Bounded-Input True Proportional Navigation for Impact-Time Control
Lohitvel Gopikannan, Shashi Ranjan Kumar, Abhinav Sinha
TLDR
This paper introduces a true proportional navigation guidance strategy for impact-time control that strictly adheres to control input bounds.
Key contributions
- Proposes a nonlinear guidance strategy for intercepting constant-velocity targets.
- Uses true proportional navigation (TPNG) with exact time-to-go, applicable to wide target motions.
- Explicitly incorporates control input bounds by modeling interceptor acceleration dynamically.
- Employs sliding mode control for time-constrained interception with bounded input.
Why it matters
This research addresses a critical gap in guidance systems by ensuring control input limits are strictly met, improving real-world applicability. It offers a robust solution for precise impact-time control in various scenarios.
Original Abstract
This paper proposes a nonlinear guidance strategy capable of intercepting a constant-velocity, non-maneuvering target while strictly satisfying the prescribed bounds on the control input (commanded acceleration). Unlike conventional strategies that estimate time-to-go using linearization or small-angle approximations, the proposed strategy employs true proportional-navigation guidance (TPNG) as a baseline, which utilizes an exact time-to-go formulation and is applicable over a wide range of target motions. In contrast to most existing strategies, which do not incorporate control input bounds into the guidance design, the proposed approach explicitly accounts for these limits by modeling the interceptor acceleration as a dynamic variable. Based on the sliding mode control technique, an effective guidance law that achieves time-constrained interception while accounting for bounded input is then derived. The performance of the proposed strategy is evaluated for various engagement scenarios.
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