Technical, comprehensive resource on system reliability modeling
System Reliability Modeling develops algorithms for generating a system reliability model using matrix algebra, with all algorithms presented in ready-to-use MATLAB functions ensuring system reliability modeling becomes as simple as writing a few lines of MATLAB code, no matter how complex the system structures are. All functions are managed in a user-friendly software package to simplify modeling and analyzing the reliability of a complex system. The package is also utilized to investigate the optimum maintenance and replacement programs, component orderings, and warmness levels in standby systems.
The book includes examples and simple exercises for every topic, applications for real systems, problems at the end of each chapter, a chapter on discrete time systems, and a chapter on the use of AI in system reliability.
This book discusses:
- Matrix-based distributions, covering continuous-time Markov chains (CTMC), ways to model CTMC, phase-type (PH) and matrix-exponential (ME) distributions, similarity transformation, and approximating scalar distributions with PH distributions
- One-component systems, covering reliability, hazard, and mean residual lifetime functions, perfect and imperfect maintenance, optimum replacement interval, and stock-out risk.
- Basic structured systems, covering series, parallel, standby with perfect and imperfect switches structures, and any combination of these structures
- General structure systems, covering a method to incorporate warmness levels into standby systems, so that one standby model applies to hot, warm, and cold standby in any combination thus applicable to all basic structured systems
- Network reliability, covering methods for converting Boolean structure functions into arithmetic functions and calculating network’s reliability measures and the maximum reliability function in capacitated networks
System Reliability Modeling is an excellent resource for students, researchers, reliability engineers, maintenance engineers, and spare part logistics engineers seeking a rigorous analytical method in system design for reliability.
About the Author :
Abdullah Alkaff, Professor, Laboratory of Systems and Cybernetics, Electrical Engineering Department, Sepuluh Nopember Institute of Technology (ITS), Surabaya, Indonesia. Prior to that, he was a Lecturer at the University of Florida, USA, Assistant Professor at Syracuse University, USA, Project Director for the design and implementation of country-wide radar integration, integrated maritime surveillance system for the Strait of Malacca, and national education data center, and advisor to ministers of ICT and Educations. Professor Alkaff holds a Doctor of Philosophy degree in Systems Engineering from the University of Florida, USA.
