​​​Songye ZHU​

144. Zhu Z, Zhu S, Wong YW and Ni YQ (2023) Structural dynamic response reconstruction with multi-type sensors, unknown input, and rank deficient feedthrough matrix. Mechanical Systems and Signal Processing. 187: 109935. (DOI)

143. Chen ZP, Zhu S, Ma KJ and Wu G (2023) Probabilistic seismic capacity analysis of a novel mid-rise large-span cassette structure using multidirectional pushover method. Journal of Earthquake Engineering. 27(2): 212-238. (DOI) 

142. Wang H, Shen W, Zhu H, Kong F and Zhu S (2023) Stochastic seismic analysis of base-isolated structures with electromagnetic inertial mass dampers considering different soil conditions. Bulletin of Earthquake Engineering. 21:1601–1626. (DOI)

141. Cai Q, Chen Z and Zhu S (2022) Experimental study of influence line-based damage localization for long-span cable-suspension bridges. ASCE Journal of Bridge Engineering. 28(3): 04022151. (DOI)

140. Li JY and Zhu S (2022) Cable vibration mitigation by using an H-bridge-based electromagnetic inerter damper with energy harvesting function. Structural Control and Health Monitoring. e3120. (DOI)

139. Shi X, Ma J, Xing L, Li JY and Zhu S (2022) Analytical study on the effects of flexural rigidity and negative stiffness in the optimal tuning of inerter-based damper for cable vibration mitigation. Advances in Structural Engineering. 25(16): 3316–3333. (DOI)

138. Zuo H and Zhu S (2022) Bistable track nonlinear energy sinks with nonlinear viscous damping for impulsive and seismic control of frame structures. Engineering Structures. 272:114982. (DOI)

137. Hu S, Zhu S, Wang W and Shahria Alam M (2022) Structural and nonstructural damage assessment of steel buildings equipped with self-centering energy-absorbing rocking core systems: a comparative study. Journal of Constructional Steel Research. 198:107599. (DOI)

136. Chen ZP and Zhu S (2022) Development of a novel SMA-based self-centering precast segmental concrete column. Structural Control and Health Monitoring. e3099.(DOI)

135. Hu S, Zhu S, Shahria Alam M and Wang W (2022) Machine learning-aided peak and residual displacement-based design method for enhancing seismic performance of steel moment-resisting frames by installing self-centering braces. Engineering Structures. 271:114935. (DOI)

134. Hu S, Zhu S and Wang W (2022) Machine learning-driven probabilistic residual displacement-based design method for improving post-earthquake repairability of steel moment-resisting frames using self-centering braces. Journal of Building Engineering. 61:105225. (DOI)

133. Hu S, Qiu C and Zhu S (2022) Machine learning-driven performance-based seismic design of hybrid self-centering braced frames with SMA braces and viscous dampers. Smart Materials and Structures. 31:105024. (DOI)

132. Wang S and Zhu S (2022) Vibration impact of rock excavation on nearby sensitive buildings: an assessment framework. Soil Dynamics and Earthquake Engineering.163: 107508. (DOI)

131. Lu J, Hu L, Xia Z and Zhu S (2022) Conditional simulation of non-stationary spatially variable ground motions for long-span bridges across non-uniform site conditions. Advances in Bridge Engineering. 3:8. (DOI)

130. Hu S, Zhu S and Wang W (2022) Hybrid self-centering companion spines for structural and nonstructural damage control. Engineering Structures. 266: 114603. (DOI)

129. Chen ZP and Zhu S (2022) Probability seismic demand and fragility analyses of novel SMA-based self-centring eccentrically braced frames. Smart Materials and Structures. 31: 095011. (DOI)

128. Chen ZP and Zhu S (2022) Seismic responses and resilience of novel SMA-based self-centring eccentrically braced frames under near-fault ground motions. Frontiers of Structural and Civil Engineering. 16(8): 962–975. (DOI)

