Specifying and Maintaining the Correspondence between Architecture Models and Runtime Observations: Unterschied zwischen den Versionen
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|betreuer=Robert Heinrich | |betreuer=Robert Heinrich | ||
|termin=Institutsseminar/2017-09-15 | |termin=Institutsseminar/2017-09-15 | ||
|kurzfassung=The goal of this thesis is to provide a generic concept of a correspondence model (CM) to map high-level model elements | |kurzfassung=The goal of this thesis is to provide a generic concept of a correspondence model (CM) to map high-level model elements to corresponding low-level model elements and to generate this mapping during implementation of the high-level model using a correspondence model generator (CGM). In order to evaluate our approach, we implement and integrate the CM for the iObserve project. Further | ||
to corresponding low-level model elements and to generate this mapping during implementation of the high-level model using | |||
a correspondence model generator (CGM). | |||
In order to evaluate our approach, we implement and integrate the CM for the iObserve project. Further | |||
we implement the proposed CMG and integrate it into ProtoCom, the source code generator | we implement the proposed CMG and integrate it into ProtoCom, the source code generator | ||
used by the iObserve project. We first evaluate the feasibility of this approach by checking whether such a | used by the iObserve project. We first evaluate the feasibility of this approach by checking whether such a |
Version vom 11. September 2017, 12:35 Uhr
Vortragende(r) | Alessandro Giusa | |
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Vortragstyp | Bachelorarbeit | |
Betreuer(in) | Robert Heinrich | |
Termin | Fr 15. September 2017 | |
Vortragsmodus | ||
Kurzfassung | The goal of this thesis is to provide a generic concept of a correspondence model (CM) to map high-level model elements to corresponding low-level model elements and to generate this mapping during implementation of the high-level model using a correspondence model generator (CGM). In order to evaluate our approach, we implement and integrate the CM for the iObserve project. Further
we implement the proposed CMG and integrate it into ProtoCom, the source code generator used by the iObserve project. We first evaluate the feasibility of this approach by checking whether such a correspondence model can be specified as desired and generated by the CGM. Secondly, we evaluate the accuracy of the approach by checking the generated correspondences against a reference model. |