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艾德米

时间:2019-09-29 浏览次数:

 


艾德米

职称:副教授

通信地址:武汉市洪山区华中科技大学智能材料与结构工程系

邮编:430074

Emailaidemi@hust.edu.cn

个人简介

艾德米,男,198912月生,博士,副教授,博士生导师。2017年毕业于华中科技大学,获结构工程博士学位,20172019年在华中科技大学力学流动站做博士后研究工作,20199月起任土木工程与力学学院副教授,2023年任博士生导师。担任控制结构湖北省重点实验室秘书,中国振动工程学会结构抗振控制与健康监测委员会青年委员,国家自然科学基金委通讯评审人,SCI期刊专刊主编,60余本SCI、英文专著和国内学术期刊审稿人。主要研究方向为智能压电材料与结构工程、结构损伤识别与健康监测、监测信号处理与机器学习等。近年来发表学术论文60余篇,其中第一/通讯作者SCI论文42篇(中科院1区及Top期刊近30篇,JCR Q130余篇),SCI论文平均影响因子6.0h因子21,被引1400余次,期刊高被引论文1篇,单篇被引>1003篇,研究成果获湖北省技术发明三等奖、国家技术发明二等奖,研究论文获中科院1Top期刊Engineering Structures最佳论文奖(Editor's Featured Paper Award,并被国际工程科技媒体Advances in Engineering(工程前沿)遴选为关键科学文章进行重点报道,获华中科技大学新闻网报道,多次荣获学术期刊优秀审稿专家荣誉。参编专著1部,主持国家自然科学基金面上、青年等科研项目4项,参与9项,申请(授权)发明专利10余项,参与完成武汉鹦鹉洲长江大桥动力测试等重大工程项目。目前指导博士、硕士毕业生10余人(2人获国家奖学金,1人获优秀毕业生),本科毕业生20余人,多人保送至英国、德国、香港等海内外高校。

科研项目

1. 国家自然科学基金重点项目,时空关联与信息共享的桥梁集群安全诊断评估方法,主要成员

2. 国家自然科学基金面上项目,智能压电传感数据驱动的服役期叠层橡胶隔震支座损伤识别研究,主持

3. 国家自然科学基金青年项目,基于智能压电传感机械阻抗的混凝土结构钢筋锈蚀损伤识别,主持

4. 中国博士后科学基金面上项目,基于压电传感机械阻抗的混凝土结构应力及微损伤识别,主持

5. 华中科技大学创新基金项目,温度对基于压电阻抗的结构损伤检测方法的作用机理研究,主持

6. 国家重点研发计划子课题,交通基础设施结构智能诊治基础科学问题,主要成员

7. 湖北省自然科学基金创新群体项目,城市轨道交通地下结构全覆盖健康监测方法研究,主要成员

8. 国家自然科学基金面上项目,考虑环境影响基于压电阻抗的混凝土结构损伤识别研究,主要成员

9. 国家自然科学基金青年项目,基于广义Morse同步挤压小波和子结构法的结构时变参数识别,主要成员

10. 国家自然科学基金面上项目,基于韧性耗散模型的桥墩船撞混合桩损伤定量识别研究,主要成员

11. 国家自然科学基金面上项目,基于分布式识别策略的超长线状盾构隧道惟响应损伤定位方法研究,主要成员

12. 国家自然科学基金青年项目,荷载/环境下钢管混凝土加固桥墩时变可靠度研究,主要成员

13. 国家重点基础研究发展计划,动态时空环境效应下的地下结构健康诊断与服役性能预知理论,主要成员

教学工作

《混凝土结构基本原理》(本科生课程)

《结构设计原理》(本科生课程)

《建筑结构》(本科生课程)

