欢迎光临武汉理工大学安全科学与应急管理学院!
职称:副研究员
电话:15871690370
邮箱:yabinliang@whut.edu.cn
研究方向: 工程安全与灾害防治
个人简介
梁亚斌,男,河南南阳人,2016年毕业于大连理工大学防灾减灾工程及防护工程专业,获工学博士学位。2014至2016年,受国家留学基金委资助赴美国休斯顿大学智能材料与结构实验室开展博士生联合培养学习。先后入选中国地震局青年人才(2021年)、“3551光谷人才计划”优秀青年人才(2023年)、湖北省地震局骨干人才(2023年)等。现任武汉理工大学安全科学与应急管理学院副研究员。
主要从事工程安全与灾害防治相关研究和应用,包括但不限于城市基础设施(管道、桥梁等)的结构健康监测与损伤识别方法研究、基于智能材料与结构(压电超声导波、光纤传感等)的防灾减灾产品研制和应用拓展、基于计算机视觉技术的城市承灾体(桥梁、边坡等)结构病害监测和识别等。
主持科研项目 (2010年以来)
[1] 国家自然科学基金青年科学基金项目,基于压电主动传感法的斜拉桥销铰连接锚固区病害监测理论和方法研究,2018-2020
[2] 湖北省自然科学基金面上项目,时变环境下融合压电超声和协整的销轴连接病害监测理论和方法研究,2023-2025
[3] 中国地震局地震科技星火计划项目,城市地下管道接头病害的压电监测预警方法及装置研究,2019-2020
[4] 中国地震局地震研究所和应急管理部国家自然灾害防治研究院基本科研业务费专项资助项目-面上项目,基于机器视觉高帧率视频的桥梁结构动态位移非接触识别研究,2022-2024
[5] 中国地震局地震研究所和应急管理部国家自然灾害防治研究院基本科研业务费专项资助项目-面上项目,基于压电主动传感法的斜拉桥销铰式索梁连接结构的健康监测研究,2017-2018
发表论文情况 (2010年以来)
[1] Yabin Liang,Zhisen Tan*,Guohua Zhai. Development of a Wireless Multichannel Miniature Impedance Measurement System and Its Application for Bolt Loosening Detection.NDT&E International, 2024,148,103230. (JCR Q1)
[2] Guohua Zhai, Zhisen Tan, Yabin Liang*, A Novel Method for Full-Field Scale Factor Calculation under Off-Axis Measurements for Vision-Based Structural Multipoint Displacement Measurement and Health Monitoring. Structural Control and Health Monitoring, 2024,8416971. (JCR Q1)
[3] Guohua Zhai,Yabin Liang*, Zhisen Tan, Sirui Wang, Development of an iterative Otsu method for vision-based structural displacement measurement under low-light conditions. Measurement, 2024,226:114182. (JCR Q1, TOP期刊)
[4] Zhisen Tan, Qian Feng, Tianjiao Ma, Jingbo Zhang, Yabin Liang*. Development of an AD5933-based impedance calibration and measurement technology using piezoceramic transducers. Measurement, 2023, 210: 112527. (JCR Q1, TOP期刊)
[5] Qian Feng, Yabin Liang*. Development of piezoelectric-based technology for application in civil structural health monitoring. Earthquake Research Advances, 2023, 3, 100154.
