代表性研究成果
[1] Liu Zenghua, Wang Meiling,Zhu Yanping*, et al. A sparse optimization model of l2-l1-2 for estimating guided waves dispersion curves. Measurement. 2025, 253(A):117399.
[2] Liu Zenghua, Wang Meiling,Zhu Yanping *,He Cunfu. Feature optimisation for the sparse reconstruction of Lamb waves multimodal and dispersive characteristics. Nondestructive Testing and Evaluation. 2025, 1–23.
[3] Liu Xiaoyu, Liu Zenghua*,Zhu Yanping*, Chen Long, Tang Zhenhe, He Cunfu. Sparse multi-time wavenumber analysis method based on incomplete guided wavefield data. Applied Acoustics. 2026, 241:111028.
[4] Chen Long, Liu Zenghua*, Liu Xiaoyu,Zhu Yanping *,Cunfu He. Three-dimensional spatial coherent imaging based on two-dimensional laser ultrasonic row-column addressing array. NDT & E International. 2025, 156:103486.
[5] Liu Zenghua*, Liu Yiyi, Chen Long,Zhu Yanping *, Zhou Haiyang, Li Rui, Wang Meiling, He Cunfu. High-resolution imaging of microdefects detected by laser ultrasound with grouped adjacent wave correlation subtraction. Applied Acoustics. 2025, 240:110962.
[6]Zhu Yanping, Hu Yue, Li Fucai*, et al. Internal damage localization for large scale hollow cylinders based on helical sensor networks. Structural Health Monitoring, 2023, 22(4):2469-2480.
[7]Zhu Yanping, Li Fucai*, Bao Wenjie. Fatigue crack detection under the vibration condition based on ultrasonic guided waves. Structural Health Monitoring, 2021, 20(3): 931-941.
[8]Zhu Yanping, Li Fucai*, Hu Yue. The contact characteristics analysis for rod fastening rotors using ultrasonic guided waves. Measurement, 2020, 151: 107149.
[9]Zhu Yanping, Li Fucai*. A Baseline-Free Damage Detection Method for Operation Structure Based on Nonlinear Ultrasonic Guided Waves. Smart Innovation Systems and Technologies, 2020.
[10] Hu Yue,Zhu Yanping, Cui Fangsen, et al. Complex Bayesian group Lasso for defect imaging with guided waves. Structural Health Monitoring. 2023, 22(4):2597-2608.
[11] Hu Yue,Zhu Yanping, Tu Xiaotong, et al. Dispersion curve analysis method for Lamb wave mode separation. Structural Health Monitoring, 2020, 19(5): 1590-1601.
[12] Liu Zenghua*, Chen Long,Zhu Yanping, et al. Multi-mode high resolution TFM imaging of microdefects based on laser ultrasonic full matrix capture. Optics & Laser Technology, 2025, 181(B):111913.
[13] Liu Zenghua*, Chen Long,Zhu Yanping, et al. Laser ultrasonic frequency-domain imaging and phase weighted optimization based on full matrix capture. Ultrasonics, 2024, 141:107321.
[14] Yue Hu, Jiang Xiaoqian,Zhu Yanping, et al. Bayesian hierarchical hyper-Laplacian priors for high-resolution defect imaging in pipe structures. Mechanical Systems and Signal Processing, 2024, 214:111351.、
[15] Liu Xiaoyu., Liu Zenghua*,Zhu Yanping,, et al. Multi-frequency instantaneous wavenumber damage imaging method based on ultrasonic guided waves induced by laser point-by-point excitation. Nondestructive Testing and Evaluation, 2024, 40(5):2208–2224.
[16] Abbas Saqlain*, Li Fucai,Zhu Yanping, et al. Experimental investigation of impact of environmental temperature and optimal baseline for thermal attenuation in structural health monitoring based on ultrasonic guided waves. Wave Motion, 2019, 93(11).
[17] Qiu Jianxi, Li Fucai*,Zhu Yanping. An improved instantaneous baseline method for pipe structures based on distance compensation using guided waves. Measurement Science and Technology, 2018, 29(10): 105106.
[18]刘增华,王美灵,朱艳萍*,等.改进型密集阵列全聚焦成像算法的碳纤维复合材料板损伤定位研究.仪器仪表学报,2024,45(6):120-132.
