English + A. Fish comments
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Robin Clark
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@ -486,10 +486,10 @@ wihen it becomes a V2 follower).
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\section{Basic Concepts Of FMMD}
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\paragraph{ Creating a fault hierarchy}
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\paragraph{ Creating a fault hierarchy.}
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The main concept of FMMD is to build a hierarchy of failure behaviour from the {\bc}
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level up to the top, or system level, with analysis stages between each transition to a higher level in the hierarchy.
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level up to the top, or system level, with analysis stages between each
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transition to a higher level in the hierarchy.
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The first stage is to choose
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{\bcs} that interact and naturally form {\fgs}. The initial {\fgs} are collections of base components.
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@ -506,17 +506,22 @@ we can determine its symptoms of failure.
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%In fact we can call these
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%the symptoms of failure for the {\fg}.
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This new set of faults is the set of derived faults from the perspective of the {\fg}, and is thus at a higher level of
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fault~mode abstraction. We can now say that the {\fg} (as an entity in its own right) can fail in a number of well defined ways.
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With these Syptoms (a set of derived faults from the perspective of the {\fg})
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% and is thus at a higher level of
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%fault~mode abstraction.
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We can now say that the {\fg} (as an entity in its own right) can fail in a number of well defined ways.
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In other words we have taken a {\fg}, and analysed how it can fail according to the failure modes of its components.
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In other words we have taken a {\fg}, and analysed how
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it can fail according to the failure modes of its components.
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%These new failure~modes are derived failure modes.
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%The ways in which the module can fail now becomes a new set of fault modes, the fault~modes
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%being derived from the {\fg}.
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%being derived from the {\fg}.
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\paragraph{Creating a derived component.}
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We can now create a new `{\dc}' which has
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the failure symptoms of the {\fg} as its set of failure modes.
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This new {\dc} is at a higher `failure~mode~abstraction~level' than {\bcs}.
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%
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\paragraph{An example of a {\dc}.}
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To give an example of this, we could look at the components that
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form, say an amplifier. We look at how all the components within it
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could fail and how that would affect the amplifier.
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@ -538,6 +543,7 @@ The components brought together in a specific way make it an amplifier !
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%to represent the fault behaviour of the entire system. This can be seen as using the modules we have analysed
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%as parts, parts which may now be combined to create new functional groups,
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%but as parts at a higher level of fault abstraction.
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\paragraph{Building the Hierarchy.}
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Applying the same process with {\dcs} we can bring {\dcs}
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together to form functional groups and create new {\dcs}
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at even higher abstraction levels. Eventually we will have a hierarchy
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@ -580,7 +586,7 @@ of components.
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%We thus define $FG$ as a set of chosen components defining
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%a {\fg}; all functional groups
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We can state that
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$FG$ is a subset of the power set of all components, $ FG \in \mathcal{P} \mathcal{C}. $
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$FG$ is a member of the power set of all components, $ FG \in \mathcal{P} \mathcal{C}. $
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We can overload the $fm$ function for a functional group $FG$
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where it will return all the failure modes of the components in $FG$
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