The Importance of a System-Level Approach When Bringing in New Technologies in Avionics

The Importance of a System-Level Approach When Bringing in New Technologies in Avionics

In the era of multiple industry trends and new technologies, avionics systems can benefit from several innovations. The complexity of modern electronics is increasing quickly and is being introduced as never before in new applications. At the algorithm level, the use of deep neural networks helps to...

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Bibliographic Details
Published in:IEEE/AIAA Digital Avionics Systems Conference pp. 1 - 11
Main Authors: Forsberg, Hakan, Forsberg, Kristina, Linden, Joakim
Format: Conference Proceeding
Language:English
Published: IEEE 29-09-2024
Subjects:
Aerospace electronics
Artificial neural networks
Complexity theory
Fault tolerance
Fault tolerant systems
machine learning
Meteorology
new technology
Object recognition
Safety
safety assessment
Sensor systems and applications
system safety
Technological innovation
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Summary:In the era of multiple industry trends and new technologies, avionics systems can benefit from several innovations. The complexity of modern electronics is increasing quickly and is being introduced as never before in new applications. At the algorithm level, the use of deep neural networks helps to solve problems that were never believed to be doable before. At the architecture level, hardware artificial intelligence accelerators, embedded graphical processing units, embedded sensors, etc., make it possible to create very powerful new functions. The list of new technologies is long. Besides technical challenges, system integrity and availability must be assured when integrating these new technologies into avionics functions. In this paper, we present emerging technologies and why a system-level approach is necessary when implementing these technologies. We also introduce supporting means for design assurance and fault-tolerance techniques. We illustrate the importance of a system-level approach through an example. Our example shows that when developing functions with new technologies and fault-tolerant architectures, the system safety assessment process is crucial for properly implementing a fail-safe design. It is also challenging due to potentially new failure modes.
ISSN:2155-7209
DOI:10.1109/DASC62030.2024.10749347