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Ships and Offshore Structures Volume 19, 2024 - Issue 1
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Articles

Composite disturbance observer-based backstepping stabilisation for 3-DOF ship-borne platform with unknown disturbances

Xin Hua School of Mathematics and Statistics Science, Ludong University, Yantai, People's Republic of ChinaORCID Iconhttps://orcid.org/0000-0001-9043-9639View further author information
ORCID Icon &
Qingtao Gongb Ulshan Ship and Ocean College, Ludong University, Yantai, People's Republic of ChinaCorrespondence[email protected]
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Pages 45-55 | Received 22 May 2022, Accepted 22 Oct 2022, Published online: 07 Nov 2022

References

  • Basturk HI, Krstić M. 2013. Adaptive wave cancelation by acceleration feedback for ramp-connected air cushion-actuated surface effect ships. Automatica. 49(9):2591–2602.
  • Chen SH, Fu LC. 2013. Output feedback sliding mode control for a stewart platform with a nonlinear observer-based forward kinematics solution. IEEE Trans Control Syst Technol. 21(1):176–185.
  • Chen WH. 2004. Disturbance observer based control for nonlinear systems. IEEE ASME Trans Mechatron. 9(4):706–710.
  • Chen WH, Ballance DJ, Gawthrop PJ, O Reilly J. 2000. A nonlinear disturbance observer for robotic manipulators. IEEE Trans Ind Electron. 47(4):932–938.
  • Du JL, Hu X, Miroslav K, Sun YQ. 2016. Robust dynamic positioning of ships with disturbances under input saturation. Automatica. 73:207–214.
  • Guo L, Cao SY. 2014. Anti-disturbance control for systems with multiple disturbances. Boca Raton (FL): CRC Press.
  • Guo L, Chen WH. 2005. Disturbance attenuation and rejection for systems with nonlinearity via DOBC approach. Int J Robust Nonlinear Control. 15(3):109–125.
  • Guo LD, Tan ZF. 2010. Application of a sliding mode variable structure controller for stabilized platform of shipborne weapons. Proc 2010 2nd IEEE Int Conf Inf Manage Eng. Chengdu, China, p. 1–4.
  • Guo LD, Tan ZF, Yang LX, Zhang LJ. 2010. Application of NN-based backstepping adaptive controller for stabilized platform of shipborne weapons. Proc 2010 2nd Int Conf Adv Comput Control. Shenyang, China, p. 271–276.
  • He GJ. 2019. Research on stabilization control of three-degree-of-freedom ship-borne stabilization platform [Master thesis]. Dalian Maritime University.
  • He JF. 2007. Analysis and control of hydraulically driven 6-DOF parallel manipulator [Phd thesis]. Harbin Institute of Technology.
  • Hu X, Du JL, Krstić M. 2019. Robust adaptive regulation of dynamically positioned ships with unknown dynamics and unknown disturbances. Int J Adapt Control Signal Process. 33(3):545–556.
  • Hu X, Wei XJ, Kao YG, Han J. 2022. Robust synchronization for under-actuated vessels based on disturbance observer. IEEE Trans Intell Transp Syst. 23(6):5470–5479.
  • Huang YX, Hu YF, Wu JB. 2022. Practical observer-based path following control of the guide ship with propeller and rudder in the underway replenishment. Ships Offshore Struct. 17(3):506–517.
  • Krstić M, Kanellakopoulos I, Kokotović P. 1995. Nonlinear and adaptive control design. New York (NY): John Wiley & Sons.
  • Kwan CM, Dawson DM, Lewis FL. 1995. Robust adaptive control of robots using neural network: global tracking stability. Proc. 34th Conf. Decision Control, New Orieans, LA, Dec. p: 1846–1851.
  • Li J, Du JL, Chen CLP. 2022b. Command-filtered robust adaptive NN control with the prescribed performance for the 3-D trajectory tracking of underactuated AUVs. IEEE Trans Neural Netw Learn Syst. Published online. doi:10.1109/TNNLS.2021.3082407
  • Li SH, Yang J, Chen WH, Chen XS. 2014. Disturbance observer-based control: methods and applications. Boca Raton (FL): CRC Press.