[6] Jiang Jian, Yixuan Chen, Junwu Dai,Yabin Liang*, Multi-bolt looseness state monitoring using the recursive analytic based active sensing technique, Measurement, 2022, 191: 110779. (JCR Q1, TOP期刊)
[7] Liang Yabin, Chen Yixuan, Zhang Zuocai and Feng Qian, Experimental Evaluation of Miniature Impedance Board for Loosening Monitoring of the Threaded Pipe Connection. Frontiers in Physics, 2021, 9:723260. doi: 10.3389/fphy.2021.723260. (JCR Q2)
[8] Ye Dehui, Tan Jie,Yabin Liang, Qian Feng. Experimental Study on Influence of Temperature to Control Performance for Viscoelastic Materials Pounding Tuned Mass Damper. Frontiers in Materials, 2021, 8: 197. (JCR Q2)
[9] Qian Feng, Liming Fan, Sijia Cai, Linsheng Huo*,Yabin Liang*. A New Approach to Retrofitting an Existing Roller Door by Using Viscoelastic Materials for Vibration Reduction with Experimental Verification. International Journal of Structural Stability and Dynamics, 2020, 20(6), 2040008.(JCR Q2)
[10] Yabin Liang, Zhicheng Ye, Qian Feng. Axial Load Monitoring for Concrete Columns Using a Wearable Smart Hoop Based on the Piezoelectric Impedance Frequency Shift: A Feasibility Study. Advances in Civil Engineering, 2020, 1329516.(JCR Q3)
[11] Qian Feng, Yabin Liang*, Ming Tang, Jinping Ou. Multi-parameter monitoring for steel pipe structures using monolithic multicore fibre based on spatial-division-multiplex sensing. Measurement, 2020: 108121. (JCR Q1, TOP期刊)
[12] Yabin Liang, Qian Feng, Heng Li, Jian Jiang. Damage detection of shear buildings using frequency-change-ratio and model updating algorithm. Smart Structures and Systems, An International Journal, 2019,23(2):107-122. (JCR Q2)
[13] Yabin Liang, Qian Feng, Dongsheng Li, Sijia Cai. Loosening Monitoring of a Threaded Pipe Connection Using the Electro-Mechanical Impedance Technique—Experimental and Numerical Studies. Sensors, 2018, 18(11), 3699.(JCR Q2)
[14] Yabin Liang, Qian Feng, Dongsheng Li. Loosening monitoring of the threaded pipe connection using time reversal technique and piezoceramic transducers. Sensors, 2018, 18(7), 2280.(JCR Q2)
[15] Yabin Liang, Dongsheng Li, Gangbing Song, Qian Feng. Frequency co-integration based damage detection for bridges under the influence of environmental temperature variation. Measurement, 2018, 125, 163-175.(JCR Q1, TOP期刊)
[16] Dongsheng Li,Yabin Liang, Hong-nan Li, et al. Load monitoring of a pin-connection based on wavelet packet analysis using piezoceramic transducers. Measurement, 2018,122,638-647.(JCR Q1, TOP期刊)
[17] Qian Feng,Yabin Liang, Gangbing Song. Real-Time Monitoring of Early-Age Concrete Strength Using Piezoceramic-Based Smart Aggregates. Journal of Aerospace Engineering, 2018, 32(1), 04018115. (JCR Q3)
[18] Jiezhong Huang, Dongsheng Li, Hongnan Li,Yabin Liang. Damage identification of a large cable‐stayed bridge with novel cointegrated Kalman filter method under changing environments. Structural Control and Health Monitoring, 2018, 25(5): e2152. (JCR Q1)
[19] Yabin Liang, Dongsheng Li, Gangbing Song, et al. Damage detection of shear buildings through structural mass-stiffness distribution. Smart Structures and Systems, An International Journal. 2017, 19(1): 11-20. (JCR Q2)
