4 research outputs found
Towards the ontology-based consolidation of production-centric standards
This is an Author's Accepted Manuscript of an article published in the International Journal of Production Research [© Taylor & Francis], available online at: http://www.tandfonline.com/doi/abs/10.1080/00207543.2011.627885.Production-centric
international
standards
are
intended
to
serve
as
an
important
route
towards
information
sharing
across
manufacturing
decision
support
systems.
As
a
consequence
of
textual-based
definitions
of
concepts
acknowledged
within
these
standards,
their
inability
to
fully
interoperate
becomes
an
issue
especially
since
a
multitude
of
standards
are
required
to
cover
the
needs
of
extensive
domains
such
as
manufacturing
industries.
To
help
reinforce
the
current
understanding
to
support
the
consolidation
of
production-centric
standards
for
improved
information
sharing,
this
article
explores
the
specification
of
well-defined
core
concepts
which
can
be
used
as
a
basis
for
capturing
tailored
semantic
definitions.
The
potentials
of
two
heavyweight
ontological
approaches,
notably
Common
Logic
(CL)
and
the
Web
Ontology
Language
(OWL)
as
candidates
for
the
task,
are
also
exposed.
An
important
finding
regarding
these
two
methods
is
that
while
an
OWL-based
approach
shows
capabilities
towards
applications
which
may
require
flexible
hierarchies
of
concepts,
a
CL-based
method
represents
a
favoured
contender
for
scoped
and
facts-driven
manufacturing
applications
Manufacturing knowledge sharing in PLM: a progression towards the use of heavy weight ontologies
Extending product lifecycle management for manufacturing knowledge sharing
This article was published in the Proceedings of the Institution of Mechanical Engineers Part B - Journal of Enginering Manufacture [© Sage] and the definitive version is available at: http://dx.doi.org/10.1177/0954405412461741Product lifecycle management provides a framework for information sharing that promotes various types of decisionmaking
procedures. For product lifecycle management to advance towards knowledge-driven decision support, then this
demands more than simply exchanging information. There is, therefore, a need to formally capture best practice
through-life engineering knowledge that can be fed back across the product lifecycle. This article investigates the interoperable
manufacturing knowledge systems concept. Interoperable manufacturing knowledge systems use an expressive
ontological approach that drives the improved configuration of product lifecycle management systems for manufacturing
knowledge sharing. An ontology of relevant core product lifecycle concepts is identified from which viewpoint-specific
domains, such as design and manufacture, can be formalised. Essential ontology-based mechanisms are accommodated
to support the verification and sharing of manufacturing knowledge across domains. The work has been experimentally
assessed using an aerospace compressor disc design and manufacture example. While it has been demonstrated that the
approach supports the representation of disparate design and manufacture perspectives as well as manufacturing knowledge
feedback in a timely manner, areas for improvement have also been identified for future work