|Statement||edited by Süleyman Özekici in cooperation with Erhan Çinlar ... [et al.].|
|Series||NATO ASI series. Series F, Computer and systems sciences ;, vol. 154, NATO ASI series., no. 154.|
|Contributions||Özekici, S., North Atlantic Treaty Organization. Scientific Affairs Division., NATO Advanced Study Institute on Reliability and Maintenance of Complex Systems (1995 : Kemer Bucağı, Antalya İli, Turkey)|
|LC Classifications||TA169 .R4364 1996|
|The Physical Object|
|Pagination||xi, 587 p. :|
|Number of Pages||587|
|LC Control Number||96013936|
The chapters are grouped into five complementary parts that cover the most important aspects of reliability and maintenance: stochastic models of reliability and maintenance, decision models involving optimal replacement and repair, stochastic methods in software engineering, computational methods and simulation, and maintenance management systems. About this book Complex high-technology devices are in growing use in industry, service sectors, and everyday life. Their reliability and maintenance is of utmost importance in view of their cost and critical functions. Modern societies depend on the smooth operation of many complex systems (designed and built by humans) that provide a variety of outputs (products and services). These include transport systems (trains, buses, ferries, ships and ae- planes), communication systems (television, telephone and computer networks), utilities (water, gas and electricity networks), . Researchers from the entire world write to figure out their newest results and to contribute new ideas or ways in the field of system reliability and maintenance. Their articles are grouped into four sections: reliability, reliability of electronic devices, power system reliability and feasibility and maintenance.
Onboard sensors, which constantly monitor the states of a system and its components, have made the predictive maintenance (PdM) of a complex system possible. To date, system reliability has been extensively studied with the assumption that systems are either single-component systems or they have a deterministic reliability structure. reliability information about ship systems is the factor that constrains the potential benefits of RCM to ships. RCM is reliability-centered. Its objective is to maintain the inherent reliability of the design, recognizing that changes in inherent reliability are the province of design. Rather than focusing immediately on subsystems or equipments. An introduction to Reliability Centered Maintenance (RCM) principles. Introduction to Reliability-centered Maintenance This is an excerpt of the first chapter of the book "Reliability-centred Maintenance" by John may order this book through this website by clicking here. The Changing World of Maintenance. Reliability of Large and Complex Systems, previously titled Reliability of Large Systems, is an innovative guide to the current state and reliability of large and complex systems.
Complex System Maintenance Handbook is the first book to integrate this vast literature with chapters written by internationally-renowned active researchers and experienced practitioners focussing on different aspects of s: 1. Reliability and Maintenance of Complex Systems by Süleyman Özekici, , available at Book Depository with free delivery worldwide. The chapters are grouped into five complementary parts that cover the most important aspects of reliability and maintenance: stochastic models of reliability and maintenance, decision models involving optimal replacement and repair, stochastic methods in software engineering, computational methods and simulation, and maintenance management : Hardcover. serial system consisting of 4 elements with reliability equal to , , and 5. The reliability of the whole system is given by their product: R = = For a parallel system, reliability is.