A normalizing flows-based virtual target method for many-vs-many missile guidance yields 0-4.1% gains when interceptor count equals targets and 5.8-14.4% gains when interceptors outnumber targets in Monte Carlo simulations.
thesis, Cranfield University, 2012
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Many-vs-Many Missile Guidance via Virtual Targets
A normalizing flows-based virtual target method for many-vs-many missile guidance yields 0-4.1% gains when interceptor count equals targets and 5.8-14.4% gains when interceptors outnumber targets in Monte Carlo simulations.