Sökning: "automotive software"
Visar resultat 1 - 5 av 101 avhandlingar innehållade orden automotive software.
1. Engineering software for mass-produced embedded systems - Ways-of-working, architecture and ecosystems for innovation
Sammanfattning : Software is prevalent in many products manufactured today; cars, washing machines, mobile phones, airplanes and satellites, and is often critical for the success of the product. These products are typically developed in large, and sometimes very complex, industrial projects where the manufacturing and delivery of the product is a heavier investment than the software budget. LÄS MER
Sammanfattning : Over the last decades software has been the driving force for change in many domains, causing increased global competition. To stay competitive, organizations need to produce more complex products, incorporating more and more functionality, while minimizing the cost for development and production. LÄS MER
3. Qualitative and Quantitative Assessment of Integration Testing for Model-Based Software in the Automotive IndustryDetta är en avhandling från ; Göteborgs universitet; Gothenburg
Sammanfattning : Background: Integration testing of vehicle software in the automotive industry relies heavily on simulation models. As they replicate actual vehicle functions in the testing process, they increase in size and amount of interconnectivity as rapidly as the actual functions. Valid simulation models are a precondition for valid integration testing. LÄS MER
- Detta är en avhandling från ; Göteborgs universitet; Gothenburg
Sammanfattning : Modern cars contain more and more innovative user functions, some of which can only be implemented in software and electronics. Electronics and software allows the vehicle system to be flexible, and at the same time creates additional complexity. LÄS MER
- Detta är en avhandling från ; Chalmers tekniska högskola; Gothenburg
Sammanfattning : Context:The automotive industry is faced with rapid increases in size and complexity of their software engineering efforts, which makes successful Requirements Engineering essential. Model-Based Engineering has been suggested as a method to handle increasing complexity on a higher level of abstraction. LÄS MER