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Dr. Shao
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Dr. Xiaoyun Shao's Homepage
Dr. Shao                      Associate Professor, Ph.D. PE
Civil and Construction Engineering Department
Western Michigan University
1903 W. Michigan Avenue
Kalamazoo, MI, 49008-5316

Office: G-239 CEAS, Parkview Campus
Phone:  (269) 276-3202
Fax:    (269) 276-3211
Email:  
xiaoyun.shao@wmich.edu
Website:  http://homepages.wmich.edu/~dpb8848/
Publications
Journal

1.     Yu, H., Li, Y., Shao, X., Cai, X., (2021) “Virtual hybrid simulation method for underground structures subjected to seismic loadings.” Tunneling and Underground Space Technology, 110: 103831, https://doi.org/10.1016/j.tust.2021.103831.

2.     Alhawamdeh, B., and Shao, X., (2021) “Fatigue performance of wood frame roof-to-wall connections with elastomeric adhesives under uplift cyclic loading.” Engineering Structure, 229:111605, https://doi.org/10.1016/j.engstruct.2020.111602.

3.     Wu, J., Sadraddin, H., Ren, R., Zhang, J., and Shao, X., (2021) “Invariant signatures of Architecture, Engineering, and Construction Objects to support BIM interoperability between architectural design and structural analysis.” ASCE Journal of Construction Engineering and Management, 147(1), https://ascelibrary.org/doi/abs/10.1061/%28ASCE%29CO.1943-7862.0001943.

4.     Sadraddin, H. L., Cinar, M., Shao, X., and Ahmed, M., (2020). “Testing platform and delay compensation methods for distributed real-time hybrid simulation.” Experimental Techniques, https://link.springer.com/article/10.1007/s40799-020-00390-9.

5.     Tian, Y., Shao, X., Zhou, H. and Wang, T., (2020) “Advances in real-time hybrid testing technology for shaking table substructure testing.” Frontiers in Built Environment-Section of Computational Methods in Structural Engineering, https://doi.org/10.3389/fbuil.2020.00123.

6.     Yasho, Hu, Y., Shao, X., (2020) “Application of wavelet transform in structural health monitoring.” The Journal of Earthquake Engineering and Engineering Vibration,19(2):515-532. https://doi.org/10.1007/s11803-020-0576-8.

7.     Alhawamdeh, B., and Shao, X., (2020) “Uplift capacity of light-frame rafter to top plate connections applied with construction adhesives”, ASCE Journal of Materials in Civil Engineering, 32 (5): https://doi.org/10.1061/(ASCE)MT.1943-5533.0003152.

8.     Zhou, H., Shao, X., Wang, T., Xu, G., Li, H., Shang, Q., and Tian, Y., (2019) “Reproducing response spectra in shaking table tests of nonstructural components.” Soil Dynamics and Earthquake Engineering, 127, https://doi.org/10.1016/j.soildyn.2019.105835.

9.     Zhou, H., Xu, D., Shao, X., Ning, X., and Wang, T. (2019) “A Robust Linear-Quadratic-Gaussian control for real-time hybrid simulation on a benchmark problem.” Mechanical Systems and Signal Processing, 133, https://doi.org/10.1016/j.ymssp.2019.106260.

10.  Xu, D., Zhou, H., Shao, X., and Wang, T. (2019) “Performance Study of Sliding Mode Controller with Improved Adaptive Polynomial-Based Forward Prediction.” Mechanical Systems and Signal Processing, 133, https://doi.org/10.1016/j.ymssp.2019.106263.

11.  Yu, J., Yan, G., Li, T. and Shao, X., (2017). “Damage Localization Using Shape Change in Uniform Load Surface for Civil Large-span Space Structures” Journal of Intelligent Material Systems and Structures, https://doi.org/10.1177/1045389X18806388.

12.  Liu, T., Chen, Z., Yuan, Y., Shao, X. (2016) “Fragility analysis for a subway station structure by incremental dynamic analysis.Advances in Structural Engineering, 20 (7):1111-1124.

