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Auflistung nach Autor:in "Thielecke, Frank"

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  • Konferenzbeitrag
    A Seamless and End-to-End Approach for Early and Continuous Validation of Next-Generation Avionics Platforms
    (Software Engineering 2023 Workshops, 2023) Abdo, Kamiran; Broehan, Jasmin; Thielecke, Frank
    Emerging technologies, such as multi-core avionics, mixed-critical systems on shared resources and the adaption of artificial intelligence (AI) in the field of avionics, drive a growth of complexity, as well as a higher uncertainty during early design phases for avionic platforms. This results in an error-prone and time-consuming development process, as these technologies have not yet been fully evaluated for avionics. Consequently, it is important to continuously validate design choices to detect potential design flaws as early as possible. This shall avoid unnecessary iterations during the development process, reduce related costs and ultimately, time to market. This work proposes a seamless and model-based concept for early and continuous validation of next generation avionics platforms through all their phases – design, implementation, testing and ultimately, integration.
  • Konferenzbeitrag
    A Universal Configuration Format for Avionics
    (SE 2024 - Companion, 2024) Chrysalidis, Philipp; Thielecke, Frank
    Avionics module configuration, especially in the face of advancing technologies, will become more complex as computational demands rise. This requires a robust and automated approach while adhering to industry standards. However, state-of-the-art configuration is still highly error-prone and suffers from various stakeholders working with unsynchronized and decentralized data. This causes unnecessary iterations, leading to delays in development. The Universal Configuration Format for Avionics (UCoF), integrated into the AvioNET framework, presents a forward-looking solution. UCoF, built upon a meta-model approach, strives to enhance the configuration process through model-based methods. It meets essential configuration management requirements and offers versatility by supporting the configuration of diverse avionic platforms. Combining essential data for configuring real avionics device families, implementation targets and network design grants users access to a comprehensive data set throughout the configuration process.