Aircraft controllability through High-lift propellers

被引：0

作者：

Jan, Belak ^{[1
]}

Dominik, Beno ^{[1
]}

Martin, Hromcik ^{[1
]}

机构：

[1] Czech Tech Univ, Dept Control Engn, Prague, Czech Republic

来源：

2023 24TH INTERNATIONAL CONFERENCE ON PROCESS CONTROL, PC | 2023年

关键词：

Distributed thrust; Multiple engines aircraft; LQR control; Aircraft dynamics; High-lift propellers;

D O I：

10.1109/PC58330.2023.10217691

中图分类号：

TP [自动化技术、计算机技术];

学科分类号：

0812 ;

摘要：

The current era of electrification of the aerospace industry brings many challenges, but also brings forward radically new aircraft designs. The new eVTOL and eSTOL concepts were enabled by the distributed electric propulsion. Even though eVTOL and eSTOL projects are gaining a lot of attention, another concept is also notable. The so-called High-Lift propulsion is based on the increase of airflow over the wing, thus reducing landing speed. Most notable example is NASA's X-57 Maxwell. However, this concept can be used to control the aircraft as well. This paper introduces new approach of aircraft control using distributed High-Lift propulsion concept. The controller uses differential thrust to completely control the aircraft states and therefore eliminates the need for traditional control surfaces.

引用

页码：78 / 83

页数：6

共 6 条

[1] Anderson BrianD. O., 2007, Optimal control
[2] Computational Study of Propeller-Wing Aerodynamic Interaction
Aref, Pooneh
Ghoreyshi, Mehdi
Jirasek, Adam
Satchell, Matthew J.
Bergeron, Keith
[J]. AEROSPACE, 2018, 5 (03):
[3] Hospodar Pavel, 2022, Aerospace, V9
[4] Patterson M.D., 2016, CONCEPTUAL DESIGN HI
[5] Stevens BL, 2016, AIRCRAFT CONTROL AND SIMULATION: DYNAMICS, CONTROLS DESIGN, AND AUTONOMOUS SYSTEMS, 3RD EDITION, P1
[6] Rotor theories by Professor Joukowsky: Momentum theories
van Kuik, G. A. M.
Sorensen, J. N.
Okulov, V. L.
[J]. PROGRESS IN AEROSPACE SCIENCES, 2015, 73 : 1 - 18

← 1 →