1 research outputs found
MATrA: meta-modelling approach to traceability for avionics
PhD ThesisTraceability is the common term for mechanisms to record and navigate relationships between artifacts
produced by development and assessment processes. Effective management of these relationships is
critical to the success of projects involving the development of complex aerospace products.
Practitioners use a range of notations to model aerospace products (often as part of a defined technique
or methodology). Those appropriate to electrical and electronic systems (avionics) include Use Cases
for requirements, Ada for development and Fault Trees for assessment (others such as PERT networks
support product management). Most notations used within the industry have tool support, although a
lack of well-defined approaches to integration leads to inconsistencies and limits traceability between
their respective data sets (internal models).
Conceptually, the artifacts produced using such notations populate four traceability dimensions. Of
these, three record links between project artifacts (describing the same product), while the fourth relates
artifacts across different projects (and hence products), and across product families within the same
project.
The scope of this thesis is to define a meta-framework that characterises traceability dimensions for
aerospace projects, and then to propose a concrete framework capturing the syntax and semantics of
notations used in developing avionics for such projects which enables traceability across the four
dimensions. The concrete framework is achieved by exporting information from the internal models of
tools supporting these notations to an integrated environment consisting of. i) a Workspace comprising
a set of structures or meta-models (models describing models) expressed in a common modelling
language representing selected notations (including appropriate extensions reflecting the application
domain); ii) well-formedness constraints over these structures capturing properties of the notations (and
again, reflecting the domain); and iii) associations between the structures. To maintain consistency and
identify conflicts, elements of the structures are verified against a system model that defines common
building blocks underlying the various notations.
The approach is evaluated by (partial) tool implementation of the structures which are populated using
case study material derived from actual commercial specifications and industry standards