127. Cai QL, Chen ZW, Zhu S and Mo LY (2022) On Damage Detection of Beam Structures using Multiple Types of Influence Lines. Structures. 42: 449-465. (DOI) 

126. Chen ZP, Wang B, Zhu S and Wu G (2022) Two-level performance-based seismic design approach for steel frames with novel self-centring seismic base isolators. Journal of Constructional Steel Research. 195: 107352.  (DOI) 

125. Wang H, Shen W, Zhu H, Wei W, Kong F and Zhu S (2022) Performance enhancement of FPS-isolated buildings using an inerter-based damper: Stochastic seismic analysis and optimization. Mechanical Systems and Signal Processing. 177: 109237. (DOI) 

124. Meng Q and Zhu S (2022) Construction activity classification based on vibration monitoring data: a supervised deep learning approach with time-series RandAugment. Journal of Construction Engineering and Management. 148(9): 04022090. (DOI)

123. Zuo H, Zhang J, Yuan GK and Zhu S (2022) Wind- and sea wave-induced response mitigations of offshore wind turbines using track nonlinear energy sinks. Structural Control and Health Monitoring. e2990. (DOI) 

122. Chen ZP, Zhu S, Yu H and Wang B (2022) Development of novel SMA-based D-type self-centering eccentrically braced frames. Engineering Structures. 260: 114228. (DOI) 

121. Zhang J, Yuan GK, Zhu S, Gu Q, Ke S, Lin JH (2022) Seismic analysis of 10-MW offshore wind turbine with large-diameter monopile in consideration of seabed liquefaction. Energies. 15: 2539. (DOI) 

120. Zuo H and Zhu S (2022) Development of novel track nonlinear energy sinks for seismic performance improvement of offshore wind turbine towers. Mechanical Systems and Signal Processing. 172: 108975. (DOI) 

119. Wang S and Zhu S (2022) Global vibration intensity assessment based on vibration source localization on construction sites: application to vibratory sheet piling. Applied Science. 12: 1946. (DOI) 

118. Hua Y, Cai Q, and Zhu S (2022) Energy-regenerative semiactive lateral suspension control in high-speed trains using electromagnetic damper cum energy harvester. IEEE Transactions on Vehicular Technology. 71(5): 4801-4812. (DOI​) 

117. Cai Q and Zhu S (2022) The nexus between vibration-based energy harvesting and structural vibration control: a comprehensive review. Renewable and Sustainable Energy Reviews. 155: 111920. (DOI) 

116. Zhang J, Zuo H, Yuan G and Zhu S (2022) The effect of wake flows on the output power and fatigue behavior of wind turbines. Acta Aerodynamica Sinica, 2022, 40(3): 1−10. (in Chinese) (DOI) 

115. Wang B and Zhu S (2022) Cyclic behavior of iron-based shape memory alloy bars for high-performance seismic devices. Engineering Structures. 252: 113588. (DOI) 

114. Chen ZP, Feng DC, Cao XY, Ma KJ, Zhu S and Wu G (2022) Probabilistic seismic demand and fragility analysis of a novel mid-rise large-span cassette structure. Bulletin of Earthquake Engineering. 20: 383-413. (DOI)

113. Hua Y, Zhu S and Shi X (2022) High-performance semiactive secondary suspension of high-speed trains using negative stiffness and magnetorheological dampers. Vehicle System Dynamics. 60(7): 2290-2311. (DOI)

112. Li JY and Zhu S (2022) Self-powered Active Vibration Control: Concept, Modeling and Testing. Engineering. 11: 126-137. (DOI) 

111. Zhang XH, Zhu Z, Yuan GK and Zhu S (2021) Adaptive mode selection integrating Kalman filter for structural dynamic response reconstruction. Journal of Sound and Vibration. 515: 116497. (DOI) 

110. Wang H, Shen W, Li Y, Zhu H and Zhu S (2021) Dynamic behavior and seismic performance of base-isolated structures with electromagnetic inertial mass dampers: analytical solutions and simulations. Engineering Structures. 246: 113072. (DOI) 

