Reliability Modelling

Name: Reliability Modelling
Brand: Taylor & Francis Ltd
SKU: 9781138469143
Price: 235.6 EUR
Availability: InStock

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A01=Linda C. Wolstenholme

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Author_Linda C. Wolstenholme

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Cumulative Distribution Function

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density

Dirt Contamination

distribution

Distribution Function

eq_isMigrated=2

estimate

exponential

Exponential Lifetime

Failure Time

Fault Free System

function

Graphical Exploratory Data Analysis

Gumbel Distribution

hazard

Hazard Function

IID Random Variable

Individual Component Reliabilities

Language_English

Laplace Transforms

likelihood

Linda C. Wolstenholme

Markov Diagram

maximum

Maximum Likelihood

Minimal Cut Set

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Posterior Distribution

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probability

Probability Density Function

PS=Active

RBD

Reliability Function

softlaunch

Uncensored Observations

Weakest Link Property

weibull

Weibull Distribution

Weibull Model

Weibull Parameters

Weibull Plots

Product details

ISBN 9781138469143
Weight: 660g
Dimensions: 156 x 234mm
Publication Date: 18 Dec 2017
Publisher: Taylor & Francis Ltd
Publication City/Country: GB
Product Form: Hardback
Language: English

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Reliability is an essential concept in mathematics, computing, research, and all disciplines of engineering, and reliability as a characteristic is, in fact, a probability. Therefore, in this book, the author uses the statistical approach to reliability modelling along with the MINITAB software package to provide a comprehensive treatment of modelling, from the basics through advanced modelling techniques.

The book begins by presenting a thorough grounding in the elements of modelling the lifetime of a single, non-repairable unit. Assuming no prior knowledge of the subject, the author includes a guide to all the fundamentals of probability theory, defines the various measures associated with reliability, then describes and discusses the more common lifetime models: the exponential, Weibull, normal, lognormal and gamma distributions. She concludes the groundwork by looking at ways of choosing and fitting the most appropriate model to a given data set, paying particular attention to two critical points: the effect of censored data and estimating lifetimes in the tail of the distribution.

The focus then shifts to topics somewhat more difficult:

the difference in the analysis of lifetimes for repairable versus non-repairable systems and whether repair truly "renews" the system

methods for dealing with system with reliability characteristic specified for more than one component or subsystem

the effect of different types of maintenance strategies

the analysis of life test data

The final chapter provides snapshot introductions to a range of advanced models and presents two case studies that illustrate various ideas from throughout the book.