Sökning: "Luis Almeida"
Visar resultat 6 - 10 av 10 avhandlingar innehållade orden Luis Almeida.
6. Dependable Distributed Control System : Redundancy and Concurrency defects
Sammanfattning : Intelligent devices, interconnectivity, and information exchange are characteristics often associated with Industry 4.0. A peer-to-peer-oriented architecture with the network as the system center succeeds the traditional controller-centric topology used in today's distributed control systems, improving information exchange in future designs. LÄS MER
7. Share-Driven Scheduling of Embedded Networks
Sammanfattning : Many products are built from more or less independently developed subsystems. For instance, a car consists of subsystems for transmission, braking, suspension, etc. These subsystems are frequently controlled by an embedded computer system. LÄS MER
8. Autonomous Runtime System of Systems Interoperability
Sammanfattning : The current technological environment is evolving increasingly fast, and the development of new devices, technologies, and architectures has opened an emergent paradigm where the digital and physical world work together, leading to a new digitalizacion era.For the industry, the shift of paradigm represents the start of the fourth industrial revolution, also called Industry 4. LÄS MER
9. Analysis and Optimisation of Distributed Embedded Systems with Heterogeneous Scheduling Policies
Sammanfattning : The growing amount and diversity of functions to be implemented by the current and future embedded applications (like, for example, in automotive electronics) have shown that, in many cases, time-triggered and event-triggered functions have to coexist on the computing nodes and to interact over the communication infrastructure. When time-triggered and event-triggered activities have to share the same processing node, a natural way for the execution support can be provided through a hierarchical scheduler. LÄS MER
10. Synthesis of Safety-Critical Real-Time Systems
Sammanfattning : Modern safety-critical real-time systems are becoming more and more complex, due to sophisticated applications such as advanced driving assistance, automated driving, advanced infotainment, and applications involving machine learning and deep learning. This has led to increased requirements for the communication infrastructures. LÄS MER