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Optimization of the PNG Law for a Dual-Spin Mortar with Fixed Canards

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  • Pengfei Liu
  • Hongsong Cao
  • Shunshan Feng
  • Hengzhu Liu
  • Lifei Cao

Abstract

The limited instantaneous overload available and the curved trajectory lead to adaptivity problems for the proportional navigation guidance (PNG) of a guided mortar with a fixed-canard trajectory correction fuze. In this paper, the optimization of a PNG law with gravity compensation is established. Instead of using the traditional empirical method, the selection of the proportional navigation constants is formulated as an optimization problem, which is solved using an intelligent optimization algorithm. Two optimization schemes are proposed for constructing corresponding optimization models. In schemes 1 and 2, the sum squared error between the impact point and target and the circular error probability (CEP), respectively, are taken as the objective function. Monte Carlo simulations are conducted to verify the effectiveness of the two optimization schemes, and their guidance performance is compared through trajectory simulations. The simulation results show that the impact point dispersion can be efficiently reduced under both proposed schemes. Scheme 2 achieves a lower CEP, which is approximately 2.9 m and 2.4 times smaller than that achieved by scheme 1. Moreover, the mean impact point is closer to the target.

Suggested Citation

  • Pengfei Liu & Hongsong Cao & Shunshan Feng & Hengzhu Liu & Lifei Cao, 2021. "Optimization of the PNG Law for a Dual-Spin Mortar with Fixed Canards," Mathematical Problems in Engineering, Hindawi, vol. 2021, pages 1-13, November.
  • Handle: RePEc:hin:jnlmpe:1741260
    DOI: 10.1155/2021/1741260
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