A new paradigm for star grain design and optimization
Author:
Publisher
Emerald
Reference12 articles.
1. Ballistic Optimization of the Star Grain Configuration
2. A distribution-free approach to inducing rank correlation among input variables
3. Hybrid Particle Swarm: Pattern Search Optimizer for Rocket Propulsion Applications
4. Latin Hypercube Sampling of Gaussian Random Fields
5. Multidisciplinary design of air launched satellite launch vehicle: Performance comparison of heuristic optimization methods
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