2024
DOI: 10.3390/aerospace11030189
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Comparison of Two Aerodynamic Models for Projectile Trajectory Simulation

Nezar Sahbon,
Michał Welcer

Abstract: The accuracy of aerodynamically controlled guided projectile simulations is largely determined by the aerodynamic model employed in flight simulations which impacts vehicle interaction with the surrounding air. In this work, the performance of projectile path following with two distinct aerodynamic models is examined for their possible influence on trajectory following accuracy. The study incorporates the path following guidance algorithm, which enables the object to navigate along a predefined path. The simul… Show more

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Cited by 3 publications
(2 citation statements)
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“…Defining the , V ω and F vectors through the components on the axes of the mobile system connected to the body of the aerospace vehicle, the vector equation of motion of the centre of mass of the aerospace vehicle will be [23] Mathematical solution for Scenario 1 Trajectory calculation can be a difficult task, depending on the level of knowledge of the firing context and the level of detail implemented in the mathematical model of the trajectory. As in any modelling process of a physical phenomenon, in the case of trajectories, there will also be a compromise between the complexity of the model and the ease of obtaining results, as well as in terms of the agreement of numerical results with experimental ones.…”
Section: Methodsmentioning
confidence: 99%
See 1 more Smart Citation
“…Defining the , V ω and F vectors through the components on the axes of the mobile system connected to the body of the aerospace vehicle, the vector equation of motion of the centre of mass of the aerospace vehicle will be [23] Mathematical solution for Scenario 1 Trajectory calculation can be a difficult task, depending on the level of knowledge of the firing context and the level of detail implemented in the mathematical model of the trajectory. As in any modelling process of a physical phenomenon, in the case of trajectories, there will also be a compromise between the complexity of the model and the ease of obtaining results, as well as in terms of the agreement of numerical results with experimental ones.…”
Section: Methodsmentioning
confidence: 99%
“…Defining the V, ω and F vectors through the components on the axes of the mobile system connected to the body of the aerospace vehicle, the vector equation of motion of the centre of mass of the aerospace vehicle will be [23]…”
Section: Methodsmentioning
confidence: 99%