奖励荣誉

1. 2026年获国际工程科技媒体Advances in Engineering(工程前沿)重点报道

2. 2025年获中科院1Top期刊Engineering Structures最佳论文奖

3. 2025年获中文核心期刊优秀审稿专家

4. 2024年获湖北省技术发明三等奖

5. 2024年获中文EI期刊优秀审稿专家

6. 2016教育部博士研究生国家奖学金

7. 2015第六届两岸四地高校土木工程监测与控制学术论文竞赛一等奖

代表性论文

1. Demi Ai*, Aoqiu Zhou, et al. Axial pressure identification of laminated high damping rubber bearings using electro-mechanical coupled model of bonded PZT transducers. Composite Structures, 2026. (SCI, 中科院1Top期刊, IF=7.1)

2. Demi Ai*, Kejun Yang. Domain-adaptive shear deformation identification across laminated rubber bearings via transfer learning on electromechanical admittance signals from PZT transducers. Nondestructive Testing and Evaluation, 2026. (SCI, 中科院2, IF=4.2)

3. Yangyang Chen, Wen Liu, Demi Ai*, et al. Physics-guided LSTM-KAN modelling for shield tunnelling parameter prediction and optimization. Applied Soft Computing, 2026. (SCI, 中科院2Top期刊, IF=6.6)

4. Demi Ai*, Rui Zhang. Electromechanical impedance data driven metal structural tensile stress identification using generative adversarial networks. Materials, 2026. (SCI, 中科院3, IF=3.2)

5. Zeliang Yang, Demi Ai*, et al. Effect of solder joint and insulator region on electromechanical admittance based concrete structural damage identification: Numerical and experimental investigations. Measurement, 2026. (SCI, 中科院2Top期刊, IF=5.6)

6. Demi Ai*, Kejun Yang. Axial pressure and damage identification of plate rubber bearings using transfer learning of electromechanical admittance signals from different PZT transducers. Engineering Structures, 2025. (SCI, 中科院1Top期刊, IF=6.4, Editor's Featured Paper Award,并被AIE报道)

7. Demi Ai*, Aoqiu Zhou, et al., Pressure and damage identification of laminated rubber bearings using surface-bonded PZT transducers. Structures, 2025. (SCI, 中科院2, IF=4.3)

8. Demi Ai*, Zixuan Li, et al. Deep learning of raw electromechanical admittance signals for early corrosion damage identification of RC beam structures. Structures, 2025. (SCI, 中科院2, IF=4.3)

9. Zeliang Yang, Demi Ai*, et al. Heterogeneous mesoscale concrete model bonded with PZT sensor for electromechanical admittance-based structural damage identification. Smart Materials and Structures, 2025. (SCI, 中科院3, IF=3.8)

10. Jingwen Yang, Demi Ai*, et al. Damage Classification Approach for Concrete Structure Using Support Vector Machine Learning of Decomposed Electromechanical Admittance Signature via Discrete Wavelet Transform. Buildings, 2025. (SCI, 中科院3, IF=3.1)

11. Zeliang Yang, Demi Ai*, et al. A mesoscale simulation on electromechanical admittance-based internal microcrack damage identification of concrete structure using polynomials spectral element method. Structures, 2025. (SCI, 中科院2, IF=4.3)

12. Hongping Zhu, Ying Zhang, Demi Ai, et al. Deep neural network for electromechanical impedance analysis and damage detection of laminated rubber bearings. Smart Materials and Structures, 2025. (SCI, 中科院3, IF=3.8)

13. Demi Ai*, Fang Mo. Prediction of unknown compressive stress/damage in concrete structure using 3D convolutional neural network-based deep learning of raw electromechanical admittance signals. Journal of Intelligent Material Systems and Structures, 2025. (SCI, 中科院3, IF=2.774)

14. Demi Ai*, Duluan Zhang, et al. A damage localization approach for concrete structure using discrete wavelet transform of electromechanical admittance of bonded PZT transducers. Mechanical Systems and Signal Processing. 2024. (SCI, 中科院1Top期刊, IF=8.9)

15. Yangyang Chen, Wen Liu, Demi Ai*, et al. Probabilistic reliability assessment method for max ground settlement prediction of subway tunnel under uncertain construction information. Computers and Geotechnics, 2024. (SCI, 中科院1Top期刊, IF=5.3)

16. Demi Ai*, Cong Huang, et al. Shear stress identification in plate rubber bearings using surface-bonded piezoelectric transducer: A feasibility study. Measurement, 2024. (SCI, 中科院2Top期刊, IF=5.6).