109. Cai Q and Zhu S (2021) Applying double-mass pendulum oscillator with tunable ultra-low frequency in wave energy converters. Applied Energy. 298: 117228. (DOI) 

108. Li JY and Zhu S (2021) Advanced vibration isolation technique using versatile electromagnetic shunt damper with tunable behavior. Engineering Structures. 242: 112503. (DOI) 

107. Cai Q, Hua Y and Zhu S (2021) Energy-harvesting adaptive vibration damping in high-speed train suspension using electromagnetic damper. International Journal of Structural Stability and Dynamics. 21(14): 2140002. (DOI)

106. Li JY and Zhu S (2021) Tunable electromagnetic damper with synthetic impedance and self-powered functions. Mechanical Systems and Signal Processing. 159: 107822. (DOI)

105. Wang B, Zhu S, Casciati F, Chen K and Jiang H (2021) Cyclic behavior and deformation mechanism of superelastic SMA U-shaped dampers under in-plane and out-of-plane loadings. Smart Materials and Structures. 30: 055009. (DOI)

104. Wang S and Zhu S (2021) Impact source localization and vibration intensity prediction on construction sites. Measurement. 175: 109148. (DOI)

103. Shi X, Zhao F, Yan Z, Zhu S and Li JY (2021) High-performance vibration isolation technique using passive negative stiffness and semi-active damping. Computer-Aided Civil and Infrastructure Engineering. 36:1034-1055. (DOI)

102. Chen Z, Zhao L, Zhang J, Cai QL, Li J and Zhu S (2021) Damage Quantification of Beam Structures Using Deflection Influence Line Changes and Sparse Regularization. Advances in Structural Engineering. 24(9): 1997-2010. (DOI)

101. Wang S, Zhu S and Yuen PL (2021) Assessment of ground-borne vibration impact on nearby underground facilities induced by ground surface excavation. ASCE Journal of Construction Engineering and Management. 147: 04021071. (DOI)

100. Wang B, Nishiyama M, Zhu S, Tani M and Jiang H (2021) Development of novel self-centering steel coupling beams without beam elongation for earthquake resilience. Engineering Structures. 232: 111827.  (DOI)

99. Gu Q, Zhang N, Wang B and Zhu S (2021) Accurate response sensitivity analysis of a thermomechanical constitutive model for superelastic SMAs. ASCE Journal of Engineering Mechanics. 147(5): 04021026. (DOI)

98. Shi X, Shi W, Lin K, Xing L and Zhu S (2021) Optimal design of tuned inerter dampers with series or parallel stiffness connection for cable vibration control. Structural Control and Health Monitoring. 28: e2673. (DOI)

97. Meng Q and Zhu S (2020) Developing IoT sensing system for construction-induced vibration monitoring and impact assessment. Sensors. 20: 6120. (DOI) 

96. Qiu C, Zhao X and Zhu S (2020) Seismic upgrading of multi-story steel moment-resisting frames by installing SMA braces: design method and performance evaluation. Structural Control and Health Monitoring. e2596. (DOI) 

95. Wang B, Zhu S, Chen K, Huang J (2020) Development of superelastic SMA angles as seismic-resistant self-centering devices. Engineering Structures. 218: 110836. (DOI)

94. Cai Q, Zhu S and Ke S (2020) Can we unify vibration control and energy harvesting objectives in energy regenerative tuned mass dampers? Smart Materials and Structures. 29: 087002. (DOI) 

93. Qiu C and Zhu S (2020) Enhance seismic performance of self-centering concentrically braced frames by using hybrid systems. Bulletin of Earthquake Engineering. 18: 3995-4015. (DOI) 

92. Wang H, Ke ST, Wang TG and Zhu S (2020) Typhoon-induced vibration respone and the working mechanism of large wind turbine considering multi-stage effects. Renewable Energy. 153: 740-758. (DOI) 

