Sökning: "model driven architecture"
Visar resultat 6 - 10 av 56 avhandlingar innehållade orden model driven architecture.
6. Supporting model evolution in model-driven development of automotive embedded system
Sammanfattning : Innovative functions in cars, such as active safety systems and advanced driver assistance systems, are realized as embedded systems. The development of such automotive embedded systems is challenging in several respects: the product typically has several crosscutting system properties, experts of diverse disciplines need to cooperate and appropriate processes and tools are required to improve the effciency and the complexity management of development. LÄS MER
7. Systematic Data-Driven Continual Self-Learning
Sammanfattning : There is a lot of unexploited potential in using data-driven and self-learning methods to dramatically improve automatic decision-making and control in complex industrial systems. So far, and on a relatively small scale, these methods have demonstrated some potential to achieve performance gains for the automated tuning of complex distributed systems. LÄS MER
8. Effective Engineering of Multi-Robot Software Applications
Sammanfattning : Context: Service robots support humans by performing useful, repetitive or dangerous tasks. The development of service robots comes with severe software engineering challenges, since they require high levels of robustness and autonomy to operate and interact with highly heterogeneous, unconstrained, and partially known environments, often populated by humans. LÄS MER
9. Service Robotics Software Engineering
Sammanfattning : Context. Robots are increasingly becoming involved in our lives and currently, teams of service robots cooperate to support humans by performing useful, repetitive, or dangerous tasks. LÄS MER
10. Raising Abstraction of Timing Analysis through Model-Driven Engineering
Sammanfattning : The complexity of software running on vehicular embedded systems is constantlyincreasing and this negatively affects its development costs and time tomarket. One way to deal with these issues is to boost abstraction in the formof models to (i) ease the reasoning about the system architecture, (ii) automatecertain stages of the development, (iii) early detect flaws in the system architecturethrough fundamental analysis and (iv) take appropriate countermeasuresbefore the system is implemented. LÄS MER