Abstract
Reliability analysis of structures under earthquake loading represents a significant engineering challenge. This is due to the required and rather numerically involving non-linear dynamic analysis, the large computational burden when targeting small failure probabilities, and the synthetic earthquake model representation that may contain thousands of random variables. Subset Simulation is an efficient reliability analysis technique that can handle the challenge of a high-dimensional space with a reduced number of structural analysis calls compared to crude Monte Carlo Simulation. In this contribution, firstly, we investigate the conditions for which Subset Simulation performs efficiently. Thereafter we propose an enhancement to the existing Subset Simulation schemes that shows significant potentials for enhancing the strategy for the starting of the Markov Chain Monte Carlo simulations whenever a new level is reached in the Subset Simulation. Finally, the information gathered from the simulations is investigated to verify that Subset Simulation provides meaningful results from a physical point of view.
Original language | English |
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Article number | 103690 |
Journal | Probabilistic Engineering Mechanics |
Volume | 78 |
ISSN | 0266-8920 |
DOIs | |
Publication status | Published - Oct 2024 |
Bibliographical note
Publisher Copyright:© 2024 The Authors
Keywords
- Adaptive conditional sampling
- Advanced simulation techniques
- Markov chain Monte Carlo
- Monte Carlo simulation techniques
- Non-linear structural analysis
- OpenSees
- Reliability analysis
- Seismic reliability
- Structural reliability
- Subset simulation