Sensitivity analysis for knowledge discovery in scramjet intake design optimization using deep-learning flowfield prediction
Author:
Funder
Japan Science and Technology Agency
Japan Society for the Promotion of Science
Publisher
Elsevier BV
Reference44 articles.
1. Design of an airbreathing second stage for a rocket-scramjet-rocket launch vehicle;Jazra;J. Spacecr. Rockets,2013
2. Orbital delivery of small payloads using hypersonic airbreathing propulsion;Smart;J. Spacecr. Rockets,2009
3. Trajectory optimization of a partially reusable rocket-scramjet-rocket launch system including fly-back;Forbes-Spyratos;J. Spacecr. Rockets,2023
4. Investigation on the performance and feasibility of RBCC-based access-to-space via multi-objective design optimization;Klink;Acta Astronaut.,2019
5. Flight data analysis of the HyShot 2 scramjet flight experiment;Smart;AIAA J.,2006
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1. Optimization and data mining for shock-induced mixing enhancement inside scramjet using stochastic deep-learning flowfield prediction;Aerospace Science and Technology;2024-11
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