{"title":"Synergetic Synthesis of an Amphibious Aircraft Autopilot for the Problem of Steady-State Planing under Conditions of Wind-Wave Disturbances","authors":"G. Е. Veselov, I. A. Popov","doi":"10.17587/mau.25.425-435","DOIUrl":null,"url":null,"abstract":"The work examines the problem of controlling an amphibious aircraft (AA) in steady-state planing mode under the influence of wind-wave disturbances. An analysis of modern approaches and methods for the synthesis of aircraft control systems was carried out. A brief overview of existing scientific works devoted to the control of AA in various modes of movement is presented. The necessity of developing an autopilot to control the longitudinal movement of an AA is substantiated. A review is made of the characteristics of the state of the water surface and their influence on the operation of an AA on water. An analysis of the influence of external disturbances on the planing stability of AA is presented, on the basis of which the use of the integral adaptation method on invariant manifolds is justified for the synthesis procedure of a vector nonlinear controller of the control system of an AA in planing mode under the influence of wind-wave disturbances. The approach uses the synergetic principle of \"expansion-compression\" of the phase space, on the basis of which an extended model of synergetic synthesis is first constructed, taking into account estimates of the action of disturbing influences, and then, when applying the synthesis procedure, a phased compression of the phase space is carried out by introducing invariant manifolds, at the intersection of which the fulfillment of a given technological task is guaranteed, and invariance to the action of wind-wave disturbances is also ensured. The results of the study are confirmed by computer modeling of a synthesized closed-loop control system for the aircraft; in particular, it is shown that the closed-loop system guarantees the maintenance of the required flight speed and altitude, as well as maintaining the trim angle in the required range of values.","PeriodicalId":36477,"journal":{"name":"Mekhatronika, Avtomatizatsiya, Upravlenie","volume":"39 9","pages":""},"PeriodicalIF":0.0000,"publicationDate":"2024-08-09","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"Mekhatronika, Avtomatizatsiya, Upravlenie","FirstCategoryId":"1085","ListUrlMain":"https://doi.org/10.17587/mau.25.425-435","RegionNum":0,"RegionCategory":null,"ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"Q4","JCRName":"Engineering","Score":null,"Total":0}
引用次数: 0
Abstract
The work examines the problem of controlling an amphibious aircraft (AA) in steady-state planing mode under the influence of wind-wave disturbances. An analysis of modern approaches and methods for the synthesis of aircraft control systems was carried out. A brief overview of existing scientific works devoted to the control of AA in various modes of movement is presented. The necessity of developing an autopilot to control the longitudinal movement of an AA is substantiated. A review is made of the characteristics of the state of the water surface and their influence on the operation of an AA on water. An analysis of the influence of external disturbances on the planing stability of AA is presented, on the basis of which the use of the integral adaptation method on invariant manifolds is justified for the synthesis procedure of a vector nonlinear controller of the control system of an AA in planing mode under the influence of wind-wave disturbances. The approach uses the synergetic principle of "expansion-compression" of the phase space, on the basis of which an extended model of synergetic synthesis is first constructed, taking into account estimates of the action of disturbing influences, and then, when applying the synthesis procedure, a phased compression of the phase space is carried out by introducing invariant manifolds, at the intersection of which the fulfillment of a given technological task is guaranteed, and invariance to the action of wind-wave disturbances is also ensured. The results of the study are confirmed by computer modeling of a synthesized closed-loop control system for the aircraft; in particular, it is shown that the closed-loop system guarantees the maintenance of the required flight speed and altitude, as well as maintaining the trim angle in the required range of values.
该研究探讨了在风浪扰动影响下控制稳态平飞模式水陆两栖飞机(AA)的问题。对飞机控制系统合成的现代方法和手段进行了分析。简要概述了专门研究各种运动模式下 AA 控制的现有科学著作。论证了开发自动驾驶仪以控制 AA 纵向运动的必要性。回顾了水面状态的特征及其对水上自动驾驶仪运行的影响。分析了外部扰动对机载导航仪刨向稳定性的影响,在此基础上,证明了在风浪扰动影响下,在不变量流形上使用积分适应方法来合成刨向模式下机载导航仪控制系统的矢量非线性控制器是合理的。该方法采用了相空间 "扩展-压缩 "的协同原理,在此基础上,首先构建了协同合成的扩展模型,并考虑了对干扰影响作用的估计,然后,在应用合成程序时,通过引入不变流形对相空间进行分阶段压缩。研究结果通过对飞机的合成闭环控制系统进行计算机建模得到了证实;特别是,研究结果表明,闭环系统可以保证保持所需的飞行速度和高度,并将微调角保持在所需的数值范围内。