13.  Sadraddinler, H. L., Shao, X., Hu, Y. (2016) “Fragility Assessment of High-Rise Reinforced Concrete Buildings Considering the Effects of Shear Wall Contributions.” The Structural Design of Tall and Special Buildingsdoi: 10.1002/tal.1299.

14.  Shao, X., Pang, W., Griffith, C., Ziaei, E., and van de Lindt, J.W. (2016). “Development of a Hybrid Simulation Controller for Full-Scale Experimental Investigation of Seismic Retrofits for Soft-Story Woodframe BuildingsEarthquake Engineering and Structural Dynamics, 45:1233-1249.

15.  Murray, J., Sasani, M., Shao, X.,Hybrid Simulation of for System-Level Structural Response.” Engineering Structures, 103:228-238.

16.  Shao, X., Mueller, A., and Mohammed, B. A. (2016). “Real-Time Hybrid Simulation with Online Model Updating—Methodology and Implementation.” ASCE Journal of Engineering Mechanics, 142(2), 04015074.

17.  Jennings, E., Ziaei, E., Pang, W., van de Lindt, J., Shao, X., Bahmani, P. (2016). “Full-Scale Experimental Investigation of Second-Story Collapse Behavior in a Woodframe Building with an Over-Retrofitted First Story.ASCE Journal of Performance of Constructed Facilities,30(2), 04015004.

18.  Jennings, E., van de Lindt, J., Ziaei, E., Bahmani, P., Park, S., Shao, X. Pang, W., Rammer, D., Mochizuki, G., and Gershfeld, M. (2014). “Full-Scale Experimental Verification of Soft-Story-Only Retrofits Using Hybrid Testing.Journal of Earthquake Engineering, 19(3): 410-430.

19.  Jennings, E., van de Lindt, J., Ziaei, E., Mochizuki, G., Pang, W., Shao, X. (2014). “Retrofit of a Soft-Story Woodframe Building using SMA Devices with Full-Scale Hybrid Test Verification.” Engineering Structures, 80:469-485.

20.  Shao, X., van de Lindt, J.W., Bahmani, P., Pang, W., Ziaei, E., Symans, M., Tian, J. and Dao, T. (2014). “Real-Time Hybrid Simulation of a Multi-story Wood Shear Wall with First-Story Experimental Substructure Incorporating a Rate-Dependent Seismic Energy Dissipation Device.” Smart Structures and Systems 14(6):1031-1054.

21.  Pang, W., Shao, X., van de Lindt, J., Ziaei, E., Jennings, E. (2013). “Hybrid Testing of a Soft-Story Light-Frame Wood Building with Seismic Retrofits.” Wood Design Focus 23(4).

22.  Shao, X., Griffith, C. (2013) "An Overview of Hybrid Simulation Applications in NEESR Projects ." Engineering Structures.56: 1439-1451.

23.  Hu, Y., Dargush, G. and Shao, X. (2012) “A Conceptual Evolutionary Aseismic Decision Support Framework for Hospitals.” The Journal of Earthquake Engineering and Engineering Vibration. 2012, 11(4):499-512.

24.  Shao, X., Enyart, G. (2012) "Development of a Versatile Hybrid Testing System for Seismic Experimentation." Experimental Techniques. 38(6):44-60.

25.  Shao, X., Reinhorn, A.M. (2012) “Development of a Controller Platform for General Force-based Real Time Hybrid Simulation.” Journal of Earthquake Engineering, 16(2):274-295.

26.  Shao, X., Reinhorn, A.M., Sivaselvan, M.V. (2011) “Real Time Hybrid Simulation Using Shake Tables and Dynamic Actuators,” ASCE-Journal of Structural Engineering, 137(7):748-760.

27.  Sivaselvan, M.V., Reinhorn, A.M., Shao, X., Weinreber, S., (2008) “Dynamic Force Control with Hydraulic Actuators Using Added Compliance and Displacement Compensation”, Earthquake Engineering & Structural Dynamics, 37(15):1785–1800.

28.  Yuan. Y, Peng, D.C. and Shao, X. (2002) “Crack Analyzing of PVA Fiber Reinforced Concrete Beam.” Industrial Construction, 32(11) (in Chinese).