[20] Linsheng Huo, Dongdong Chen,Yabin Liang, et al. Impedance based bolt pre-load monitoring using piezoceramic smart washer. Smart Materials and Structures, 2017, 26(5):057004. (JCR Q1)
[21] Qian Feng, Qingzhao Kong, Jian Jiang,Yabin Liang, Gangbing Song. Detection of Interfacial Debonding in a Rubber–Steel-Layered Structure Using Active Sensing Enabled by Embedded Piezoceramic Transducers. Sensors, 2017, 17(9), 2001. (JCR Q2)
[22] Yabin Liang, Dongsheng Li, Seyed Mohammad Parvasi, et al. Bond-slip detection of concrete-encased composite structure using electro-mechanical impedance technique. Smart Materials and Structures, 2016,25(9):095003. (JCR Q1)
[23] Yabin Liang, Dongsheng Li, Seyed Mohammad Parvasi, et al. Load monitoring of a pin-connected structure using piezoelectric impedance measurement. Smart Materials and Structures, 2016,25(10):105011. (JCR Q1)
[24] Yabin Liang, Dongsheng Li, Qingzhao Kong, et al. Load monitoring of the pin-connected structure using time reversal technique and piezoceramic transducers – A feasibility study. IEEE Sensors Journal, 2016,16(22):7958-7966. (JCR Q1)
[25] Qian Feng, Han Xiao, Qingzhao Kong,Yabin Liang, Gangbing Song. Damage detection of concrete piles subject to typical damages using piezoceramic based passive sensing approach. Journal of Vibro-engineering, 2016, 18(2). (JCR Q3)
[26] Dongsheng Li,Yabin Liang, Hongnan Li. Comments on placement of sensors in operational modal analysis for truss bridges in Mechanical Systems and Signal Processing 31 (2012) 196–216. Mechanical Systems & Signal Processing, 2013, 35(1-2):383-384.(JCR Q1, TOP期刊)
[27] Yabin Liang, Dongsheng Li, Gangbing Song. Damage identification of shear buildings using natural frequency-change square ratio vector based on improved restoring force technology. ASCE Earth and Space 2016.998-1008. (EI)
[28] Yabin Liang, Dongsheng Li, Gangbing Song, et al. Damage diagnosis under environmental and operational variations using improved restoring force method. ASCE Earth and Space 2014. 690-702.(EI)
[29] 翟国华,谭志森,梁亚斌*. 低光照条件下基于迭代Otsu法的桥梁动挠度视觉测量.土木与环境工程学报,2023,36(12):1845-1850
[30] 谭志森, 江勇, 冯谦, 梁亚斌*. 基于AD5933的无线多通道微型阻抗测量系统设计与试验研究. 传感技术学报,2023,36(12):1845-1850
[31] 叶志成,梁亚斌,冯谦,混凝土裂缝压电主动传感识别仿真方法研究,大地测量与地球动力学,2020,08:870-876.
[32] 梁亚斌,蔡思佳,冯谦,王浩. 基于无人机航拍的武汉天兴洲大桥桥索PE外观检测技术. 大地测量与地球动力学,2019,39(11):1207-1210.
[33] 李宗源,冯谦,梁亚斌,罗登贵,刘铁军. 基于压电主动传感法的钢管螺纹接头松动监测. 中国测试,2018,44(6):28-32.
[34] 黄江,梁亚斌,冯谦. 环境温度影响下基于振动模态柔度曲率的结构损伤监测方法. 大地测量与地球动力学, 2016, 16(12): 1121-1125.
[35] 梁亚斌,李东升,李宏男. 环境温度影响下基于频率协整的在线损伤识别. 大连理工大学学报,2014, 54(3): 307-314.
[36] 梁亚斌,李东升,李宏男. 环境温度影响下基于结构连续位移曲率组合的损伤识别方法. 沈阳建筑大学学报(自然科学版), 2014, 30(3): 399-407.
专利及其他 (2010年以来)
[1]海外发明专利(欧洲专利):梁亚斌,冯谦,谭志森,翟国华,蔡思佳, Method And Micro Device For Wireless Multi-Channel Impedance Measurement,证书编号:S87534
[2] 国家发明专利:梁亚斌,冯谦,江健,叶志成,一种基于压电阻抗频移的管道泄漏监测装置及方法,ZL201910368286.1
[3] 国家发明专利:梁亚斌,翟国华,谭志森,冯谦,周艳兵,一种基于LED标靶的夜间桥梁动挠度测量方法与装置, ZL202310581503.1
[4] 国家发明专利:梁亚斌,谭志森,冯谦,一种改进的微型阻抗测量自校准算法和装置, ZL202210345668.4
[5] 国家发明专利:梁亚斌,谭志森,冯谦,江勇,张作才,一种无线多通道微型阻抗测量方法及装置,ZL202210791773.0
[6] 国家发明专利:梁亚斌,谭志森,冯谦,江勇,张作才,一种无线多通道微型阻抗测量系统,ZL202210791765.6
[7] 国家发明专利:梁亚斌,谭志森,王亚飞,许钊源,翟国华,杨宇,用于桥梁振动测量的欧拉运动放大效果评估及优化方法,ZL202310047353.6
[8] 国家发明专利:梁亚斌,冯谦,王浩,一种用于管螺纹接头松动的监测方法,ZL201810108140.9
[9] 国家发明专利:梁亚斌,冯谦,江健,一种基于压电阻抗法的管螺纹松动监测方法,ZL201810107626.0
