Open Access
Issue
Volume 10, 2018
Progress in Flight Dynamics, Guidance, Navigation, and Control – Volume 10
Page(s) 87 - 104
DOI https://doi.org/10.1051/eucass/201810087
Published online 08 June 2018
  1. Steinberg, M. L. 2001. Comparison of intelligent, adaptive, and nonlinear flight control laws. J. Guid. Control Dynam. 24:693–699. [Google Scholar]
  2. Ridgely, D.B., and M.B. McFarland. 1999. Tailoring theory to practice in tactical missile control. IEEE Contr. Syst. Mag. 19:49–55. [Google Scholar]
  3. Kumar, M.V., P. Sampath, S. Suresh, S.N. Omkar, and R. Ganguli. 2011. Neural network based feedback error controller for helicopter. Aircr. Eng. Aerosp. Tec. 83:283–295. [Google Scholar]
  4. Bugajski, D. J., and D. F. Enns. 1992. Nonlinear control law with application to high angle-of-attack flight. J. Guid. Control Dynam. 15:761–767. [Google Scholar]
  5. Lee, J. I., and I. J. Ha. 1999. Autopilot design for highly maneuvering STT missiles via singular perturbation-like technique. IEEE T. Contr. Syst. T. 7:527–541. [Google Scholar]
  6. Chwa, D.K., and J.Y. Choi. 2001. New parametric affine modelling and control for skid-to-turn missiles. IEEE T. Contr. Syst. T. 9:335–347. [Google Scholar]
  7. Rysdyk, R., and A. J. Calise. 2005. Robust nonlinear adaptive flight control for consistent handling qualities. IEEE T. Contr. Syst. T. 13:896–910. [Google Scholar]
  8. Brinker, J. S., and K.A. Wise. 1996. Stability and flying qualities robustness of a dynamic inversion aircraft control law. J. Guid. Control Dynam. 19:1270–1277. [Google Scholar]
  9. Han, J. 2009. From PID to active disturbance rejection control. IEEE T. Ind. Electron. 56:900–906. [Google Scholar]
  10. Su, Y.X., B.Y. Duan, C.H. Zheng, Y. F. Zhang, G.D. Chen, and J.W. Mi. 2004. Disturbance rejection high-precision motion control of a stewart platform. IEEE T. Contr. Syst. T. 12:364–374. [Google Scholar]
  11. Sun, B., and Z. Gao. 2005. A DSP-based active disturbance rejection control design for a 1 kW H-bridge DC–DC power converter. IEEE T. Ind. Electron. 52:1271–1277. [Google Scholar]
  12. Dong, L., Q. Zheng, and Z. Gao. 2008. On control system design for the conventional mode of operation of vibrational gyroscopes. IEEE Sens. J. 8:1871–1878. [Google Scholar]
  13. Yan, B., Z. Tian, S. Shi, and Z. Weng. 2008. Fault diagnosis for a class of nonlinear systems via ESO. ISA T. 47:386–394. [Google Scholar]
  14. Li, S., and Z. Liu. 2009. Adaptive speed control for permanent-magnet synchronous motor system with variations of load inertia. IEEE T. Ind. Electron. 56:3050–3059. [Google Scholar]
  15. Li, S. L., X. Yang, and D. Yang. 2009. Active disturbance rejection control for high pointing accuracy and rotation speed. Automatica 45:1854–1860. [Google Scholar]
  16. Zheng, Q., Z. Chen, and Z. Gao. 2009. A practical approach to disturbance decou- pling control. Control Eng. Pract. 17:1016–1025. [Google Scholar]
  17. Sun, M., Z. Chen, and Z. Yuan. 2009. A practical solution to some problems in flight control. 48th IEEE Conference on Decision and Control held jointly with the 28th Chinese Control Conference. 1482–1487. [Google Scholar]
  18. Liu, H., and S. Li. 2012. Speed control for PMSM servo system using predictive functional control and extended state observer. IEEE T. Ind. Electron. 59:1171–1183. [Google Scholar]
  19. Sun, M.W., Z.H. Wang, Y.K. Wang, and Z.Q. Chen. 2013. On low-velocity com- pensation of brushless DC servo in the absence of friction model. IEEE T. Ind. Electron. 60:3897–3905. [Google Scholar]
  20. Sun,M.W., Z.H.Wang, and Z.Q. Chen. 2014. Practical solution to attitude control within wide envelope. Aircr. Eng. Aerosp. Tec. 86:117–128. [Google Scholar]
  21. Wang, Y., M. Sun, Z. Wang, Z. Liu, and Z. Chen. 2014. A novel disturbance- observer based friction compensation scheme for ball and plate system. ISA T. 53:671–678. [Google Scholar]
  22. Qiu, D, M. Sun, Z. Wang, Y. Wang, and Z. Chen. 2014. Practical wind-disturbance rejection for large deep space observatory antenna. IEEE T. Contr. Syst. T. 22:1983–1990. [Google Scholar]
  23. Gao, Z. 2014. On the centrality of disturbance rejection in automatic control. ISA T. 53:850–857. [Google Scholar]
  24. Huang, Y., and W.C. Xue. 2014. Active disturbance rejection control: Methodology and theoretical analysis. ISA T. 53:963–976. [Google Scholar]
  25. Przybyła, M., M. Kordasz, R. Madoński, P. Herman, and P. Sauer. 2012. Active disturbance rejection control of a 2DOF manipulator with significant modeling uncertainty. Bull. Pol. Acad. Sci.-Te. 60:509–520. [Google Scholar]
