240 lines
10 KiB
TeX
240 lines
10 KiB
TeX
%
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\DeclareMathSymbol{\N}{\mathbin}{AMSb}{"4E}
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\DeclareMathSymbol{\Z}{\mathbin}{AMSb}{"5A}
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\DeclareMathSymbol{\R}{\mathbin}{AMSb}{"52}
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\DeclareMathSymbol{\Q}{\mathbin}{AMSb}{"51}
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\DeclareMathSymbol{\I}{\mathbin}{AMSb}{"49}
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\DeclareMathSymbol{\C}{\mathbin}{AMSb}{"43}
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%\DeclareMathSymbol{\hh}{\mathbin}{AMSb}{"48}
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\newcommand{\ft}{\ensuremath{4\!\!\rightarrow\!\!20mA} }
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\newcommand{\tenfifty}{\ensuremath{10\!\!\rightarrow\!\!50mA} }
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\usepackage{graphicx}
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\usepackage{fancyhdr}
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\usepackage{tikz}
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\usepackage{amsfonts,amsmath,amsthm}
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\usetikzlibrary{shapes.gates.logic.US,trees,positioning,arrows}
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\def\layersep{1.8cm}
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%\input{../style}\def\layersep{1.8cm}
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\usepackage{ifthen}
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\usepackage{lastpage}
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\usetikzlibrary{shapes,snakes}
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\newcommand{\tickYES}{\checkmark}
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%% \newcommand{\fc}{fault~scenario}
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\newcommand{\fc}{failure~cause}
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%% \newcommand{\fcs}{fault~scenarios}
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\newcommand{\fcs}{failure~causes}
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% Page layout definitions to suit A4 paper
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\setcounter{secnumdepth}{3} \setcounter{tocdepth}{4}
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\setlength{\topmargin}{0mm}
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\setlength{\textwidth}{160mm} \setlength{\textheight}{220mm}
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\setlength{\oddsidemargin}{0mm} \setlength{\evensidemargin}{0mm}
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%
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\newcommand{\permil}{\ensuremath{0/{\!}_{00}}}
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\newcommand{\emp}{} %% was italics
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\newcommand{\sd}{\ensuremath{\Sigma \Delta ADC}}
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%\newcommand{\sd}{\ensuremath{Sigma\;Delta\;ADC}}
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\newcommand{\derivec}{{D}}
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%\newcommand{\hh}{\ensuremath{{\stackrel{o}{H}}}}
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\newcommand{\hh}{\ensuremath{{\hbar}}}
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\newcommand{\abslev}{\ensuremath{\alpha}}
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\newcommand{\oc}{\ensuremath{^{o}{C}}}
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\newcommand{\adctw}{{${\mathcal{ADC}}_{12}$}}
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\newcommand{\adcten}{{${\mathcal{ADC}}_{10}$}}
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\newcommand{\ohms}[1]{\ensuremath{#1\Omega}}
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\newcommand{\fm}{\emp failure~mode}
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\newcommand{\fms}{\emp failure~modes}
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\newcommand{\FG}{\ensuremath{{FG}}}
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\newcommand{\DC}{\ensuremath{{DC}}}
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\newcommand{\fg}{\emp functional~grouping}
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\newcommand{\fgs}{\emp functional~groupings}
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\newcommand{\Fgs}{\emp Functional~groupings}
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\newcommand{\dc}{\emp derived~component}
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\newcommand{\dcs}{\emp derived~components}
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\newcommand{\bc}{\emp base~component}
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\newcommand{\Bc}{\emp Base~component}
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\newcommand{\bcs}{\emp base~components}
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\newcommand{\irl}{in~real~life}
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\newcommand{\enc}{\ensuremath{\stackrel{enc}{\longrightarrow}}}
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\newcommand{\pin}{\ensuremath{\stackrel{pi}{\longleftrightarrow}}}
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\newcommand{\half}{\ensuremath{\frac{1}{2}}}
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\newcommand{\cf}[1]{\textbf{#1()}}
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\newcommand{\etc}{Energy~Technology~Control~Ltd}
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%
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% OK after about 3 years its not rigorous FMEA (RFMEA) anymore, oh no, its Exhaustive FMEA
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% but since the fuckers might change it yet again, I am making this a macro.
