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POLYNOMIAL FUNCTION BASED GUIDANCE FOR IMPACT ANGLE AND TIME CONTROL

  • KIM, TAE-HUN (DEPARTMENT OF GUIDANCE AND CONTROL, AGENCY FOR DEFENSE DEVELOPMENT)
  • Received : 2015.08.06
  • Accepted : 2015.08.19
  • Published : 2015.09.25

Abstract

In this paper, missile homing guidance laws to control the impact angle and time are proposed based on the polynomial function. To derive the guidance commands, we first assume that the acceleration command profile can be represented as a polynomial function with unknown coefficients. After that, the unknown coefficients are determined to achieve the given terminal constrains. Using the determined coefficients, we can finally obtain the state feedback guidance command. The suggested approach to design the guidance laws is simple and provides the more generalized optimal solutions of the impact angle and time control guidance.

Keywords

References

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