Computational Challenges in Real-Time Hybrid Simulation of Tall Buildings under Multiple Natural Hazards

The essence of real-time hybrid simulation (RTHS) is its ability to combine the benefits ofphysical testing with those of computational simulations. Therefore, an understanding of the real-timecomputational issues and challenges is important, especially for RTHS of large systems, in advancingthe sta...

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Bibliographic Details
Published in:Key engineering materials 2018-02, Vol.763, p.566-575
Main Authors: Marullo, Thomas M., Kolay, Chinmoy, Quiel, Spencer E., Al-Subaihawi, Safwan, Ricles, James M.
Format: Article
Language:English
Subjects:
Computation
Computer simulation
Earthquake loads
Earthquakes
Energy dissipation
Hazard mitigation
Real time
Seismic design
Seismic hazard
Seismic response
Tall buildings
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Summary:The essence of real-time hybrid simulation (RTHS) is its ability to combine the benefits ofphysical testing with those of computational simulations. Therefore, an understanding of the real-timecomputational issues and challenges is important, especially for RTHS of large systems, in advancingthe state of the art. To this end, RTHS of a 40-story (plus 4 basement stories) tall building havingnonlinear energy dissipation devices for mitigation of multiple natural hazards, including earthquakeand wind events, were conducted at the NHERI Lehigh Experimental Facility. An efficient implementationprocedure of the recently proposed explicit modified KR-a (MKR-a) method was developedfor performing the RTHS. This paper discusses this implementation procedure and the real-time computationalissues and challenges with regard to this implementation procedure. Some results from theRTHS involving earthquake loading are presented to highlight the need for and application of RTHSin performance based design of tall buildings under earthquake hazard.
ISSN:1013-9826
1662-9795
1662-9795
DOI:10.4028/www.scientific.net/KEM.763.566