91. Wang B, Zhu S and Casciati F (2020) Experimental study of novel self-centering seismic base isolators incorporating superelastic shape memory alloys. ASCE Journal of Structural Engineering. 146(7): 04020129. (DOI) 

90. Li JY, Zhu S, Shi X and Shen W (2020) Electromagnetic shunt damper for bridge cable vibration mitigation: a full-scale experimental study. ASCE Journal of Structural Engineering. 146(1): 04019175. (DOI) 

89. Cai Q and Zhu S (2020) Unified strategy for overall impedance optimization in vibration-based electromagnetic energy harvesters. International Journal of Mechanical Sciences. 165: 105198. (DOI)

88. Cai Q and Zhu S (2019) Enhancing the performance of electromagnetic damper cum energy harvester using microcontroller: concept and experimental validation. Mechanical Systems and Signal Processing. 134: 106339. (DOI)

87. Peng YX, Xu YL, Zhu S and Li C (2019) High-solidity straight-bladed vertical axis wind turbine: numerical simulation and validation. Journal of Wind Engineering & Industrial Aerodynamics. 193: 103960. (DOI)

86. Wang B, Zhu S, Zhao J and Jiang H (2019) Earthquake resilient RC walls using shape memory alloy bars and replaceable energy dissipating devices. Smart Materials and Structures. 28: 065021. (DOI)

85. Casciati F, Casciati S, Colnaghi A., Faravelli F, Rosadini L and Zhu S (2019) Vision based support in the characterization of superelastic U shaped SMA elements. Smart Structures and Systems. 24(5): 641-648. (DOI)

84. Li JY, Zhu S and Shen J (2019) Enhance the damping density of eddy current and electromagnetic dampers. Smart Structures and Systems, 24(1): 15-26. (DOI)

83. Shi X and Zhu S (2019) A Comparative Study of Vibration Isolation Performance using Negative Stiffness and Inerter Dampers. Journal of the Franklin Institute, 356: 7922-7946. (DOI)

82. Wang B, Zhu S, Qiu C and Jin H (2019) High-performance self-centering steel columns with shape memory alloy bolts: design procedure and experimental evaluation. Engineering Structures, 182: 446-458. (DOI)

81. Feng P, Wang ZY, Jin FF and Zhu S (2019) Vibration serviceability assessment of pedestrian bridges based on comfort level. ASCE Journal of Performance of Constructed Facilities. 33(5): 04019046. (DOI)

80. Zhu H, Li Y, Shen W and Zhu S (2019) Mechanical and energy-harvesting model for electromagnetic inertial mass dampers. Mechanical Systems and Signal Processing. 120: 203-220. (DOI)

79. He WY, Zhu S and Ren WX (2019) Two-phase Damage Detection of Beam Structures under Moving Load using Multi-scale Wavelet Signal Processing and Wavelet Finite Element Model. Applied Mathematical Modelling. 66: 728-744. (DOI)

78. Shen W, Zhu S and Zhu H (2019) Unify energy harvesting and vibration control functions in randomly excited structures with electromagnetic devices. ASCE Journal of Engineering Mechanics. 145(1): 04018115. (DOI)

77. Lin J, Leung LKK, Xu YL, Zhan S and Zhu S (2018) Field measurement, model updating, and response prediction of a large-scale straight-bladed vertical axis wind turbine structure. Measurement. 130: 57-70. (DOI)

76. Wang B and Zhu S (2018) Cyclic tension-compression behavior of superelastic shape memory alloy bars with buckling-restrained devices. Construction and Building Materials. 186: 103-113. (DOI)

75. Chen ZW, Cai Q and Zhu S (2018) Damage Quantification of Beam Structures using Deflection Influence Lines. Structural Control and Health Monitoring. 25: e2242. (DOI)

74. He WY, Zhu S and Ren WX (2018) Progressive damage detection of thin plate structures using wavelet finite element model updating. Smart Structures and Systems. 22(3): 277-290. (DOI)

