Browse > Article

Real-Time Hybrid Simulation for the Effective Assessment of Dynamic Behavior of Structures  

Chae, Yun-Byeong (서울대학교 건설환경공학부)
Publication Information
Computational Structural Engineering / v.35, no.1, 2022 , pp. 25-34 More about this Journal
Keywords
Citations & Related Records
Times Cited By KSCI : 2  (Citation Analysis)
연도 인용수 순위
1 Ahmadizadeh M, Mosqueda G, and Reinhorn AM. (2008). "Compensation of actuator delay and dynamics for real-time hybrid structural simulation." Earthquake Engineering and Structural Dynamics; 37:21-42.   DOI
2 Chae, Y., Kazemibidokhti, K., and Ricles, J.M. (2013). Adaptive time series compensator for delay compensation of servo-hydraulic actuator systems for real-time hybrid simulation. Earthquake Engineering and Structural Dynamics; 42(11): 1697-1715.   DOI
3 Chen, C., and Ricles, J.M. (2011). "Real-Time Hybrid Simulation of a Steel MRF with Large Scale Passive Magneto-Rheological Fluid Dampers under Selected Ground Motions." Advanced Materials Research, Trans Tech Publ, p. 3962-3965.
4 Wallace MI, Wagg DJ, and Neild SA. An adaptive polynomial based forward prediction algorithm for multi-actuator real-time dynamic substructuring. Proceedings of the Royal Society A; 461:3807-3826, 2005.   DOI
5 Al-Subaihawi, S., C. Kolay, T. Marullo, J.M. Ricles, and S.E. Quiel. "Assessment of Wind-Induced Vibration Mitigation in a Tall Building with Damped Outriggers Using Real-Time Hybrid Simulations." Engineering Structures 205 (2020): 110044.   DOI
6 Chae, Y., Rabiee, R. Dursun, A., and Kim, C-Y. (2018a). "Real-time force control for servo-hydraulic actuator systems using adaptive time series compensator and compliance springs." Earthquake Engineering and Structural Dynamics, 47(4), 854-871.   DOI
7 Chae, Y., Lee, J., Park, M., and Kim, C-Y. (2019). "Fast and Slow Cyclic Tests for Reinforced Concrete Columns with an Improved Axial Force Control." ASCE Journal of Structural Engineering, 145(6): 04019044   DOI
8 Chen C. Development and numerical simulation of hybrid effective force testing method. Ph.D. Dissertation, Department of Civil and Environmental Engineering, Lehigh University, Bethlehem, PA 2007.
9 Chen, C. and Ricles, J.M. Tracking error-based servohydraulic actuator adaptive compensation for real-time hybrid simulation. ASCE Journal of Structural Engineering, 2010; 136(4):432-440.   DOI
10 Darby AP, Williams MS, and Blakeborough A. Stability and delay compensation for real-time substructure testing. ASCE Journal of Engineering Mechanics; 128(12):1276-1284, 2002.   DOI
11 Karavasilis TL, Seo, C.Y., and Ricles, JM. (2010). HybridFEM. A program for dynamic time history analysis and real-time hybrid simulation of 2D inelastic framed structures. ATLSS Report No. 08-09, Lehigh University, Bethlehem, PA.
12 Chae, Y., Lee, J., Park, M., and Kim, C-Y. (2018b). "Real-time hybrid simulation for an RC bridge pier subjected to both horizontal and vertical ground motions." Earthquake Engineering and Structural Dynamics, 47(7), 1673-1679.   DOI
13 Horiuchi T, Inoue M, Konno T, and Namita Y. Real-time hybrid experimental system with actuator delay compensation and its application to a piping system with energy absorber. Earthquake Engineering and Structural Dynamics; 28:1121-1141, 1999.   DOI
14 Horiuchi T and Konno T. A new method for compensating actuator delay in real-time hybrid experiments. Philosophical Transactions of the Royal Society of London, Series A; 359:1786-1893, 2001.
15 Carrion JE and Spencer BF. Model-based strategies for real-time hybrid testing. NSEL Report Series, NSEL-006, University of Illinois at Urbana-Champaign, IL 2007.
16 Chae, Y., Ricles, J., and Sause, R. (2014) "Large-scale real-time hybrid simulation of a 3-story steel frame building with magneto-rheological dampers", Earthquake Engineering and Structural Dynamics, 43(13), 1915-1933.   DOI
17 Kolay, C., and Ricles, J.M. (2014). Development of a family of unconditionally stable explicit direct integration algorithms with controllable numerical energy dissipation: Earthquake Engineering & Structural Dynamics, Vol. 43, No. 9, pp. 1361-1380.   DOI
18 Lamarche CP, Bonelli A, Bursi OS, Tremblay R. A. (2008). "Rosenbrock-W method for real time sub-structuring and PSD testing." Earthquake Engineering and Structural Dynamics 2008; DOI: 10.1002/eqe.884.   DOI
19 Rabiee, R. and Chae, Y. (2018). "Adaptive Base Isolation System to Achieve Structural Resiliency under both Short-and Long-Period Earthquake Ground Motions." Journal of Intelligent Material Systems and Structures, 30(1), 16-31.   DOI
20 Rabiee, R. and Chae, Y. (2022). "Real-time hybrid simulation for a base-isolated building with the transmissibility-based semi-active controller." Journal of Intelligent Material Systems and Structures. https://doi.org/10.1177/1045389X221079680.   DOI
21 Saouma, V. Haussmann, G., Kang, D-H., and Ghannoum, W. (2014). "Real-time hybrid simulation of a nonductile reinforced concrete frame." ASCE Journal of Structural Engineering, 140(2): 04013059.   DOI
22 Sarebanha, Alireza, Andreas H. Schellenberg, Matthew J. Schoettler, Gilberto Mosqueda, and Stephen A. Mahin. "Real-Time Hybrid Simulation of Seismically Isolated Structures with Full-Scale Bearings and Large Computational Models." Computer Modeling in Engineering & Sciences 120, no. 3 (2019): 693-717.   DOI
23 Schellenberg, A. "MDOF Hybrid Shake Table Testing for Bridge and Building Structures."EU-US-Asia Workshop on Hybrid Testing." Ispra, 2015.
24 Yang, C., X. Cai, G. Dong, A. Schellenberg, and S. You. "Real-Time Hybrid Simulation of a Single-Span Girder Bridge Using a Shake Table Coupled with an Actuator." KSCE Journal of Civil Engineering, 2021, 1-11.
25 Zhao J, French C, Shield C, Posberg T. Considerations for the development of real-time dynamic testing using servo-hydraulic actuation. Earthquake Engineering and Structural Dynamics; 32:1773-1794, 2003.   DOI