29.  Yuan.Y., Shao, X., (2000) “Prospect of Synthetic Fiber Reinforced Concrete”, Concrete, 12 (134):3-7 (in Chinese).

Other conference papers

1.     Gershfeld, M.,Chadwell, C., Jennings, E., Ziaei, E., Pang, W., Shao, X. and van de Lindt, J. (2014) “Seismic Performance of Distributed Knee-Brace (DKB) System as a Retrofit for Weak-story Wood Frame Buildings”, The 14th World Conference on Timber Engineering (WCTE), Quebec City, Canada, August, 10-14, 2014.

2.     van de Lindt, J. W., Symans, M.D., Pang, W., Shao, X., Gershfeld, M., (2012) “Seismic Risk Reduction for Soft-Story Woodframe Buildings: the NEES-SOFT project”,  The 12th World Conference on Timber Engineerin (WCTE), g, Auckland, New Zealand, July 16-19, 2012.

3.     Shao, X., (2009). “Unified approach for Real time dynamic hybrid simulation using shake tables and actuators,” 3rd International Conference on Advances in Experimental Structural Engineering, San Francisco CA, October 15-16, 2009.

4.     Shao, X, Reinhorn, A.M., Sivaselvan, M.V., (2006) “Force controlled actuators in hybrid testing”, 4th World Conference on Structural Control and Monitoring, San Diego, July 11-13, 2006.

5.     Reinhorn, A.M., Sivaselvan, M.V., Liang, Z., Shao, X., Pitman, M., and Weinreber, S. (2005), “Large scale real time dynamic hybrid testing technique – shake tables substructure testing”, Proceedings of The First International Conference on Advances in Experimental Structural Engineering, AESE 2005 July, Nagoya, Japan, 457.

6.     Reinhorn, A.M., Sivaselvan M.V., Weinreber S., Shao, X., (2004), "A novel approach to dynamic force control", Proceedings of Third European Conference on Structural Control (3ECSC), Vienna University of Technology, Vienna, Austria, July 12-15, 2004.

7.     Reinhorn, A.M., Sivaselvan M.V., Weinreber S., Shao, X., (2004), "Real-time dynamic hybrid testing of structural systems", Proceedings of Third European Conference on Structural Control (3ECSC), Vienna University of Technology, Vienna, Austria, July 12-15, 2004.

8.     Yuan. Y, Peng, D.C. and Shao, X.Y. (2003) “Crack control in reinforced concrete using PVA fiber” International conference on advanced in concrete structure ICACS, Xuzhou, China, September 17-19, 2003 (Chinese).

Technical Reports

1.     Lavan, O., Reinhorn, A.M., Shao, X. Pitman, M., (2006) “Seismic qualification test of suspended ceiling systems - A study for Chicago Metallic Corporation”, Technical Reports UB CSEE/SEESL-2006-06, 2006-08~2006-16, 2006-18 (Total 11 reports).Department of Civil, Structural, and Environmental Engineering, University at Buffalo, Buffalo, New York.

2.     Pitman, M., Shao, X., Reinhorn, A., (2006), “Seismic qualification of Emerson extended reserve battery enclosure”, Technical Report UB CSEE/SEESL-2006- 01 for Emerson Engineering, Department of Civil, Structural, and Environmental Engineering, University at Buffalo, Buffalo, New York.

3.     Pitman, M., Shao, X., Reinhorn, A.M., “Seismic qualification of Emerson single bay power backup system”, Technical Report UB CSEE/SEESL-2005-02, Department of Civil, Structural, and Environmental Engineering,  University at Buffalo, Buffalo, New York, June 2005.

4.     Kusumastuti, D., Badillo, H., Shao, X., Reinhorn, A.M., Whittaker, A.S., “ Seismic qualification of suspended ceiling systems -  A study performed for Armstrong Building products operation”, Technical Report UB CSEE/SEESL-2002-02, Department of Civil, Structural, and Environmental Engineering,  University at Buffalo, Buffalo, New York, May 2002.

Western Michigan University ---- Department of Civil and Construction Engineering
Laboratory of Earthquake and Structural Simulation --- Last Updated: 01-22-2021