IEEE Access (Jan 2019)

Dynamic Response Analysis for a Terminal Guided Projectile With a Trajectory Correction Fuze

  • Rupeng Li,
  • Dongguang Li,
  • Jieru Fan

DOI
https://doi.org/10.1109/ACCESS.2019.2928718
Journal volume & issue
Vol. 7
pp. 94994 – 95007

Abstract

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Successful terminal correction without an attitude feedback loop is a challenging task. Much innovative effort is required to achieve a balance between performance and affordability. This paper presents a unique trajectory correction fuze with a reduced number of sensors and actuators. A rapidly calculable analytical dynamic response model for the terminal control force is derived, in which the oscillation part is emphasized because of the limited time-to-go. The accuracy and effectiveness of the analytical model are verified by comparison with 6DOF nonlinear simulations. The influences of the velocity, rotation rate, and pitch on the dynamic response during terminal correction are subsequently investigated using the analytical model. To enable a deep investigation of stability under terminal control with a trajectory correction fuze, the Routh stability criterion is considered to define the necessary prerequisites for stable flight. The validity of the derived instability boundaries is demonstrated through numerical simulations.

Keywords