YongjiangXUETifangLI.The development and key technology analysis of aerospace aircraft.Aerodynam Missile J2011;
2: 32–36 (in Chinese).
2.
HanGSZhouJGuoJG, et al.
A longitudinal trajectory tracking method with L1 adaptive control for hypersonic reentry vehicles. Trans Inst Measure Control2020;
42: 386–403.
3.
DongCLiuYWangQ.Barrier Lyapunov function based adaptive finite-time control for hypersonic flight vehicles with state constraints. ISA Trans2020;
96: 163–176.
4.
AnHXiaHMaG, et al.
Adaptive control of a switched hypersonic vehicle models robust to scramjet choking and elevator fault.ISA Trans2019;
95: 45–57.
5.
Tianyi Z, JunZJianguoG.Design of predictive controller for hypersonic vehicles based on disturbance observer. Acta Aeronaut Astronaut Sin2014;
35: 215–222 (in Chinese).
6.
HeL, YanTangXS.Spiral-diving trajectory optimization for hypersonic vehicles by second-order cone programming. Aerosp Sci Technol2019;
95: 105427.
7.
MengYJiangBQiR.Adaptive fault-tolerant attitude tracking control of hypersonic vehicle subject to unexpected centroid-shift and state constraints. Aerosp Sci Technol2019;
95: 105515.
8.
HanX.Disturbance observer-based attitude control for hypersonic vehicles with input constraint. Tech Committee Control Theor Chin Assoc Automat2019;
1: 854–859.
9.
JinzhenMYuhuiWQingxianW, et al.
Robust coordinated control for a type of hypersonic aircraft. Trans Nanjing Univ Aeronaut Astronaut2018;
35: 1000–1009.
10.
WubinZYuhuiWQingxianW, et al.
Coordinated attitude control of hypersonic flight vehicles based on the coupling analysis. Proc IMechE, Part G: J Aerospace Engineering2018;
232: 1002–1011.
11.
ChengX.Robust attitude control of air-breathing hypersonic vehicles with mismatched disturbances. 2017; Tech Committee Control Theor Chin Assoc Automat : 1551–1556.
12.
ChengXWangPLiuL, et al.
Disturbance rejection control for attitude control of air-breathing hypersonic vehicles with actuator dynamics. Proc IMechE, Part I: J Systems and Control Engineering2016;
230: 988–1000.
13.
ZhangYWangXTangS.A globally fixed-time solution of distributed formation control for multiple hypersonic gliding vehicles. Aerosp Sci Technol2020;
98: 105643.
14.
DingRWangJHeF, et al.
Numerical investigation on a double layer combined cooling structure for aerodynamic heat control of hypersonic vehicle leading edge. Appl Therm Eng2020;
169: 114949.
15.
HuangJYaoW-X.Active flow control by a novel combinational active thermal protection for hypersonic vehicles. Acta Astronaut2020;
170: 320–330.
16.
ZhouDLuZGuoT, et al.
Fluid-thermal modeling of hypersonic vehicles via a gas-kinetic BGK scheme-based integrated algorithm. Aerosp Sci Technol2020;
99: 105748.
17.
ChengZChenFGongJ.Self-repairing control of air-breathing hypersonic vehicle with actuator fault and backlash. Aerosp Sci Technol2020;
97: 105608.
18.
ShiYShaoXZhangW.Quantized learning control for flexible air-breathing hypersonic vehicle with limited actuator bandwidth and prescribed performance. Aerosp Sci Technol2020;
97: 105629.
19.
Iskrenovic-MomcilovicO.Learning a programming language. Int J Electr Eng Educ2018;
55: 324–333.