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\newcommand{\XFMEA}{XFMEA}
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%
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%\newcommand{\pic}{\em pure~intersection~chain}
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\newcommand{\pic}{\emp pair-wise~intersection~chain}
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\newcommand{\wrt}{\emp with~respect~to}
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\newcommand{\swf}{software~function}
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% DO NOT USE THIS ONE USE \abslev \newcommand{\abslevel}{\ensuremath{\Psi}}
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%% GLOSSARY FORMAT
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%
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% \newcommand{\fmmdname}{\glossary{name={FMMDNAME},description={ }}
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%\fmodegloss
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\newcommand{\fmmdglossSYS}{\glossary{name={system}, description={
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A product designed to work as a coherent entity}}}
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\newcommand{\fmmdglossSS}{\glossary{name={sub-system}, description={
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A part of a system, sub-systems may contain sub-systems and so-on}}}
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\newcommand{\fmmdglossDC}{\glossary{name={{\dc}}, description={
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A theoretical component, derived from a collection of components (which may be derived components themselves)}}}
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\newcommand{\fmmdglossFG}{\glossary{name={{\fg}}, description={
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A collection of sub-systems and/or components that interact to perform a specific function}}}
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\newcommand{\fmmdglossSYMPTOM}{\glossary{name={symptom}, description={
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A failure mode of a {\fg}, caused by a combination of its component failure modes}}}
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\newcommand{\fmmdglossBC}{\glossary{name={{\bc}}, description={
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Any bought in component, or lowest level module/or part}}}
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%\newcommand{\fmmdglossFIT}{\glossary{name={FIT},description={Failure in Time (FIT). The statistical likelihood of failure mode occurring within a $10^9$ hour period.}}
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\newcommand{\fmmdglossFIT}{\glossary{name={FIT}, description={
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Failure in Time (FIT). The number of times a particular
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failure is expected to occur within a $10^{9}$ hour time period}}}
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\newcommand{\fmmdglossHFMEA}{\glossary{name={HFMEA},description={
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Hardware FMEA. FMEA applied to hardware i.e. mechanical or electrical equipment}}}
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\newcommand{\fmmdglossSFMEA}{\glossary{name={SFMEA},description={
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Software FMEA (SFMEA). FMEA techniques applied to software}}}
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\newcommand{\fmmdglossXFMEA}{\glossary{name={XFMEA},description={
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Exhaustive FMEA (XFMEA). Applying FMEA exhaustively means checking each failure mode
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for effects on all components in a given system}}}
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\newcommand{\fmmdglossDFMEA}{\glossary{name={DFMEA},description={
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Design FMEA. FMEA applied in design stages of a product.
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Can be used as a discussion/brain~storming method to
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reveal safety weakness and improve built in safety}}}
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\newcommand{\fmmdglossPFMEA}{\glossary{name={PFMEA},description={
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Production FMEA (PFMEA).
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FMEA applied for cost benefit analysis typically used in mass production}}}
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\newcommand{\fmmdglossSFTA}{\glossary{name={SFTA},description={
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Software Fault Tree Analysis (SFTA):
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top down failure investigation applied to software}}}
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\newcommand{\fmmdglossSA}{\glossary{name={Symptom Abstraction},description={
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By applying failure mode analysis to a module the symptoms of failure for it are determined
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given the failure modes of its components, its topology and its expected behaviour}}}
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\newcommand{\fmmdglossMUTEX}{\glossary{name={mutually~exclusive},description={
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Mutual exclusivity applied to component failure modes
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means that for each component it is ensured that
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only one of its failure modes may be active at any given time}}}
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\newcommand{\fmmdglossSTATEEX}{\glossary{name={State~explosion},description={
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State Explosion is the effect where very large numbers of combinations of conditions, or combinations of
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conditions and entities have to be processed. The number to be processed can quickly become too large
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for practical consideration, and when this happens `state~explosion' can be said to have occurred
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}}}
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\newcommand{\fmmdglossFTA}{\glossary{name={FTA},description={
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Fault Tree Analysis (FTA).