17. Yangyang Chen, Wen Liu, Demi Ai*, et al. Real-time model updating for prediction and assessment of under-construction shield tunnel induced ground settlement in complex strata. ASCE Journal of Computing in Civil Engineering, 2024. (SCI, 中科院2, IF=4.7)

18. Demi Ai*, Duluan Zhang, et al. Damage localization on reinforced concrete slab structure using electromechanical admittance technique and probability-weighted imaging algorithm. Construction and Building Materials, 2024. (SCI, 中科院1Top期刊, IF=8.0)

19. Demi Ai*, Chaokun Chen, et al. Monitoring of compressive strength gain in mass concrete using embedded piezoelectric transducers. Structural Design of Tall and Special Buildings, 2024. (SCI, 中科院3, IF=2.4)

20. Hedong Li, Yaozhi Luo, Demi Ai*. A temperature compensation approach using dynamic time warping for electromechanical admittance-based concrete structural damage identification. Structural Health Monitoring, 2024. (SCI, 中科院2Top期刊, IF=6.6)

21. Demi Ai*, Hedong Li, et al. Flexure-critical stress and damage identification in RC beam structure using embedded piezoelectric transducers: 2D modelling and experimental investigations. Construction and Building Materials, 2023. (SCI, 中科院1Top期刊, IF=7.693)

22. Demi Ai*, Rui Zhang. Deep learning of electromechanical admittance data augmented by generative adversarial networks for flexural performance evaluation of RC beam structure. Engineering Structures, 2023. (SCI, 中科院1Top期刊, IF=5.582)

23. Demi Ai*, Fang Mo, et al. Deep learning of electromechanical impedance for concrete structural damage identification using 1-D convolutional neural networks. Construction and Building Materials, 2023. (SCI, 中科院1Top期刊, IF=7.693)

24. Demi Ai*, Jiabao Cheng. A deep learning approach for electromechanical impedance based concrete structural damage quantification using two-dimensional convolutional neural network. Mechanical Systems and Signal Processing, 2023. (SCI, 中科院1Top期刊, IF=8.934)

25. Hedong Li, Demi Ai*, et al. Thermal hysteresis effect and its compensation on electro-mechanical impedance monitoring of concrete structure embedded with piezoelectric sensor. Buildings, 2023. (SCI, 中科院3, IF=3.8)

26. Demi Ai*, Hongping Zhu. Adhesive curing effect of bonded piezoelectric transducer on electromechanical impedance-based concrete structural damage detection. Structural Health Monitoring, 2023. (SCI, 中科院2Top期刊, IF=6.6)

27. Hedong Li, Yaozhi Luo, Demi Ai*. Restoration of electromechanical admittance signature via solving constrained optimization problems for concrete structural damage identification, Measurement, 2023. (SCI, 中科院2Top期刊, IF=5.6).

28. Demi Ai*, Fang Mo, Yihang Han, et al. Automated identification of compressive stress and damage in concrete specimen using convolutional neural network learned electromechanical admittance. Engineering Structures, 2022. (SCI, 中科院1Top期刊, IF=5.582)

29. Demi Ai*, Lixun Du, et al. Corrosion damage identification for reinforced concrete beam using embedded piezoelectric transducer: Numerical simulation. Measurement, 2022. (SCI, 中科院2Top期刊, IF=5.6)

30. Demi Ai*, Fang Mo, et al. Electromechanical impedance-based concrete structural damage detection using principal component analysis incorporated with neural network. Journal of Intelligent Material Systems and Structures, 2022. (SCI, 中科院3, IF=2.774)

31. Demi Ai*, Zeliang Yang, et al. Heating-time effect on electromechanical admittance of surface-bonded PZT sensor for concrete structural monitoring. Measurement, 2022. (SCI, 中科院2Top期刊, IF=5.6)

