Aircraft Nonlinear AFTC based on Geometric Approach and Singular Perturbations in case of actuator and sensor faults

机译：用于执行器和传感器故障的基于几何方法和奇异扰动的飞机非线性AFTC

获取原文

页面导航

摘要
著录项
相似文献
相关主题

摘要

The Singular Perturbation (SP) theory seems to be a very advantageous framework to describe the longitudinal aircraft dynamic and for designing advanced Flight Controls. In this paper, thanks to SP theory, a novel Active Fault Tolerant Flight Control (AFTFC) has been developed in order to accommodate faults occurring on all actuators and sensors. The proposed AFTFC is composed by two main subsystems: a Fault Detection and Diagnosis (FDD) module, that provides fault estimation, and a Controller that, exploiting this estimation, tracks a reference trajectory, even in presence of fault. The jointly use of the NonLinear Geometric Approach and SP allows the solution of the FDD problem, otherwise not possible for the considered fault scenario. The effectiveness of the proposed AFTFC system is highlighted by extended simulations exploiting a detailed wide-body aircraft flight simulator.

机译：奇异扰动（SP）理论似乎是描述纵向飞机动态和设计先进飞行控制的非常有利的框架。在本文中，由于SP理论，已经开发了一种新型的主动容错飞行控制（AFTFC），以适应所有执行器和传感器上发生的故障。提出的AFTFC由两个主要子系统组成：故障检测和诊断（FDD）模块，提供故障估计，以及利用此估计的控制器，即使在故障存在下也会跟踪参考轨迹。非线性几何方法和SP的共同使用允许解决FDD问题，否则不可能考虑的故障场景。通过利用详细的宽体飞行飞行模拟器的扩展模拟，突出了建议的AFTFC系统的有效性。

著录项

来源
《IFAC Symposium on Automatic Control in Aerospace》|2014年||共6页
会议地点
作者
P. Castaldi; N. Mimmo;
展开▼
作者单位

展开▼
会议组织
原文格式 PDF
正文语种
中图分类 TP273-53;
关键词
Active Fault Tolerant Flight Control; Singular Perturbation; NonLinear Geometric Approach; Fault Detection and Diagnosis; Feedback Linearisation; Composite Control;

机译：积极容易耐受飞行控制;奇异扰动;非线性几何方法;故障检测和诊断;反馈线性化;复合控制;

相似文献

外文文献
中文文献
专利

1. Combined Singular Perturbations and Nonlinear Geometric Approach to FDI in Satellite Actuators and Sensors [J] . P. Baldi, P. Castaldi, N. Mimmo, IFAC PapersOnLine . 2017,第1期

机译：卫星驱动器和传感器中奇异摄动和非线性几何方法相结合的FDI
2. Tracy-Widom distribution based fault detection approach: Application to aircraft sensor/actuator fault detection [J] . Ch. Hajiyev ISA Transactions . 2012,第1期

机译：基于Tracy-Widom分布的故障检测方法：在飞机传感器/执行器故障检测中的应用
3. A new estimation/decoupling approach for robust observer-based fault reconstruction in nonlinear systems affected by simultaneous time varying actuator and sensor faults [J] . Hadi Ali Saad, Shaker Montadher Sami Journal of the Franklin Institute . 2020,第13期

机译：同时变化致动器和传感器故障影响的非线性系统中鲁棒观察者故障重建的新估计/解耦方法
4. Aircraft Nonlinear AFTC based on Geometric Approach and Singular Perturbations in case of actuator and sensor faults [C] . P. Castaldi, N. Mimmo IFAC Symposium on Automatic Control in Aerospace . 2014

机译：用于执行器和传感器故障的基于几何方法和奇异扰动的飞机非线性AFTC
5. A model-based sensor fault detection and isolation approach for smooth deterministic nonlinear dynamic systems with application. [D] . Himmelspach, Timothy Alan. 1993

机译：基于模型的光滑确定性非线性动力系统传感器故障检测与隔离方法及其应用。
6. Avionic Air Data Sensors Fault Detection and Isolation by means of Singular Perturbation and Geometric Approach [O] . Paolo Castaldi, Nicola Mimmo, Silvio Simani 2017

机译：航空电子数据传感器的奇异摄动和几何方法故障检测与隔离
7. Avionic air data sensors fault detection and isolation by means of singular perturbation and geometric approach [O] . Castaldi, Paolo, Mimmo, Nicola, Simani, Silvio 2017

机译：航空电子空气数据传感器通过奇异摄动和几何方法进行故障检测和隔离
8. Identifiability of Bias-Type Actuator-Sensor Faults in Multiple-Model-Based Fault Detection and Identification. [R] . Joshi, S. M. 2012

机译：基于多模型的故障检测与识别中偏置式执行器 - 传感器故障的可识别性。

Aircraft Nonlinear AFTC based on Geometric Approach and Singular Perturbations in case of actuator and sensor faults

摘要

著录项

相似文献

相关主题

期刊订阅