首页> 美国政府科技报告 >Motion-Based System Identification and Fault Detection and Isolation Technologies for Thruster Controlled Spacecraft

【24h】

Motion-Based System Identification and Fault Detection and Isolation Technologies for Thruster Controlled Spacecraft

机译：推进器控制航天器的基于运动的系统辨识与故障检测与隔离技术

获取原文

页面导航

摘要
著录项
相似文献
相关主题

摘要

By analyzing the motions of a thruster-controlled spacecraft, it is possible to provide on-line (1) thruster fault detection and isolation (FDI), and (2) vehicle mass- and thruster-property identification (ID). Technologies developed recently at NASA Ames have significantly improved the speed and accuracy of these ID and FDI capabilities, making them feasible for application to a broad class of spacecraft. Since these technologies use existing sensors, the improved system robustness and performance that comes with the thruster fault tolerance and system ID can be achieved through a software-only implementation. This contrasts with the added cost, mass, and hardware complexity commonly required by FDI. Originally developed in partnership with NASA - Johnson Space Center to provide thruster FDI capability for the X-38 during re-entry, these technologies are most recently being applied to the MIT SPHERES experimental spacecraft to fly on the International Space Station in 2004. The model-based FDI uses a maximum-likelihood calculation at its core, while the ID is based upon recursive least squares estimation. Flight test results from the SPHERES implementation, as flown aboard the NASA KC-1 35A 0-g simulator aircraft in November 2003 are presented.

著录项

作者
Wilson, Edward; Sutter, David W.; Berkovitz, Dustin; Betts, Bradley J.; Kong, Edmund; delMundo, Rommel; Lages, Christopher R.; Mah, Robert W.; Papasin, Richard;
展开▼
作者单位

展开▼
年度 2003
页码 1-10
总页数 10
原文格式 PDF
正文语种 eng
中图分类工业技术;
关键词
FAULT DETECTION; THRUSTORS; ISOLATION; SYSTEM IDENTIFICATION; INTERNATIONAL SPACE STATION; ON-LINE SYSTEMS; REENTRY; ROBUSTNESS (MATHEMATICS); COMPUTER PROGRAMS; X-38 CREW RETURN VEHICLE;

机译：故障检测;推进器工作;隔离;系统识别;国际空间站;在线系统;再入;健壮（数学）;电脑程序; X-38船员返回车辆;

相似文献

外文文献
中文文献
专利

1. Fault detection and isolation of the attitude control subsystem of spacecraft formation flying using extended Kalman filters [J] . Ghasemi S., Khorasani K. International Journal of Control . 2015,第10a12期

机译：扩展卡尔曼滤波器对航天器编队飞行姿态控制子系统的故障检测与隔离
2. Fault detection, isolation and identification for hybrid systems with unknown mode changes and fault patterns [J] . Ming Yu, Danwei Wang, Ming Luo, Expert Systems with Application . 2012,第11期

机译：模式变化和故障模式未知的混合系统的故障检测，隔离和识别
3. Detection, isolation and identification of multiple actuator and sensor faults in nonlinear dynamic systems: Application to a waste water treatment process [J] . Dimitrios Fragkoulis, Gilles Roux, Boutaieb Dahhou Applied Mathematical Modelling . 2011,第1期

机译：非线性动态系统中多个执行器和传感器故障的检测，隔离和识别：在废水处理过程中的应用
4. Thruster Fault Detection, Isolation and Accommodation for an Autonomous Spacecraft [C] . R. Fonod, D. Henry, E. Bornschlegl, IFAC World Congress . 2014

机译：用于自主宇宙飞船的推进器故障检测，隔离和住宿
5. Dynamic neural network-based Pulsed Plasma Thruster (PPT) fault detection and isolation for the Attitude Control Subsystem of formation flying satellites. [D] . Valdes, Arturo. 2008

机译：基于动态神经网络的脉冲等离子推进器（PPT）故障检测和隔离，用于编队飞行卫星的姿态控制子系统。
6. Deep Generative Models-Based Anomaly Detection for Spacecraft Control Systems [O] . Hyojung Ahn, Dawoon Jung, Han-Lim Choi 2020

机译：基于深度生成模型的航天器控制系统异常检测
7. Dynamic neural network-based pulsed plasma thruster (PPT) fault detection and isolation for the attitude control subsystem of formation flying satellites [O] . Valdes Arturo 2008

机译：基于动态神经网络的脉冲等离子体推进器（PPT）故障检测与隔离，用于编队飞行卫星姿态控制子系统

Motion-Based System Identification and Fault Detection and Isolation Technologies for Thruster Controlled Spacecraft

摘要

著录项

相似文献

相关主题

期刊订阅