Design methodology for optimal sensor placement for cure monitoring and load detection of sensor-integrated, gentelligent composite parts

Design methodology for optimal sensor placement for cure monitoring and load detection of sensor-integrated, gentelligent composite parts

Selecting right positions for composite-integrated sensors for monitoring cure during manufacturing and loads during product use presents challenges for engineering design. Since an optimal sensor placement (OSP) methodology for both phases is not emphasised enough in literature, a new methodology i...

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Hauptverfasser: Meyer zu Westerhausen, Sören, Kyriazis, Alexander, Hühne, Christian, Lachmayer, Roland
Format: Tagungsbericht
Sprache:eng
Schlagworte:
Aircraft
Composite materials
Design techniques
Energy consumption
Genetic algorithms
Load
Manufacturing
Methods
Neural networks
Optimization algorithms
Product development
Sensors
Strain gauges
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Beschreibung
Zusammenfassung:Selecting right positions for composite-integrated sensors for monitoring cure during manufacturing and loads during product use presents challenges for engineering design. Since an optimal sensor placement (OSP) methodology for both phases is not emphasised enough in literature, a new methodology is proposed. This methodology is based on a Genetic Algorithm and strain gauges, temperature sensors and interdigitated electrode sensors for cure monitoring and physics-informed neural network-based load detection. Additionally, it includes sensor node positions optimization in a sensor network.
ISSN:2732-527X
2732-527X
DOI:10.1017/pds.2024.70