Operational Perspective of Modeling System Reliability
eBook - ePub

Operational Perspective of Modeling System Reliability

Research Tools for System Dynamics

  1. English
  2. ePUB (mobile friendly)
  3. Available on iOS & Android
eBook - ePub

Operational Perspective of Modeling System Reliability

Research Tools for System Dynamics

About this book

This book provides insights into contemporary issues and challenges concerning operational research and related mathematical modeling fundamentals, such as system reliability, scalability, and adaptability. This collaboration of academia and industry disseminates practical tools and analytics applications of mathematics in engineering and information sciences

Optimization techniques have gained popularity among system managers for making crucial decisions while meeting multiple needs. The focus of this book is the evaluation and optimization of critical decisions related to the system betterment. Each chapter presents the recent advancements and research opportunities in system assurance.

Operational Perspective of Modeling System Reliability (Research Tools for System Dynamics) is for academicians and those who need to understand the latest developments in the field of System Reliability. Along with these, anyone solving problems within the related application domains will benefit from this compilation.

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Yes, you can access Operational Perspective of Modeling System Reliability by Deepti Aggrawal,Adarsh Anand,Yoshinobu Tamura,Mohini Agarwal in PDF and/or ePUB format, as well as other popular books in Mathematics & Cyber Security. We have over one million books available in our catalogue for you to explore.

Information

Publisher
De Gruyter
Year
2025
eBook ISBN
9783111477138
Edition
0
Topic
Mathematics
Subtopic
Cyber Security
Index
Mathematics

Table of contents

  1. Title Page
  2. Copyright
  3. Contents
  4. Dedication
  5. Editors’ biography
  6. List of contributing authors
  7. Chapter 1 Cloud-enabled HAP for next-generation reliable networks: a dependability analysis
  8. Chapter 2 Opportunity-based age replacement models in discrete time and their application
  9. Chapter 3 An efficient GA-PSO algorithm for addressing multi-objective reliability optimization problems
  10. Chapter 4 Mathematical data models for forecasting computational resources in cloud computing
  11. Chapter 5 Mathematical modeling and reliability analysis of pulsed GTAW process in mechanical property for weld joints
  12. Chapter 6 Analyzing enablers influencing reliability and adoption of conversational bots: an interpretive structural modeling technique
  13. Chapter 7 Modeling of series parallel system by two types of repairs for reliability perspective
  14. Chapter 8 Analyzing unmanned aerial vehicle threats and risks using STRIDE and DREAD
  15. Chapter 9 Reliability analysis of a two out of four stochastic model with rework strategy
  16. Chapter 10 A fast algorithm to find the maximum reliability route in stochastic networks
  17. Chapter 11 Discovery and fixation process for software vulnerabilities: modeling and analysisincorporating learning functions
  18. Chapter 12 Reliability assessment method based on cyclic noisy fault big data and AI for OSS
  19. Chapter 13 MEREC-CoCoSo-based systematic approach to analyze and evaluate critical testing coverage measures for software development process
  20. Chapter 14 The impact of mediator and observer design patterns on software reliability: an empirical evaluation
  21. Chapter 15 Identifying the most efficient vulnerability detection methods: a multi-criteria decision-making approach
  22. Chapter 16 Methodology of developing mathematical models with fuzzy logic elements for quality indices control
  23. Chapter 17 Review of multi-release software reliability growth modeling framework
  24. Index