73. Zhu S, Zhu Z and Ke S (2018) A review of failure analyses and structural health monitoring techniques for offshore wind turbines. Southern Energy Construction. 5(2): 47-59. (in Chinese)

72. Li JY and Zhu S (2018) Versatile behaviors of electromagnetic shunt damper with negative impedance converter. IEEE/ASME Transactions on Mechatronics. 23(3): 1415-1424 . (DOI)

71. Wang B and Zhu S (2018) Superelastic SMA U-shaped Dampers with Self-centering Functions. Smart Materials and Structures. 27: 055003. (DOI)

70. Shi X, Zhu S, Ni YQ and Li J (2018) Vibration suppression in high-speed trains with negative stiffness dampers. Smart Structures and Systems. 21(5): 653-668. (DOI)

69. Shi X and Zhu S (2018) Dynamic Characteristics of Stay Cables with Inerter Dampers. Journal of Sound and Vibration. 423: 287-305. (DOI)

68. Shi X and Zhu S (2018) Nonlinear Impact of Negative Stiffness Dampers on Stay Cables. Structural Monitoring and Maintenance. 5: 15-38. (DOI)

67. Geng Q, Zhu S and Chong KP (2018) Issues in design of one-dimensional metamaterials for seismic protection. Soil Dynamics and Earthquake Engineering. 107: 264-278. (DOI)

66. Zhu XQ, Law SS, Huang L and Zhu S (2018) Damage identification of supporting structures with a moving sensory system. Journal of Sound and Vibration. 415: 111-127. (DOI)

65. Li C, Xiao Y, Xu YL, Peng YX, Hu G and Zhu S (2018) Optimization of blade pitch in H-rotor vertical axis wind turbines through computational fluid dynamics simulations. Applied Energy. 212: 1107-1125. (DOI)

64. He WY, Wang Y and Zhu S (2018) Adaptive reconstruction of a dynamic force using multi-scale wavelet shape functions. Shock and Vibration. 2018: 8213105. (DOI)

63. Shen WA, Zhu S, Xu YL and Zhu HP (2018) Energy regenerative tuned mass damper in high-rise buildings. Structural Control and Health Monitoring. 25(2): e2072. (DOI)

62. He WY, Zhu S and Chen ZW (2018) “Multi-scale wavelet finite element model for dynamic analysis and damage detection of beam structures under moving load,” International Journal of Structural Stability and Dynamics. 18(6): 1850078. (DOI)

61. Wang B, Zhu S, Xu YL and Jiang H (2018) Seismic analysis of non-seismically designed RC beam-column joints retrofitted using buckling restrained haunches. Journal of Earthquake Engineering. 22(7): 1188-1208. (DOI)

60. Wang B and Zhu S (2018) Seismic behavior of self-centering reinforced concrete wall enabled by superelastic shape memory alloy bars. Bulletin of Earthquake Engineering. 16: 479-502. (DOI)

59. Chong KP and Zhu S (2018) Innovative technologies in manufacturing, mechanics and smart civil infrastructure. International Journal of Smart and Nano Materials. 9(4): 261-278. 1-18. (DOI)

58. He WY, Ren WX and Zhu S (2017) Damage detection of beam structures using quasi-static moving load induced displacement response. Engineering Structures. 145: 70-82. (DOI)

57. He WY, Ren WX and Zhu S (2017) Baseline-free damage localization method of beam structures using dual-type response induced by quasi-static moving load. Journal of Sound and Vibration. 400: 58-70. (DOI)

56. Shi X, Zhu S and Nagarajaiah S (2017) Performance comparison between passive negative stiffness damper and active control in cable vibration mitigation. ASCE Journal of Bridge Engineering. 22(9): 04017054. (DOI)

55. Shi X and Zhu S (2017) Simulation and optimization of magnetic negative stiffness dampers. Sensors and Actuators A: Physical. 259: 14-33. (DOI)

