Sustainability and Reliability of Networks
Description
The text emphasizes the methodologies and strategies for finding maintainability, sustainability, dependability, and reliability. It discusses how Industry 5.0 affects networks and gives ideas about diversification and an interdisciplinary approach in the field of network reliability.
Features:
- Covers different methods for enhancing the network's Reliability, maintainability, and performance based on applications of the universal generating function, Lz-transform, and Monte Carlo simulation Methodology.
- Discusses the concepts of Network reliability in Industry 5.0, in which we can enhance the Maintainability, Sustainability, Reliability, and dependability of the different complex networks and systems.
- Provides a comparative framework for the network reliability used in real life for future work.
- Explains how Industry 5.0 affects networks and gives ideas about diversification and an interdisciplinary approach in the field of Network reliability.
- Highlights future research and problems in network reliability and focus on how emerging networks are used in the agriculture field, the food supply chain network, and multistage interconnection networks.
The text is primarily written for graduate students and academic researchers in industrial engineering, systems engineering, production engineering, reliability engineering, mechanical engineering, and mathematics.
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Persons
Akshay Kumar is currently working as an Assistant Professor in the Department of Mathematics, Graphic Era Hill University, Dehradun in India. His fields of research are reliability theory, fuzzy reliability, signature reliability and applied Mathematics.
Mangey Ram is currently the Research Professor at Graphic Era (Deemed to be University), Dehradun, India. His fields of research are reliability theory and applied mathematics.
Soni Bisht is an Assistant Professor in the Department of Mathematics at Eternal University, Baru Sahib, Himachal Pradesh, India. Her research interests include Fuzzy Reliability Theory, System Reliability Theory, Operations Research, Applied Mathematics, Network Reliability Theory, and Parallel and Distributed Systems.
Yigit Kazancoglu is full Professor in Yasar University, Logistics Management Department and head of the department. His research areas include Operations Management and Supply Chain Management.
Content
Chapter 1. Review of Software Reliability Growth Models. Chapter 2. Risk-Informed Planning for Maritime Network Reliability Under Operational Uncertainty. Chapter 3. Ply-Board Manufacturing Plant with Perfect Switch Over Device: Reliability and Availability Analysis. Chapter 4. Bayesian Availability Analysis of Repairable k-out-of-n Systems Using Weighted Exponential Lindley Model. Chapter 5. Reliability Assessment of Cloud Security System Using Markov Model. Chapter 6. Multistate Network Reliability: An Overview. Chapter 7. Maximum Reliability Travelling Salesman Tour in a Stochastic Network. Chapter 8. Improvement the Agro-Food Supply Chain by Asset Management. Chapter 9. Multi-Objective Risk-Based Optimization of Single-Story Steel Frames: Balancing Lifecycle Costs and Reliability for Sustainable Industrial Buildings. Chapter 10. Evaluating k-out-of-(p+w+c) system under Sequential standby policy via. Lz-Transform Technique. Chapter 11. Reliability and Availability analysis of 4×4 Shuffle Exchange Network using Lz transform. Chapter 12. Mathematical Modelling and Reliability Attributes of Feeding System in Sugarcane Industry. Chapter 13. AI-Driven UAV Solutions for Sustainable and Reliable Infrastructure Monitoring in Industry 5.0. Chapter 14. Sustainable Availability and MTTF Estimation of Machine Repair Systems under Fuzzy Conditions. Chapter 15. Reliability Analysis of an Off-Grid Fire Safety System. Chapter 16 Availability and Reliability Analysis of An Interchangeable 3-Unit Series-Parallel System