32. Hedong Li, Demi Ai*, et al. Integrated electromechanical impedance technique with convolutional neural network for concrete structural damage quantification under varied temperatures. Mechanical Systems and Signal Processing, 2021, 152: 107467. (SCI, 中科院1Top期刊, IF=8.934)

33. Demi Ai*, Chengxing Lin, et al. Embedded piezoelectric transducers based early-age hydration monitoring of cement concrete added with accelerator/retarder admixtures. Journal of Intelligent Material Systems and Structures, 2021, 32(8): 847-866. (SCI, 中科院3, IF=2.774)

34. Hedong Li, Demi Ai*, et al. Compressed sensing-based electromechanical admittance data loss recovery for concrete structural health monitoring. Structural Health Monitoring, 2021, 20(3): 1247–1273. (SCI, 中科院2Top期刊, IF=6.6)

35. Demi Ai*, Chengxing Lin, et al. Temperature effect on electromechanical admittance based concrete structural health monitoring. Structural Health Monitoring. 2020, 19(3): 661–692. (SCI, 中科院2Top期刊, IF=6.6)

36. Hedong Li, Demi Ai*, et al. An Orthogonal Matching Pursuit based signal compression and reconstruction approach for electromechanical admittance based structural health monitoring. Mechanical Systems and Signal Processing, 2019, 133: 106276. (SCI, 中科院1Top期刊, IF=8.934)

37. Demi Ai*, Hui Luo, et al. Numerical and experimental investigation of flexural performance on pre-stressed concrete structures using electromechanical admittance. Mechanical Systems and Signal Processing, 2019, 128: 244-265. (SCI, 中科院1Top期刊, IF=8.934)

38. Demi Ai, Hui Luo, et al. Monitoring of the load-induced RC beam structural tension/compression stress and damage using piezoelectric transducers. Engineering Structures, 2018, 154: 38-51. (SCI, 中科院1Top期刊, IF=5.582)

39. Demi Ai*, Hongping Zhu, et al. Mechanical impedance based embedded piezoelectric transducer for reinforced concrete structural impact damage detection: A comparative study. Construction and Building Materials, 2018, 165: 472-483. (SCI, 中科院1Top期刊, IF=7.693)

40. Chao Wang, Demi Ai, et al. A wavelet transform and substructure algorithm for tracking the abrupt stiffness degradation of shear structure. Advances in Structural Engineering, 2018, 22: 1136-1148. (SCI, IF=2.438)

41. Demi Ai, Hui Luo, et al. Diagnosis and validation of damaged PZT sensor in electromechanical impedance technique. Journal of Intelligent Material Systems and Structures, 2017, 28(7): 837-850. (SCI, 中科院3, IF=2.774)

42. Hongping Zhu, Demi Ai*, et al. Mechanical impedance-based technique for steel structural corrosion damage detection. Measurement, 2016, 88: 353-359. (SCI, 中科院2Top期刊, IF=5.6)

43. Demi Ai, Hongping Zhu, et al. Sensitivity of embedded active PZT sensor for concrete structural impact damage detection. Construction and Building Materials, 2016, 111: 348-357. (SCI, 中科院1Top期刊, IF=7.693)

44. Jingwen Yang, Hongping Zhu, Dansheng Wang, Demi Ai. The compensation technique of tensile force effect on the electro-mechanical impedance method for structural health monitoring. Journal of Intelligent Material Systems and Structures, 2015, 26(18): 2477-2488. (SCI, 中科院3, IF=2.774)

45. Demi Ai, Hongping Zhu, et al. An effective electromechanical impedance technique for steel structural health monitoring. Construction and Building Materials, 2014, 73: 97-104. (SCI, 中科院1Top期刊, IF=7.693)

46. 陈阳阳,刘文,艾德米*. 基于NGBoost-NSGA-III的大直径盾构施工参数多目标优化方法.科学技术与工程, 2026. (EI)

