A Two-Tier Genetic Algorithm for Real-Time Virtual–Physical Fusion in Unmanned Carrier Aircraft Scheduling

To address the key challenges of poor real-time interaction, insufficient integration of operating rules, and limited virtual–physical synergy in current carrier-based aircraft scheduling simulations, this study proposes an immersive digital twin platform that integrates a two-layer genetic algorith...

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Vydáno v:	Journal of marine science and engineering Ročník 13; číslo 5; s. 856
Hlavní autoři:	Yin, Jian, Sun, Bo, Fan, Yunsheng, Shen, Liran, Shi, Zhan
Médium:	Journal Article
Jazyk:	angličtina
Vydáno:	Basel MDPI AG 01.05.2025
Témata:	Aircraft Aircraft carriers Algorithms Analysis Aviation carrier aircraft job scheduling Collaboration combination of virtuality and reality Computer applications Constraints Costs Current carriers Data exchange Decision making Defence craft Design Digital twins Evolution Feedback Flight decks Genetic algorithms Kinematics Naval aviation Physical simulation R&D Real time real-time presentation Research & development scene generation Scheduling Simulation Simulation methods simulation platform Taxiing Three dimensional models Training Unmanned aircraft Virtual reality Visualization China
ISSN:	2077-1312, 2077-1312
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Popis
Shrnutí:	To address the key challenges of poor real-time interaction, insufficient integration of operating rules, and limited virtual–physical synergy in current carrier-based aircraft scheduling simulations, this study proposes an immersive digital twin platform that integrates a two-layer genetic algorithm (GA) with hardware-in-the-loop (HIL) semi-physical validation. The platform architecture combines high-fidelity 3D visualization-based modeling (of aircraft, carrier deck, and auxiliary equipment) with real-time data exchange via TCP/IP, establishing a collaborative virtual–physical simulation environment. Three key innovations are presented: (1) a two-tier genetic algorithm (GA)-based scheduling model is proposed to coordinate global planning and dynamic execution optimization for carrier-based aircraft operations; (2) a systematic constraint integration framework incorporating aircraft taxiing dynamics, deck spatial constraints, and safety clearance requirements into the scheduling system, significantly enhancing tactical feasibility compared to conventional approaches that oversimplify multidimensional operational rules; (3) an integrated virtual–physical simulation architecture merging virtual reality interaction with HIL verification, establishing a collaborative digital twin–physical device platform for immersive visualization of full-process operations and dynamic spatiotemporal evolution characterization. Experimental results indicate that this work bridges the gap between theoretical scheduling algorithms and practical naval aviation requirements, offering a standardized testing platform for intelligent carrier-based aircraft operations.
Bibliografie:	ObjectType-Article-1 SourceType-Scholarly Journals-1 ObjectType-Feature-2 content type line 14
ISSN:	2077-1312 2077-1312
DOI:	10.3390/jmse13050856