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Trajectory Optimization for a Cruising Unmanned Aerial Vehicle Attacking a Target at Back Slope While Subjected to a Wind Gradient

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  • Tieying Jiang
  • Jie Li
  • Bing Li
  • Kewei Huang
  • Chengwei Yang
  • Yimeng Jiang

Abstract

The trajectory of a tubular launched cruising unmanned aerial vehicle is optimized using the modified direct collocation method for attacking a target at back slope under a wind gradient. A mathematical model of the cruising unmanned aerial vehicle is established based on its operational and motion features under a wind gradient to optimize the trajectory. The motion characteristics of “altitude adjustment” and “suicide attack” are taken into full account under the combat circumstance of back slope time key targets. By introducing a discrete time function, the trajectory optimization is converted into a nonlinear programming problem and the SNPOT software is applied to solve for the optimal trajectory of the missile under different wind loads. The simulation results show that, for optimized trajectories, the average attack time decreased by up to 29.1% and the energy consumption is reduced by up to 25.9% under specified wind gradient conditions. , , and have an influence on the flight trajectories of cruising unmanned aerial vehicle. This verifies that the application of modified direct collocation method is reasonable and feasible in an effort to achieve more efficient missile trajectories.

Suggested Citation

  • Tieying Jiang & Jie Li & Bing Li & Kewei Huang & Chengwei Yang & Yimeng Jiang, 2015. "Trajectory Optimization for a Cruising Unmanned Aerial Vehicle Attacking a Target at Back Slope While Subjected to a Wind Gradient," Mathematical Problems in Engineering, Hindawi, vol. 2015, pages 1-14, July.
    • Handle: RePEc:hin:jnlmpe:635395
    DOI: 10.1155/2015/635395
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