Agent-Based Dynamically Reconfigurable Missile Modelling

Year 2018, Volume: 22 Issue: 5, 1466 - 1476, 01.10.2018

Mehmet Fatih Hocaoğlu , İlyas Kandemir

https://doi.org/10.16984/saufenbilder.402647

Cited By: 1

Abstract

In this study, an air platform dynamic model that has
the ability to maneuver in all axes (displacement and rotation) and to follow
another aircraft is modeled. Rigid aircraft mathematical models is adopted for
the model aircraft and the calculations are done in a generic way except for
aeroelasticity effects. In consideration of the geodesic structure of the
earth, the gravity model is also designed accordingly and the atmospheric
conditions at a given altitude are included in the calculations. The created
air platforms are dynamically changed in degrees of freedom in accordance with
the analysis purposes, under the defined scenario conditions. For missile
models, the definition of the configuration including phase definitions, engine
selections and customization of engine properties, seeker activation schedule
and fuse type are user-defined supported by an interface. Phase transition
controls, motor controls, sensor opening and closing decisions are rule-based
and reasoning-based. To be able to enhance modeling flexibility and inject a
reasoning capability, the models are designed as intelligent agents and they
are modeled in Agent driven simulation framework (AdSiF).

Keywords

AdSiF, Agent based simulation, Air Defense, Aircraft Modeling, Missile Modeling, Six Axis Motion

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