Multiconstraint adaptive three-dimensional guidance law using convex optimization

Fu, Shengnan; Liu, Xiaodong; Zhang, Wenjie; Xia, Qing

doi:10.23919/jsee.2020.000054

Cited by 8 publications

(2 citation statements)

References 6 publications

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“…For a fin-stabilized projectile with a low spin rate, the mutual coupling effects between the pitching and yawing motions are relatively weak and can be ignored [2,13,16]. Accordingly, the three-dimensional PNG problem can be decoupled into two two-dimensional problems in the vertical and horizontal planes of the velocity vector without loss of convergence [2,6,[17][18][19][20].…”

Section: Optimization Of the Png Lawmentioning

confidence: 99%

Optimization of the PNG Law for a Dual-Spin Mortar with Fixed Canards

Liu

Cao

Feng

et al. 2021

Mathematical Problems in Engineering

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The limited instantaneous overload available and the curved trajectory lead to adaptivity problems for the proportional navigation guidance (PNG) of a guided mortar with a fixed-canard trajectory correction fuze. In this paper, the optimization of a PNG law with gravity compensation is established. Instead of using the traditional empirical method, the selection of the proportional navigation constants is formulated as an optimization problem, which is solved using an intelligent optimization algorithm. Two optimization schemes are proposed for constructing corresponding optimization models. In schemes 1 and 2, the sum squared error between the impact point and target and the circular error probability (CEP), respectively, are taken as the objective function. Monte Carlo simulations are conducted to verify the effectiveness of the two optimization schemes, and their guidance performance is compared through trajectory simulations. The simulation results show that the impact point dispersion can be efficiently reduced under both proposed schemes. Scheme 2 achieves a lower CEP, which is approximately 2.9 m and 2.4 times smaller than that achieved by scheme 1. Moreover, the mean impact point is closer to the target.

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Section: Optimization Of the Png Lawmentioning

confidence: 99%

Optimization of the PNG Law for a Dual-Spin Mortar with Fixed Canards

Liu

Cao

Feng

et al. 2021

Mathematical Problems in Engineering

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show abstract

“…On the basis of H-infinite theory, reference [7,8] proposed robust guidance laws by regarding unpredictable target maneuvers as bounded unknowns. Reference [9] disposed of the constraints and the performance index by using the convex optimization method to obtain guidance gains. Utilizing model predictive control, reference [10] designed a suboptimal terminal angle constrained guidance law.…”

Section: Introductionmentioning

confidence: 99%

Multivariable Adaptive Super-Twisting Guidance Law Based on Barrier Function

Liu

et al. 2021

Applied Sciences

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For tactical missiles, sliding mode control and super-twisting algorithms have been widely studied in the area of guidance law design. However, these methods require the information of the target accelerations and the target acceleration derivatives, which is always unknown in practice. In addition, guidance laws utilizing these tools always have chattering phenomena and large acceleration commands. To solve these problems, this article introduces a barrier function based super twisting controller and expands the controller to a multivariable adaptive form. Consequently, a multivariable adaptive super-twisting guidance law based on barrier function is proposed. Moreover, the stability of the guidance law is analyzed, and the effectiveness and the robustness are demonstrated by three simulation examples. Compared with previous guidance laws using sliding mode control or super-twisting algorithm, the one proposed in this paper does not require the information of target accelerations, nor target acceleration derivatives; it has smaller super-twisting gains so that has smaller acceleration commands; it can increase and decrease the gains to follow the target accelerations and maintain the sliding mode, and it does not chatter.

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Construction and visualization of a three-dimensional model of an engineering geological body

Cheng

2021

Arab J Geosci

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Multiconstraint adaptive three-dimensional guidance law using convex optimization

Cited by 8 publications

References 6 publications

Optimization of the PNG Law for a Dual-Spin Mortar with Fixed Canards

Optimization of the PNG Law for a Dual-Spin Mortar with Fixed Canards

Multivariable Adaptive Super-Twisting Guidance Law Based on Barrier Function

Construction and visualization of a three-dimensional model of an engineering geological body

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