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  • 标题:Active Fault-Tolerant Control Strategy for More Electric Aircraft under Actuation System Failure
  • 其他标题:Active Fault-Tolerant Control Strategy for More Electric Aircraft under Actuation System Failure
  • 本地全文:下载
  • 作者:Xiaozhe Sun ; Xingjian Wang ; Zhiyuan Zhou
  • 期刊名称:Actuators
  • 电子版ISSN:2076-0825
  • 出版年度:2020
  • 卷号:9
  • 期号:4
  • 页码:122
  • DOI:10.3390/act9040122
  • 出版社:MDPI Publishing
  • 摘要:The aircraft hydraulic system is very important for the actuation system and its failure has led to a number of catastrophic accidents in the past few years. The reasons for hydraulic loss can be leakage, blockage, and structural damage. Fortunately, the development of more electric aircraft (MEA) provides a new means of solving this difficult problem. This paper designs an active fault tolerant control (AFTC) method for MEA suffering from total hydraulic loss and actuation system failure. Two different kinds of scenarios are considered: leakage/blockage and vertical tail damage. With the application of the dissimilar redundant actuation system (DRAS) in MEA, a switching mechanism can be used to change the hydraulic actuation (HA) system into an electro-hydrostatic actuation (EHA) system when the whole hydraulic system fails. Taking account of the gap between HA and EHA, a degraded model is built. As for vertical tail damage, engine differential thrust control is adopted to help regain lateral-directional stability. The engine thrust dynamics are modeled and the mapping relationship between engine differential thrust and rudder deflection is formulated. Moreover, model reference control (MRC) and linear quadratic regulator (LQR) are used to design the AFTC method. Comparative simulation with the NASA generic transportation model (GTM) is carried out to prove the proposed strategy.
  • 关键词:active fault-tolerant control; total hydraulic loss; vertical tail loss; dissimilar redundant actuation system; model reference control active fault-tolerant control ; total hydraulic loss ; vertical tail loss ; dissimilar redundant actuation system ; model reference control
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