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. These contributions will support the deployment of airborne antenna solutions in autonomous vehicles, aerial systems, and wider critical infrastructure, bridging the gap between theoretical advances and real-world
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and emerging applications, such as multi-domain autonomy and aerial mobility. With rising risks to PNT systems from interference, spoofing, and cyber-physical attacks, unified, security-aware integrity
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infrastructure. However, the increasing application requirements and rising threats from intentional interferences, spoofing, and cyber-physical attacks expose vulnerabilities in conventional GNSS-centric systems
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these sectors, design customized technological solutions using advanced sensing and analytics, and validate these innovations through real-world implementation. The project will bridge the gap between theoretical
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publications on multi-modal fusion techniques and the novel application of XAI in SOC environments. A significant theoretical contribution will be a seminal paper modeling the quantum threat to digital media
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of representative failure models for gear failures causes difficulties in their useful lifetime prediction. Critical operational parameters such as loading, speed and lubrication affect the physics of gear meshing