Open Access
Volume 41, Number 5, Octobre 2023
Page(s) 878 - 886
Published online 11 December 2023
  1. DING Yibo, WANG Xiaogang, BAI Yuliang, et al. An improved continuous sliding mode controller for flexible air-breathing hypersonic vehicle[J]. International Journal of Robust and Nonlinear Control, 2020, 30(14): 5751–5772 [Article] [CrossRef] [Google Scholar]
  2. XU B, SHI Z K. An overview on flight dynamics and control approaches for hypersonic vehicles[J]. Science China Information Sciences, 2015, 58(7): 1–19 [NASA ADS] [Google Scholar]
  3. GUO Zongyi, ZHOU Jun, GUO Jianguo. On a new adaptive disturbance observer-based attitude control[J]. Journal of Northwestern Polytechnical University, 2017, 35(2): 177–182 [Article] (in Chinese) [Google Scholar]
  4. WANG Guan, YIN Tong, CAO Ying. Research on the development of foreign hypersonic offensive and defensive weapons[J]. Modern Defence Technology, 2022, 50(2): 26–32 [Article] (in Chinese) [Google Scholar]
  5. JI Chunsheng. Analysis to the development of advanced technology for integrated flight-propulsion control[J]. Aerospace Power, 20194): 32–38 [Article] (in Chinese) [Google Scholar]
  6. LI Hongxin, XIE Yeping. Fundamental issues of aircraft/engine integration from the perspective of aeroengine[J]. Aeroengine, 2019, 45(6): 1–8 [Article] (in Chinese) [Google Scholar]
  7. LI Y, LIU X, HE Q, et al. L1 adaptive structure-based nonlinear dynamic inversion control for aircraft with center of gravity variations[J]. Journal of Intelligent & Robotic Systems, 2022, 106(1): 1–16 [CrossRef] [Google Scholar]
  8. KEREAM S S, ABDALLA A N, FRAYYEH H F, et al. Three phase induction motor torque ripple minimization based on a novel nonlinear dynamic inverse controller[C]//Proceedings of the National Conference for Postgraduate Research, 2016: 321–329 [Google Scholar]
  9. LUO Fei, ZHANG Junhong, WANG Bo, et al. Direct lift trajectory control for carrier aircraft based on NDI[J]. Flight Dynamics, 2021, 39(1): 40–45 [Article] (in Chinese) [Google Scholar]
  10. YANG Hao, PEI Hailong. Nonlinear dynamic inversion approach for a class of nonaffine nonlinear systems with input saturation[J]. Control Theory & Applications, 2021, 38(4): 425–432 [Article] (in Chinese) [Google Scholar]
  11. LI Fei, LI Xinguo. Dynamic inversion-sliding mode for breathing hypersonic vehicle controller design[J]. Flight Dynamics, 2016, 34(2): 64–67 [Article] (in Chinese) [Google Scholar]
  12. ZHANG Xuan, WU Mei, WANG Yuhang. Tandem helicopter control based on BP neural network dynamic inversion[J]. Flight Dynamics, 2021, 39(6): 36–41 [Article] (in Chinese) [Google Scholar]
  13. CHEN Yang, MA Janwei. Dynamic inversion control for spinning missilebased on nonlinear disturbance observer[J]. Fire Control & Command Control, 2018, 43(8): 156–159 [Article] (in Chinese) [Google Scholar]
  14. DANG Xiaowei, TANG Peng, SUN Hongqiang, et al. Incremental nonlinear dynamic inversion control and flight test based on angular acceleration estimation[J]. Acta Aeronautica et Astronautica Sinica, 2020, 41(4): 193–201 [Article] (in Chinese) [Google Scholar]
  15. PAVEL M D, SHANTHAKUMARAN P, CHU Q, et al. Incremental nonlinear dynamic inversion for the apache AH-64 helicopter control[J]. Journal of the American Helicopter Society, 2020, 65(2): 1–16 [CrossRef] [Google Scholar]
  16. LIU An, YU Zongjin, LIAO Baoquan, et al. Incremental nonlinear dynamic inversion control for aquad-rotor aerial underwater vehicle[J]. Flight Dynamics, 2022, 40(2): 67–73 [Article] (in Chinese) [Google Scholar]

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