  • Li YM, Min X, Tong SC. 2020. Adaptive fuzzy inverse optimal control for uncertain strict-feedback nonlinear systems. IEEE Trans Fuzzy Syst. 28(10):2363–2374.
  • Li YM, Min X, Tong SC. 2021. Observer-based fuzzy adaptive inverse optimal output feedback control for uncertain nonlinear systems. IEEE Trans Fuzzy Syst. 29(6):1484–1495.
  • Li YM, Shao XF, Tong SC. 2019. Adaptive fuzzy prescribed performance control of nontriangular structure nonlinear systems. IEEE Trans Fuzzy Syst. 28(10):2416–2426.
  • Li Z, Ma X, Li YB, Meng QL, Li J. 2022a. ADRC-ESMPC active heave compensation control strategy for offshore cranes. Ships Offshore Struct. 15(10):1098–1106.
  • Liu WJ, Du JL, Li J, Li Z. 2022. Stabilization control of 3-DOF parallel vessel-borne platform with dynamic uncertainties and unknown disturbances. Appl. Ocean Res. 126:1–11.
  • Ma Y, Nie ZQ, Hu SL, Li ZX, Malekian R, Sotelo M. 2021. Fault detection filter and controller co-design for unmanned surface vehicles under DoS attacks. IEEE Trans Intell Transp Syst. 22(3):1422–1434.
  • Meng Q, Zhang T, Gao X, Song JY. 2014. Adaptive sliding mode fault-tolerant control of the uncertain stewart platform based on offline multibody dynamics. IEEE ASME Trans Mechatron. 19(3):882–894.
  • Ohishi K, Nakao M, Ohnishi K, Miyachi K. 1987. Microprocessor-controlled DC motor for load-insensitive position servo system. IEEE Trans Ind Electron. 34(1):44–49.
  • Pang H, Yao R, Wang P, Xu ZJ. 2021. Adaptive backstepping robust tracking control for stabilizing lateral dynamics of electric vehicles with uncertain parameters and external disturbances. Control Eng Pract. 110:1–10.
  • Pang H, Zhang X, Chen JN, Liu K. 2019b. Design of a coordinated adaptive backstepping tracking control for nonlinear uncertain active suspension system. Appl Math Model. 76:479–494.
  • Pang H, Zhang X, Xu ZR. 2019a. Adaptive backstepping-based tracking control design for nonlinear active suspension system with parameter uncertainties and safety constraints. ISA Trans. 88:23–36.
  • Pang H, Zhang X, Yang JJ, Shang YT. 2019c. Adaptive backstepping-based control design for uncertain nonlinear active suspension system with input delay. Int J Robust Nonlinear Control. 29(16):5781–5800.
  • Sun HB, Guo L. 2017. Neural network-based DOBC for a class of nonlinear systems with unmatched disturbances. IEEE Trans Neural Netw Learn Syst. 28(2):482–489.
  • Wang RJ, Zhang ZW. 2016. Fuzzy adaptive PID hybrid control for airborne platform mounted on mUAV. Proc IEEE Inf Technol Netw Electronic Autom Control Conf. Chongqing, China, p. 737–741.
  • Wei XJ, Wu ZJ, Karimi HR. 2016. Disturbance observer-based disturbance attenuation control for a class of stochastic systems. Automatica. 63:21–25.
  • Xu GX, Du JL, Sun YQ, Chang WJ. 2022. Output feedback synchronization control for supply vessels during underway replenishment with unknown dynamics and disturbances under input saturation. Ships Offshore Struct. 17(8):1–11.
  • Xu M, Du JL, He GJ, Sun YQ, Li DH. 2020. Stability control of parallel three-DOF ship-borne stabilization platform based on ADRC. J Dalian Maritime Univ. 46(1):20–28.
  • Yang Y, Du JL, Guo C, Abraham A. 2014. A trajectory tracking robust controller of surface vessels with disturbance uncertainties. IEEE Trans Control Syst Technol. 22(4):1511–1518.
  • Zhang HF, Wei XJ, Zhang LY. 2020. Disturbance observer-based control for a class of strict-feedback nonlinear systems with derivative-bounded disturbances. Trans Inst Meas Control. 42(14):2601–2610.
  • Zhu GB, Ma Y, Li ZX, Malekian R, Sotelo M. 2021. Adaptive neural output feedback control for MSVs with predefined performance. IEEE Trans Veh Technol. 70(4):2994–3006.
  • Zhu GB, Ma Y, Li ZX, Malekian R, Sotelo M. 2022. Event-triggered adaptive neural fault-tolerant control of underactuated MSVs with input saturation. IEEE Trans Intell Transp Syst. 23(7):7045–7057.

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