Yang Wang scite author profile

Yang Wang

2Publications

9Citation Statements Received

141Citation Statements Given

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141

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Northwestern Polytechnical University

Publications

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Impact-Time-Control Guidance Law for Missile with Time-Varying Velocity

Zhou

Wang

Zhao

2016

Mathematical Problems in Engineering

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The problem of impact-time-control guidance (ITCG) for the homing missile with time-varying velocity is addressed. First, a novel ITCG law is proposed based on the integral sliding mode control (ISMC) method. Then, a salvo attack algorithm is designed based on the proposed guidance law. The performances of the conventional ITCG laws strongly depend on the accuracy of the estimated time-to-go (TTG). However, the accurate estimated TTG can be obtained only if the missile velocity is constant. The conventional ITCG laws were designed under the assumption that the missile velocity is constant. The most attractive feature of this work is that the newly proposed ITCG law relaxes the constant velocity assumption, which only needs the variation range of the missile velocity. Finally, the numerical simulation demonstrates the effectiveness of the proposed method.

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Strictly Finite‐Time‐Convergent Missile Guidance Law Based on Adaptive‐Gain Observer

Zhou

Wang

2017

Mathematical Problems in Engineering

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In the absence of the upper bound of time-varying target acceleration, the finite-time-convergent guidance (FTCG) problem for missile is addressed in this paper. Firstly, a novel adaptive finite-time disturbance observer (AFDO) is developed based on adaptive-gain super twisting (ASTW) algorithm to estimate the unknown target acceleration. Subsequently, a new FTCG law is proposed by using the output of AFDO. The newly proposed FTCG law has several advantages over existing FTCG laws. First, for time-varying target acceleration, the proposed method can strictly guarantee the trajectory of the closed-loop system is driven onto the sliding surface rather than a neighbourhood of sliding surface in the extended-state-observer-based FTCG (ESOFTCG) law. Second, the proposed method requires no upper bound information on the target acceleration. Third, the chattering problem in the conventional FTCG (CFTCG) law is completely avoided in this paper. Simulation result demonstrates the effectiveness of the proposed AFDO and the proposed FTCG law.

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Yang Wang

Impact-Time-Control Guidance Law for Missile with Time-Varying Velocity

Strictly Finite‐Time‐Convergent Missile Guidance Law Based on Adaptive‐Gain Observer

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