Aircraft design cycle time reduction using artificial intelligence
Author:
Publisher
Elsevier BV
Subject
Aerospace Engineering
Reference59 articles.
1. Aircraft design optimization;Alonso;Mathematics and Computers in Simulation,2009
2. Aircraft Performance and Design;Anderson,1999
3. Parametric design of aircraft geometry using partial differential equations;Athanasopoulos;Advances in Engineering Software,2009
4. Comprehensive aircraft configuration design tool for integrated product and process development;Azamatov;Advances in Engineering Software,2011
5. Classical and fuzzy-genetic autopilot design for unmanned aerial vehicles;Babaeia;Applied Soft Computing,2011
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