54. Shi X, Zhu S and Spencer BF (2017) Experimental study on passive negative stiffness damper for cable vibration mitigation. ASCE Journal of Engineering Mechanics. 143(9): 04017070. (DOI)

53. Qiu CX and Zhu S (2017) “Performance-based seismic design of self-centering steel frames with SMA-based damping braces,” Engineering Structures, 130: 67-82. (DOI)

52. Qiu CX and Zhu S (2017) “Shaking table test and numerical study of self-centering steel frame with SMA-based damping braces,” Earthquake Engineering and Structural Dynamics, 46: 117-137. (DOI) 

51. He WY, Zhu S and Chen ZW (2017) Wavelet-based multi-scale finite element modeling and modal identification for structural damage detection. Advanced in Structural Engineering. 20(8): 1185–1195. (DOI)

50. Zhang XH, Xu YL, Zhan S, Zhu S, Tam HY and Au HY (2017) “Simulation of support settlement and cable slippage by using a long-span suspension bridge testbed,” Structural and Infrastructure Engineering, 13(3): 401-415. (DOI)

49. Zhao Y, Zhu Y, Yuan M, Wang J and Zhu S (2016) A laser-based fiber bragg grating ultrasonic sensing system for structural health monitoring. IEEE Photonics Technology Letters. 28(22): 2573-2576. (DOI)

48. Shi X, Zhu S, Li JY and Spencer BF (2016) Dynamics behavior of stay cables with passive negative stiffness dampers. Smart Materials and Structures. 075044 (14pp). (DOI)

47. Shen W, Zhu S and Zhu H (2016) "Experimental study on using electromagnetic devices on bridge stay cables for simultaneous energy harvesting and vibration damping." Smart Materials and Structures. 065011 (17pp). (DOI)

46. Shen W, Zhu S, Zhu H and Xu YL (2016) Electromagnetic energy harvesting from structural vibrations during earthquakes. Smart Structures and Systems. 18(3): 449-470. (DOI)

45. Lai Z, Lei Y, Zhu S, Xu YL, Zhang XH and Krishnaswamy S (2016) “Moving-window extended Kalman filter for structural damage detection with unknown process and measurement noises,” Measurement, 88: 428-440. (DOI)

44. Qiu CX and Zhu S (2016) “High-mode effects on seismic performance of a multi-story self-centering-braced steel frame,” Journal of Constructional Steel Research, 119: 133-143. (DOI)

43. Xu YL, Zhang XH,  Zhu S and Zhan S (2016) “Multi-type sensor placement and response reconstruction for structural health monitoring of long-span suspension bridges,” Science Bulletin, 61(4): 313-329. (DOI)

42. Shi X and Zhu S (2015) “Magnetic negative stiffness dampers,” Smart Materials and Structures, 24: 072002. (DOI)

41. He WY and Zhu S (2016) “Moving load-induced response of a damaged simply-supported beam and its application in damage localization,” Journal of Vibration and Control, 22(16): 3601–3617. (DOI)

40. He WY and Zhu S (2015) “Adaptive-scale damage detection strategy for plate structures based on wavelet finite element model,” Structural Engineering and Mechanics, an international journal, 54(2): 239-256. (DOI)

39. Li SL, Xu Y, Zhu S, Guan X and Bao Y (2015) “Probabilistic Deterioration Model of High-strength Steel Wires and Its Application to Bridge Cables,” Structural and Infrastructure Engineering, 11(9), 1240–1249. (DOI)

38. Shen W and Zhu S (2015) “Harvesting energy via electromagnetic damper: application to bridge stay cables,” Journal of Intelligent Material Systems and Structures, 26(1): 3-19. (DOI)

37. Chen ZW, Zhu S, Xu YL, Li Q and Cai QL (2015) “Damage detection in long suspension bridges using stress influence lines: a case study,” ASCE Journal of Bridge Engineering. 20(3), 05014013. (DOI)

