具有轴向加速度自调谐的高精度飞机制导系统

Q3 Mathematics

Herald of the Bauman Moscow State Technical University. Series Natural Sciences Pub Date : 2022-12-01 DOI:10.18698/0236-3941-2022-4-60-76

A. N. Klishin, D. S. Kolesnikova

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引用次数: 1

摘要

为了提高现代导弹系统的效能，研制能够提供高质量制导的飞机控制系统是一项紧迫的任务。传统的自主制导系统没有与任何其他外部校正系统集成，使得无法保证高精度目标交战。提出了一种基于自适应制导系统的方法。此外，还阐述了实现末端寻的自调谐飞机控制系统的综合与分析方法。提出了一种控制系统结构的形成技术，利用各组成元件变系数的自整定特性，保证了控制质量在各工作模式下的恒定水平。确定了修正飞机飞行的结构方案和控制方程。提出了该技术在飞机上的实现方法，确定了飞机控制系统参数与视加速度之间的关系。以飞行器在静止目标制导下在大气中飞行的典型模型为例，演示了自适应系统的工作原理。数值模拟结果表明了该技术的高效性

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High-Precision Aircraft Guidance System with Axial Acceleration Self-Tuning

Creation of aircraft control systems that provide high quality guidance is an urgent task associated with increasing efficiency of the modern missile systems. Classical autonomous guidance systems without integration with any other external correction systems are making it impossible to ensure high-precision target engagement. An approach based on the use of adaptive guidance system is proposed. Besides, an approach to synthesis and analysis of the self-tuning aircraft control system that implements terminal homing is illustrated. A technique for forming the control system structure is presented ensuring the control quality constant level in all operating modes due to self-tuning of the constituent elements variable coefficients. Structural schemes and control equations were determined to correct the aircraft flight. Implementation of the developed technique on board the aircraft is proposed determining relationship between the aircraft control system parameters and the apparent acceleration. Adaptive system operation is demonstrated on a typical model of the aircraft flying in the atmosphere with guidance at the stationary target. Results of numerical simulation are presented, and high efficiency of the developed technique is revealed

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来源期刊

Herald of the Bauman Moscow State Technical University. Series Natural Sciences Mathematics-Mathematics (all)

CiteScore

1.10

自引率

0.00%

发文量

期刊介绍： The journal is aimed at publishing most significant results of fundamental and applied studies and developments performed at research and industrial institutions in the following trends (ASJC code): 2600 Mathematics 2200 Engineering 3100 Physics and Astronomy 1600 Chemistry 1700 Computer Science.