Exploiting monotonicity and symmetry for efficient simulation of highly dependable systems

Evaluation of highly dependable systems requires estimating the probability of a significant rare event under which the system fails to meet the requirement. To improve the estimation accuracy, advanced Monte Carlo simulation techniques such as importance sampling (IS) are commonly used. However, IS...

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Published in:	2022 52nd Annual IEEE/IFIP International Conference on Dependable Systems and Networks (DSN) pp. 307 - 318
Main Authors:	Nguyen, Hoang Hai, Palani, Kartik, Nicol, David M.
Format:	Conference Proceeding
Language:	English
Published:	IEEE 01-06-2022
Subjects:	Estimation importance sampling Minimization Model-based evaluation monotonicity Monte Carlo methods rare event simulation Reliability Risk management Scalability Stochastic processes symmetry
Online Access:	Get full text
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Abstract	Evaluation of highly dependable systems requires estimating the probability of a significant rare event under which the system fails to meet the requirement. To improve the estimation accuracy, advanced Monte Carlo simulation techniques such as importance sampling (IS) are commonly used. However, IS is known to misbehave under high dimension. As a result, the IS estimator can have a large relative error and underestimate the rare event probability. In this paper, we propose a novel IS method based on the idea of maximum weight minimization (MWM). Our method works by finding the sampling distribution that minimizes the maximum weight of a rare event sample. To alleviate the curse of dimensionality, we develop further heuristics based on two problem-specific structures, namely, monotonicity and symmetry. Using extensive examples from network reliability, stochastic flow analysis, cyber-security risk assessment, and fault tree analysis, we evaluate the performance of MWM, demonstrate its accuracy and scalability, and highlight applications where it outperforms state-of-the-art techniques.
AbstractList	Evaluation of highly dependable systems requires estimating the probability of a significant rare event under which the system fails to meet the requirement. To improve the estimation accuracy, advanced Monte Carlo simulation techniques such as importance sampling (IS) are commonly used. However, IS is known to misbehave under high dimension. As a result, the IS estimator can have a large relative error and underestimate the rare event probability. In this paper, we propose a novel IS method based on the idea of maximum weight minimization (MWM). Our method works by finding the sampling distribution that minimizes the maximum weight of a rare event sample. To alleviate the curse of dimensionality, we develop further heuristics based on two problem-specific structures, namely, monotonicity and symmetry. Using extensive examples from network reliability, stochastic flow analysis, cyber-security risk assessment, and fault tree analysis, we evaluate the performance of MWM, demonstrate its accuracy and scalability, and highlight applications where it outperforms state-of-the-art techniques.
Author	Nicol, David M. Nguyen, Hoang Hai Palani, Kartik
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SubjectTerms	Estimation importance sampling Minimization Model-based evaluation monotonicity Monte Carlo methods rare event simulation Reliability Risk management Scalability Stochastic processes symmetry
Title	Exploiting monotonicity and symmetry for efficient simulation of highly dependable systems
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