36. Chen ZW, Cai QL, Lei Y and Zhu S (2014) “Damage detection of long-span bridges using stress influence lines incorporated control charts,” Science China Technological Sciences, 57(9): 1689-1697. (DOI)

35. Qiu CX and Zhu S (2014) “Characterization of Cyclic Properties of Superelastic Monocrystalline Cu-Al-Be SMA Wires for Seismic Applications,” Construction and Building Materials. 72: 219–230. (DOI)

34. Zhu S, He WY and Ren WX (2014) “A wavelet finite element-based adaptive-scale damage detection strategy,” Smart Structures and Systems. 14(3): 285-305. (DOI)

33. Zhu S, Chen Z, Cai Q, Lei Y and Chen B (2014) “Locate damage in long-span bridges based on stress influence lines and information fusion technique,” Advances in Structural Engineering. 17(8): 1089-1102. (DOI)

32. Lei Y, Lai Z, Zhu S and Zhang XH (2014) “Experimental study on impact-induced damage detection using an improved extended Kalman Filter”, International Journal of Structural Stability and Dynamics, 14(5): 1440007. (DOI)

31. Ni P, Xia Y, Law SS and Zhu S (2014) “Structural damage detection using auto/cross-correlation functions under multiple unknown excitations,” International Journal of Structural Stability and Dynamics, 14(5): 1440006. (DOI)

30. Wang Y, Zhu S and Wong A (2014) “Cooling time estimation of newly placed hot-mix asphalt pavement in different weather conditions,” ASCE Journal of Construction Engineering and Management, 140(5): 040 14009 (11pp.). (DOI)

29. Zhu S, Shi X, Leung R, Cheng L, Ng S, Zhang XH and Wang Y (2014) “Impact of construction-induced vibration on vibration sensitive medical equipment: a case study”, Advances in Structural Engineering, an international journal, 17(6): 907-920. (DOI)

28. Zhu S and Qiu C (2014) “Incremental dynamic analysis of highway bridges with novel shape memory alloy isolators,” Advances in Structural Engineering, an international journal, 17(3): 429-438. (DOI)

27. Zhang XH, Xu YL, Zhu S and Zhan S (2014) “Dual-type sensor placement for multi-scale response reconstruction,” Mechatronics – An International Journal, 24: 376-384. (DOI)

26. Zhu S, Shen WA and Qian X (2013) “Dynamic analogy between electromagnetic shunt damper and tuned mass damper,” Smart Materials and Structures. 22(11): 115018. (DOI)

25. Zhu S, Zhang XH, Xu YL and Zhan S (2013) “Multi-type sensor placement for structural health monitoring,” Advances in Structural Engineering, 16(10): 1779-1797. (DOI)

24. Zhu S, He WY and Ren WX (2013) “Adaptive-scale damage detection for frame structures using beam-type wavelet finite element: experimental validation,” Journal of Earthquakes and Tsunami, 7(3): 1350024 (15pp.). (DOI)

23. He WY and Zhu S (2013) “Progressive damage detection based on multi-scale wavelet finite element model”, Computers and Structures, 125: 177-186. (DOI)

22. Li C, Zhu S, Xu YL and Xiao YQ (2013) “2.5D large eddy simulation of vertical axis wind turbine in consideration of high angle of attack flow,” Renewable Energy, an international journal, 51: 317-330. (DOI)

21. Zhu S and Zhang Y (2013) “Loading rate effect on superelastic SMA-based seismic response modification devices,” Earthquakes and Structures, an international journal, 4(6): 607-627. (DOI)

20. Feng P, Jin F, Ye L and Zhu S (2013) Quantification of pedestrian’s comfort level and dynamic properties of footbridge vibration based on in-situ measurement. Journal of Vibration Engineering, 26(4): 545-553. (in Chinese) 

19. Shen WA, Zhu S and Xu YL (2012) “Experimental study on self-powered vibration control and monitoring system using electromagnetic TMD and wireless sensors,” Sensors and Actuators A: Physical, 180: 166-176. (DOI)