47. 朱宏平,杨泽亮,艾德米*. 混凝土结构内部温度滞后效应对植入式PZT导纳的监测影响研究.华中科技大学学报(自然科学版), 2025. (EI)

48. 黎赫东,艾德米*,朱宏平. 基于压缩感知理论重构压电阻抗信号的钢结构损伤识别.建筑结构学报, 2022, 10.14006/j.jzjgxb.2020.0586. (EI)

49. 王超,朱宏平,艾德米. 基于同步挤压小波变换的结构时变参数识别.华中科技大学学报(自然科学版), 2017, 45(11): 46-50. (EI)

50. 艾德米,朱宏平,罗辉. 基于压电阻抗的隧道管片结构螺栓松动损伤识别试验.土木工程与管理学报, 2016, 33: 39-42.

51. 王超,朱宏平,吴巧云,艾德米. 基于小波多分辨率分析的结构时变参数识别.华中科技大学学报(自然科学版),2016,44:31-35. (EI)

52. 王超,黄彩萍,艾德米,朱宏平. 基于统计小波包能量分布的结构健康状况预警.土木工程与管理学报, 2016, 33(6): 12-15.

53. 杨景文,朱宏平,王丹生,艾德米. 基于EMI损伤检测技术的温度补偿研究.土木工程与管理学报, 2014, 31(3): 7-11.

发明专利

1、一种基于迁移学习导纳特征的压应力/损伤识别方法及设备,202510034942X,授权,排1

2、基于压电阻抗数据的拉压应力敏感频段识别方法和装置,2022110669280,授权,1

3、基于深度学习导纳特征的混凝土压应力识别方法和系统,2022106510197,授权,1

4、基于二维卷积神经网络的损伤识别方法及设备,2021114904054,授权,1

5、基于二维卷积神经网络的损伤识别模型建立方法及设备,2021114922048,授权,1

6、基于压电导纳的数据压缩重构及结构损伤识别方法、设备,2019113753473,授权,1

学术兼职

受邀担任SCI期刊 Buildings (IF=3.8) “Concrete Structural Safety and Health monitoring”“Structural Health Monitoring and Intelligent Operation Maintenance of Concrete and Steel Structures”等专刊主编;

长期担任Composites Part BCement and Concrete CompositesMechanical Systems and Signal ProcessingAutomation in ConstructionConstruction and Building MaterialsEngineering  StructuresStructural Health MonitoringThin-Walled StructuresTunnelling and Underground Space TechnologyNDT and E InternationalApplied Soft Computing JournalASCE Journal of Materials in Civil EngineeringSmart Structures and SystemsMeasurementStructural Control and Health MonitoringNondestructive Testing and EvaluationStructuresMechanics of Advanced Materials and StructuresComputers and Electronics in AgricultureJournal of Big DataJournal of Intelligent Material Systems and StructuresIEEE AccessScientific ReportsSensors and Actuators: A. PhysicalSteel and Composite StructuresEnergiesJournal of Civil Structural Health MonitoringStructural ConcreteAin Shams Engineering JournalJournal of Nondestructive EvaluationCMC-Computers Materials & ContinuaMicrosystem TechnologiesSensorsJournal of Structural Integrity and MaintenanceKSCE Journal of Civil EngineeringBuildingsAdvances in Structural EngineeringAIMS MathematicsAnti-Corrosion Methods and MaterialsJournal of Composites ScienceIranian Journal of Science and TechnologyTransactions of Civil EngineeringSymmetryRecent Progress in MaterialsArabian Journal for Science and EngineeringSustainabilityMachinesElectronicsInternational Journal of Optics and Photonic EngineeringGeomechanics and EngineeringJournal of Advanced Research in Applied MechanicsCurrent NanoscienceIEEE Journal on Multiscale and Multiphysics Computational TechniquesCleaner MaterialsInfrastructuresThe Open Civil Engineering JournalScientia IranicaAdvances in Bridge EngineeringAsian Journal of Civil Engineering60余本国际和国内学术期刊审稿人


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