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A top down failure analysis technique which starts with undesirable
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top level events, and using symbols from digital logic builds
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a tree, working downwards to putative causes}}}
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\newcommand{\fmmdglossFMEDA}{\glossary{name={FMEDA},description={
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Failure Mode Effects and Diagnostic Analysis (FMEDA).
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An extended FMEA technique which provides for diagnostic
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mitigation and has a final statistical safety level as a result}}}
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\newcommand{\fmmdglossFMECA}{\glossary{name={FMECA},description={
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Failure Mode Effects and Criticality Analysis (FMECA).
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An extended FMEA technique, based on Bayesian statistics,
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which is used to order the severity or criticality of top level events/symptoms}}}
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\newcommand{\fmmdglossFS}{\glossary{name={forward~search},description={
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Failure analysis where the start points are base component failure modes and the result is system level failure/symptom.
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Sometimes termed `bottom~up'}}}
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\newcommand{\fmmdglossBS}{\glossary{name={backward~search},description={
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Failure analysis where the start points are system level failure/symptom and the results are lower level putative causes.
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Sometimes termed `top~down'}}}
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\newcommand{\fmmdglossINHIBIT}{\glossary{name={inhibit},description={
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A guard on a process such that if a condition is not met, the process may not continue}}}
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\newcommand{\fmmdglossSIGPATH}{\glossary{name={signal~path},description={
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The components (software or hardware) and connections from which a particular signal or value is derived}}}
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\newcommand{\fmmdglossRD}{\glossary{name={reasoning~distance},description={
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A reasoning distance is the number of stages of logic and reasoning,
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counted by the number of components examined, used to map a failure cause to its potential outcomes}}}
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\newcommand{\fmmdglossOBS}{\glossary{name={observability}, description={
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If a failure mode cannot be detected it is termed unobservable or undetectable}}}
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\newcommand{\fmmdglossSMARTINSTRUMENT}{\glossary{name={smart~instrument}, description={
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A smart instrument is one that uses software
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in conjunction with its sensing electronics, rather than
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analogue electronics only~\cite{smart_instruments_1514209}}}}
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\newcommand{\fmmdglossCONTRACTPROG}{\glossary{name={contract~programming}, description={
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A software discipline whereby each function is assigned strict pre and post conditions
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which define a `contract' formalising the function's behaviour}}}
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%
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%\newcommand{\fmmdglossRD}{\glossary{name={reasoning~distance}{yahda yahda ya}}}
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%
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\newcommand{\fmmdgloss}{\glossary{name={FMMD},description={
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Failure Mode Modular De-Composition (FMMD). A bottom-up methodology for incrementally building
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failure mode models, using a procedure taking functional groups of components and creating
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derived components representing them, and in turn using the
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derived components to create higher level functional groups, and so on,
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%that are used to build a
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building a hierarchical failure mode model}}} % of a system}}}
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\newcommand{\fmodegloss}{\glossary{name={failure mode},description={ % The way in which a failure occurs.
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A component or sub-system may fail in a number of ways, and each of these is a
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failure mode of that particular component type}}}
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\newcommand{\fmeagloss}{\glossary{name={FMEA}, description={
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Failure Mode and Effects analysis (FMEA) is a process where each
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{\bc} failure mode in a given system
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is analysed to determine system level failures/symptoms}}}
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\newcommand{\frategloss}{\glossary{name={failure rate}, description={
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The number of failures expected over a given time interval}}}
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\newcommand{\pecgloss}{\glossary{name={PEC},description={
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A Programmable Electronic controller,
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will typically consist of sensors and actuators interfaced electronically,
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with some firmware/software component in overall control}}}
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\usepackage{amsthm}
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\newtheorem{example}{Example:}
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\newtheorem{definition}{Definition:}
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\newtheorem*{summary}{Summary:}
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%
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\newcommand{\Fam}{{\mathbb F}}
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\newcommand{\Pow}{{\mathbb P}}
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\newcommand{\Dis}{{\vee}}
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\newcommand{\Con}{{\wedge}}
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\newcommand{\FMEA}{{\bowtie}}
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%
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\newcommand{\Nat}{{\mathbb N}}
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\newcommand{\Real}{{\mathbb R}}
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\newcommand{\Complex} {{\mathbb C}}
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\newcommand{\Rational} {{\mathbb Q}}
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%
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