18. Xu YL, Zhang XH, Zhan S, Hong XJ, Zhu LD, Xia Y and Zhu S (2012) “A test-bed for structural health monitoring of long-span suspension bridges,” ASCE Journal of Bridge Engineering, 17(6): 896-906. (DOI)

17. Zhu S, Shen WA and Xu YL (2012) “Linear electromagnetic damper for vibration damping and energy harvesting: modeling and testing,” Engineering Structures. 34: 198-212. (First Prize in Elsevier’s Engineering Audioslides Challenge in 2013). (DOI)

16. Li SL, Zhu S, Xu YL, Chen ZW and Li H (2012) “Long-term condition assessment of suspenders under traffic loads based on structural health monitoring system: application to Tsing Ma Bridge,” Structural Control and Health Monitoring, 19(1): 82-101. (Takuji Kobori Prize). (DOI)

15. Liu JL, Zhu S, Xu YL and Zhang Y (2011) “Displacement-based design approach for highway bridges with SMA isolators,” Smart Structures and Systems. 8(2), 173-190. (DOI)

14. Zhang XH, Zhu S and Xu YL (2011) “Integrated optimal placement of displacement sensors and strain gauges for better estimation of structural response,” International Journal of Structural Stability and Dynamics, 11(3), 581-602. (DOI)

13. Hong XJ, Zhu S and Xu YL (2010) “Three-dimensional vibration control of high-tech facilities against earthquakes and microvibration using hybrid platform,” Earthquake Engineering and Structural Dynamics, 39(6): 615-634. (DOI)

12. Zhang Y, Hu X and Zhu S (2009) “Seismic performance of benchmark base isolated bridges with superelastic Cu-Al-Be wire damper,” Structural Control and Health Monitoring, 16(6): 668-685. (DOI)

11. Zhu S and Zhang Y (2008) “Seismic analysis of concentrically braced frame system with self-centering friction damping braces,” ASCE Journal of Structural Engineering, 134(1): 121-131. (DOI)

10. Zhang Y and Zhu S (2008) “Seismic response control of building structures with superelastic Shape Memory Alloy wire damper,” ASCE Journal of Engineering Mechanics, 134(3): 240-251. (DOI)

9. Zhang Y, Camilleri JA and Zhu S (2008). “Mechanical properties of copper-based superelastic alloy at cold temperatures for the seismic protection of bridges,” Smart Materials and Structures, 17(2): 025008. (DOI)

8. Li J, Zhang Y and Zhu S (2008) “A wavelet-based structural damage assessment approach with progressively downloaded sensor data,” Smart Materials and Structures, 17(1): 015020. (DOI)

7. Zhu S and Zhang Y (2007) “Seismic behavior of self-centering braced frame buildings with reusable hysteretic damping brace,” Earthquake Engineering and Structural Dynamics, 36: 1329-1346. (DOI)

6. Zhu S and Zhang Y (2007) “A thermomechanical constitutive model for superelastic SMA wire with strain-rate dependency,” Smart Materials and Structures, 16: 1696- 1707. (DOI)

5. Zhang Y and Zhu S (2007) “Shape memory alloy-based reusable hysteretic damper for seismic hazard mitigation,” Smart Materials and Structures, 16: 1603- 1613. (DOI)

4. Deng H, Zhu S, Chen X and Wang Z (2003) “Wind tunnel investigation on model of long span transmission line system,” Journal of Tongji University, 31(2), in Chinese

3. Deng H and Zhu S (2003) “Wind tunnel investigation on wind-induced vibration control of long span transmission line system,” Journal of Tongji University, 31(9), in Chinese

2. Deng H, Zhu S, Chen Y and Wang Z (2003) “Study on wind induced vibration control of long span transmission lines system,” Journal of Building Structure, 24(4), in Chinese

1. Deng H, Zhu S and Wang Z (2002) “Control on wind vibration for transmission tower-line system of large crossing,” Electric Power Construction, 23(8), in Chinese.