Sökning: "Embedded System"
Visar resultat 16 - 20 av 793 avhandlingar innehållade orden Embedded System.
16. A reactive approach to component-based design of resource-constrained embedded systems
Sammanfattning : Embedded systems have become commonplace in today's society and the number of functions and their complexity are steadily increasing. This can be attributed to the advances in the microprocessor technology and the continuous development of more powerful and power-efficient microprocessors, which, in turn, allows more elaborate software implementations. LÄS MER
17. Managing the Complexity in Embedded and Cyber-Physical System Design : System Modeling and Design-Space Exploration
Sammanfattning : To cope with the increasing complexity of embedded and cyber-physical system design, different system-level design approaches are proposed which start from abstract models and implement them using design flows with high degrees of automation. However, creating models of such systems and also formulating the mathematical problems arising in these design flows are themselves challenging tasks. LÄS MER
18. Ontology-based Analysis and Scalable Model Checking of Embedded Systems Models
Sammanfattning : Currently, there is lack of effective and scalable methods to specify and ana-lyze requirements specifications, and verify the behavioral models of embed-ded systems. Most embedded systems requirements are expressed in naturallanguage which is flexible and intuitive but frequently ambiguous, vague andincomprehensive. LÄS MER
19. Task Allocation Optimization for Multicore Embedded Systems
Sammanfattning : Modern embedded systems are becoming increasingly performance intensive, since, on the one hand, they include more complex functionality than before, and one the other hand, the functionality that was typically realized with hardware is often moved to software. Multicore technology, previously successfully used for general-purpose systems, is penetrating into the domain of embedded systems. LÄS MER
20. Functional Programming for Embedded Systems
Sammanfattning : Embedded Systems application development has traditionally been carried out in low-level machine-oriented programming languages like C or Assembler that can result in unsafe, error-prone and difficult-to-maintain code. Functional programming with features such as higher-order functions, algebraic data types, polymorphism, strong static typing and automatic memory management appears to be an ideal candidate to address the issues with low-level languages plaguing embedded systems. LÄS MER