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Performance of 3-D PPN Against Arbitrarily Maneuvering Target for Homing Phase

Kebo Li, Hyo‐Sang Shin, Antonios Tsourdos, Min-Jea Tahk

2020IEEE Transactions on Aerospace and Electronic Systems24 citationsDOIOpen Access PDF

Abstract

The performance analysis of the 3-D pure proportional navigation (PPN) guidance law was traditionally conducted by considering the cross-coupling effect of two independent 2-D PPN laws in the pitch and yaw planes. This could increase the complexity of the analysis and lead to conservative analysis results, especially when the target has maneuverability. To mitigate this issue, this article theoretically analyzes the performance of 3-D PPN directly on a rotating engagement plane using a Lyapunov-like approach. Considering practical issues, the analysis includes not only capturability, but also upper-bounds of heading error, line-of-sight rate, commanded acceleration, and closing speed. The analysis results obtained are also demonstrated by using numerical simulation examples. Compared to the previous studies providing the least conservative results, the analysis procedure is significantly simplified and the results are proven to be more practical and less conservative.

Topics & Concepts

Heading (navigation)Control theory (sociology)AccelerationComputer scienceEngineeringAerospace engineeringPhysicsArtificial intelligenceClassical mechanicsControl (management)Guidance and Control SystemsMilitary Defense Systems AnalysisRobotic Path Planning Algorithms
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