Mathematics for Reliability Engineering : Modern Concepts and Applications /
ed. by Mangey Ram, Liudong Xing.
- 1 online resource (XII, 262 p.)
- De Gruyter Series on the Applications of Mathematics in Engineering and Information Sciences , 8 2626-5427 ; .
Frontmatter -- Acknowledgment -- Preface -- Editor's biography -- Contents -- 1 Residual resilience assessment in infrastructure networks: a case to IEEE14 bus test system -- 2 Modeling of mixed cascading failures and resilience-based restoration selection -- 3 MIRCE Science: a mathematical scheme for predicting impacts of reliability engineering on the time evolution of physical systems -- 4 On the reliability structures with two common failure criteria and a single change point -- 5 Invulnerability and survivability modeling and analysis of cloud storage systems -- 6 Reliability evaluation of multistate systems with common bus performance sharing considering performance excess -- 7 A fast universal algorithm for finding minimal cut-sets in networks with arbitrary structure -- 8 Switching-algebraic symbolic analysis of the reliability of non-repairable coherent multistate systems -- 9 Complex system modeling method considering failure mechanism dependency -- 10 Innovative interconnected nonlinear hybrid dynamic modeling for time-to-event processes -- 11 A Bayesian design of zero-failure reliability demonstration tests for multicomponent systems -- Index
restricted access http://purl.org/coar/access_right/c_16ec
Reliability is a fundamental criterium in engineering systems. This book shows innovative concepts and applications of mathematics in solving reliability problems. The contents address in particular the interaction between engineers and mathematicians, as well as the cross-fertilization in the advancement of science and technology. It bridges the gap between theory and practice to aid in practical problem-solving in various contexts.
Mode of access: Internet via World Wide Web.
In English.
9783110725599
10.1515/9783110725599 doi
2021940730
Engineering mathematics.
Reliability (Engineering)
Systems engineering.
Angewandte Mathematik.
Beständigkeit.
Toleranzdesign.
Technology & Engineering / Electrical.
TA330 / .M326 2022
Frontmatter -- Acknowledgment -- Preface -- Editor's biography -- Contents -- 1 Residual resilience assessment in infrastructure networks: a case to IEEE14 bus test system -- 2 Modeling of mixed cascading failures and resilience-based restoration selection -- 3 MIRCE Science: a mathematical scheme for predicting impacts of reliability engineering on the time evolution of physical systems -- 4 On the reliability structures with two common failure criteria and a single change point -- 5 Invulnerability and survivability modeling and analysis of cloud storage systems -- 6 Reliability evaluation of multistate systems with common bus performance sharing considering performance excess -- 7 A fast universal algorithm for finding minimal cut-sets in networks with arbitrary structure -- 8 Switching-algebraic symbolic analysis of the reliability of non-repairable coherent multistate systems -- 9 Complex system modeling method considering failure mechanism dependency -- 10 Innovative interconnected nonlinear hybrid dynamic modeling for time-to-event processes -- 11 A Bayesian design of zero-failure reliability demonstration tests for multicomponent systems -- Index
restricted access http://purl.org/coar/access_right/c_16ec
Reliability is a fundamental criterium in engineering systems. This book shows innovative concepts and applications of mathematics in solving reliability problems. The contents address in particular the interaction between engineers and mathematicians, as well as the cross-fertilization in the advancement of science and technology. It bridges the gap between theory and practice to aid in practical problem-solving in various contexts.
Mode of access: Internet via World Wide Web.
In English.
9783110725599
10.1515/9783110725599 doi
2021940730
Engineering mathematics.
Reliability (Engineering)
Systems engineering.
Angewandte Mathematik.
Beständigkeit.
Toleranzdesign.
Technology & Engineering / Electrical.
TA330 / .M326 2022