren-jing.Dynamics of a novel bistable mechanism with mechanical-magnetic coupled structure[J],JOURNAL OF CENTRAL SOUTH UNIVERSITY,2012,19(7):1853-1858
[63]Zhao, Jian,Wang, Hongxi,Gao, Renjing,Hu, Ping,Yang, Yintang.A novel alignment mechanism employing orthogonal connected multi-layered flexible hinges for both leveling and centering[J],REVIEW OF SCIENTIFIC INSTRUMENTS,2012,83(6):065102
[64]高仁璟,赵剑,李雪,唐祯安.基于槽式悬臂梁结构的微质量传感器设计[J],光学精密工程,2012,20(1):102-108
[65]赵剑,高仁璟.An accurate computation model for magnetic-mechanical based penta-stable mechanism[A],2012
[66]赵剑,高仁璟.A tristable mechanism using combination of magnetic mechanisms and compliant beams[A],2012
[67]高仁璟.A New Exp-Backlund Transformation Method and Its Application[J],International Journal of Computational Mathematics and Numerical Simulation,2012,5(1):1-12
[68]高仁璟,刘书田,唐祯安.具有特定频率的左手材料构造与设计优化[J],物理学报,2012,61(5):54103-54103
[69]高仁璟,赵剑,李雪,唐祯安.基于槽型截面梁结构的微质量传感器设计[J],光学精密工程,2012,20(1):102-108
[70]Gao R.,Shi P.,Tang Z.-A..Left-handed properties of a Fork-shaped metamaterial[A],2011 4th IEEE International Symposium on Microwave, Antenna, Propagation and EMC Technologies for Wireless Communications, MAPE 2011,2011,388-391
[71]Wang, Hongxi,Zhao, Jian,Gao, Renjing,Yang, Yintang.A novel constant-force scanning probe incorporating mechanical-magnetic coupled structures[J],REVIEW OF SCIENTIFIC INSTRUMENTS,2011,82(7)
[72]高仁璟.New EXP-N Solitary-like Method and its Application in the (2+1)-dimensional Generalized KdV-Burgers Equation[J],International Journal of Computational Mathematics and Numerical Simulation,2011,4(2):113-121
[73]高仁璟,史鹏飞,刘书田,段玉平,唐祯安.左手材料微结构构型的传输线比拟模型[J],物理学报,2010,59(12):8566-8573
[74]高仁璟,刘国新,唐祯安.基于Si4432的无线射频遥控系统设计[J],通信技术,2010,43(10):137-139
[75]高仁璟,谭显松,王兢,史鹏飞.高速802.16d OFDM基带系统研究与FPGA设计[J],重庆邮电大学学报(自然科学版),2010,22(4):411-415,435
[76]谭显松,高仁璟,王兢.基于802.16d的定时同步算法改进及FPGA实现[J],电子元器件应用,2009,10:63-66
[77]谭显松,高仁璟,王兢.OFDM块状导频信道估计的研究及FPGA实现[J],通信技术,2009,42(10):13-15
[78]高仁璟.A New Compound Operation Method and its Application[J],International Journal of Computational Mathematics and Numerical Simulation,2008,1(2):297-304
[79]高仁璟.晃电再起动控制器设计与实现[J],仪器仪表学报,2008,29(4):822-824
[80]高仁璟.堆取料机无线传输技术研究与实现[J],仪器仪表学报,2008,29(4):425-427
主要研究领域为无线通讯技术、智能网联控制技术、电机优化设计、电池管理系统设计与应用。