  26. Sira-Ramirez, H., C. Lopez-Uribe, and M. Velasco-Villa. 2013. Linear active dis- turbance rejection control of under-actuated systems: The case of the Furuta pen- dulum. ISA T. 53:920–928. [Google Scholar]
  27. Ramirez-Neria, M., H. Sira-Ramirez, R. Garrido-Moctezuma, and A. Luviano-Juarez. 2014. Linear observer-based active disturbance rejection control of the omnidirectional mobile robot. Asian J. Control 15:51–63. [Google Scholar]
  28. Sira-Ramirez, H., J. Linares-Flores, C. Garcia-Rodriguez, and M.A. Conteras-Ordaz. 2014. On the control of the permanent magnet synchronous motor: An active disturbance rejection control approach. IEEE T. Contr. Syst. T. 22:2056–2063. [Google Scholar]
  29. Talole, S.E., A.A. Godbole, and J. P. Kolhe. 2011. Robust roll autopilot design for tactical missiles. J. Guid. Control Dynam. 34:107–117. [Google Scholar]
  30. Priyamvada, K. S., V. Olikal, S.E. Talole, and S.B. Phadke. 2011. Robust height control system design for sea-skimming missiles. J. Guid. Control Dynam. 34:1746–1756. [Google Scholar]
  31. Godbole, A.A., T.R. Libin, and S.E. Talole. 2012. Extended state observer-based robust pitch autopilot design for tactical missiles. P. I. Mech. Eng. G – J. Aer. 226:1482–1501. [Google Scholar]
  32. Panchal, B., J. P. Kolhe, and S.E. Talole. 2014. Robust predictive control of a class of nonlinear systems. J. Guid. Control Dynam. 37:1437–1445. [Google Scholar]
  33. Kori, D.K., J. P. Kolhe, and S.E. Talole. 2014. Extended state observer based robust control of wing rock motion. Aerop. Sci. Technol. 33:107–117. [Google Scholar]
  34. Godbole, A.A., J.P. Kolhe, and S.E. Talole. 2014. Performance analysis of gener- alized extended state observer in tackling sinusoidal disturbances. IEEE T. Contr. Syst. T. 21:2212–2223. [Google Scholar]
  35. Huang, Y., K. Xu, J. Han, and J. Lam. 2001. Flight control design using extended state observer and non-smooth feedback. 40th IEEE Conference on Decision and Control. 223–228. [Google Scholar]
  36. Zheng, Q., L.Q. Gao, and Z. Gao. 2007. On stability analysis of active disturbance rejection control for nonlinear time-varying plants with unknown dynamics. 46th IEEE Conference on Decision and Control. 3501–3506. [Google Scholar]
  37. Guo, B., and Z. Zhao. 2011. On the convergence of an extended state observer for nonlinear systems with uncertainty. Syst. Control Lett. 84:693–701. [Google Scholar]
  38. Guo, B., and Z. Zhao. 2011. On convergence of nonlinear extended state observer for MIMO systems with uncertainty. Int. J. Control 60:420–430. [Google Scholar]
  39. Zheng, Q., L.Q. Gao, and Z. Gao. 2012. On validation of extended state observer through analysis and experimentation. J. Dyn. Syst.-T. ASME 134:024505. [Google Scholar]
  40. Guo, B., and Z. Zhao. 2012. On convergence of non-linear extended state observer for multi-input multi-output systems with uncertainty. IET Control Theory A. 6:2375–2386. [Google Scholar]
  41. Guo, B., and L. Zhao. 2013. On convergence of the nonlinear active disturbance rejection control for MIMO systems. SIAM J. Control Optim. 51:1727–1757. [Google Scholar]
  42. Sun, M., G. Jiao, R. Yang, and Z. Chen. 2011. ADRC for statically unstable lon- gitudinal flight dynamics. 30th Chinese Control Conference. 6274–6280. [Google Scholar]
  43. Sun,M., L. Zhang, Z.Wang, and Z. Chen. 2014. PID pitch attitude control unstable flight vehicle in the presence of actuator delay: Tuning and analysis. J. Control Optim. 351:5523–5547. [Google Scholar]
  44. Blakelock, J.H. 1991. Automatic control of aircraft and missiles. John Wiley & Sons, Inc. 664 p. [Google Scholar]
  45. Gao, Z. 2003. Scaling and bandwidth-parameterization based controller tuning. The American Control Conference. 4989–4996. [Google Scholar]
  46. Tian, G., and Z. Gao. 2007. Frequency response analysis of active disturbance rejection based control system. 16th IEEE Conference (International) on Control Applications. Part of IEEE Multi-Conference on Systems and Control. 1595–1599. [Google Scholar]
  47. Godbole, A.A., and S.E. Talole. 2011. Extending the operating range of linear controller by means of ESO. Comm. Com. Inf. Sc. 250:44–49. [Google Scholar]
  48. Chang, C.H., and K.W. Han. 1990. Gain margins and phase margins for control systems with adjustable parameters. J. Guid. Control Dynam. 13:404–408. [Google Scholar]