飞行控制系统的自愈合控制

本书特色

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本书主要介绍自愈合控制概念的起源与研究现状，着重描述飞行控制系统的自愈合控制的新方法。针对三自由度双旋翼直升机，以状态观测器技术为基础研究了三自由度双旋翼直升机在发生执行器故障时的故障诊断方法，为自愈合控制策略设计提供准确的故障诊断结果；针对发生驱动器故障的四旋翼直升机，基于自适应控制理论，介绍了三种针对四旋翼直升机的自愈合控制方法；针对飞行器发生多故障情形，介绍了三种多故障自愈合控制设计方法。数字仿真及半物理仿真结果表明，这些研究结果可增强机载控制自愈合性，从而保证航空器在故障和损伤等恶劣条件下的安全飞行。

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内容简介

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本书主要介绍了双旋翼直升机、四旋翼直升机、高超声速飞行器的故障诊断与方法及自愈合控制方法。第1章作为绪论简单介绍了自愈合控制技术的发展概况 ; 第2、3章研究了基于观测器设计的双旋翼直升机故障诊断方法及多故障下的自愈合控制方法 ; 第4-9章针对四旋翼直升机介绍了基于前馈补偿、鲁棒反步滑模等自愈合控制方法, 第10章讨论了高超声速飞行器的多故障鲁棒自适应控制方法。

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作者简介

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陈复扬，江苏扬州人，工学博士，教授，博士生导师。现为南京航空航天大学自动化学院党委委员、自动控制系教工党支部书记，长期从事自适应控制、故障诊断与容错控制、自修复控制、自愈合控制、飞行控制、物联网与控制技术、量子信息与控制理论、高铁信息控制系统的故障诊断、道路交通管理控制等方面的科学研究。现为中国兵工学会自动控制专业委员会委员、江苏省暨南京市航空航天学会自动控制专业委员会委员。近年来主持国家自然科学基金面上项目2项、航空科学基金1项；获中国航空学会科学技术奖1项、出版专著3部、以第1作者发表学术论文60余篇( SCI收录30篇)、申请发明专利20项。长期从事《自动控制原理》《自适应控制》《自适应控制与歌唱艺术》课程教学，主持校级教改项目6项、获江苏省教学成果二等奖1项、主编出版教材6部、发表教改论文10篇。

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目录

第1 章 绪论 ················································································································ 11.1 自愈合控制的研究背景 ··························································································· 11.2 国内外研究现状 ······································································································· 21.3 *新研究成果 ·········································································································· 6第2 章 基于观测器设计的双旋翼直升机故障诊断方法 ····················································· 92.1 引言 ····················································································································· 92.2 双旋翼直升机控制系统建模及半物理仿真平台 ·················································· 102.2.1 纵列式双旋翼直升机 ················································································· 102.2.2 双旋翼直升机半物理仿真平台·································································· 132.3 基于自适应观测器的多执行器卡死故障诊断 ······················································ 222.3.1 执行器卡死故障系统描述 ········································································· 222.3.2 鲁棒快速自适应故障估计方法·································································· 232.3.3 多模型故障诊断方法 ················································································· 262.3.4 仿真与分析 ································································································ 292.4 基于自适应滑模观测器的执行器时变故障诊断 ·················································· 342.4.1 系统描述 ···································································································· 352.4.2 基于自适应滑模观测器的故障诊断方法 ·················································· 362.4.3 仿真与分析 ································································································ 392.5 相对阶大于1 的非线性系统执行器故障诊断 ······················································ 442.5.1 微分几何基本知识 ····················································································· 442.5.2 三自由度双旋翼直升机非线性模型分析 ·················································· 452.5.3 基于构造辅助输出的执行器故障诊断 ······················································ 462.5.4 仿真分析 ···································································································· 502.6 本章小结 ················································································································ 53第3 章 基于自适应控制的双旋翼直升机多故障自愈合控制 ··········································· 543.1 引言 ····················································································································· 543.2 三自由度双旋翼直升机改进模型 ········································································· 553.3 基于自适应控制的多故障自愈合控制器设计 ······················································ 583.4 仿真验证及结果分析 ····························································································· 603.5 本章小结 ················································································································ 63第4 章 含有未知参数的四旋翼直升机多故障自愈合控制 ··············································· 644.1 引言 ··················································································································· 644.2 四旋翼直升机动力学模型 ····················································································· 664.3 联级控制系统基本控制器设计 ············································································· 674.4 针对执行器部分失效故障的滑模自愈合控制器设计 ·········································· 714.5 针对未知参数的自适应容错控制器设计 ······························································ 754.6 各控制器间的时间尺度分析 ················································································· 774.7 仿真验证及结果分析 ····························································································· 784.8 本章小结 ················································································································ 84第5 章 基于前馈补偿和直接自适应的四旋翼直升机自愈合控制 ··································· 855.1 引言 ···················································································································· 855.2 四旋翼直升机控制系统与

封面

书名:飞行控制系统的自愈合控制

作者:陈复扬，王瑾著

页数:194页

定价:¥79.0

出版社:电子工业出版社

出版日期:2017-11-01

ISBN:9787121331718

PDF电子书大小:43MB 高清扫描完整版