This paper investigates the trajectory-tracking control problem of quadrotor unmanned aerial vehicles (UAVs) subject to unknown external disturbances. A nonsingular fixed-time sliding mode control scheme integrated with an adaptive predefined-time disturbance observer is proposed to achieve fast and robust tracking performance. The proposed observer enables accurate disturbance estimation within a predefined time without requiring prior knowledge of disturbance bounds, while a novel nonsingular fixed-time sliding surface guarantees convergence with an explicit time bound independent of initial conditions and avoids singularity issues. By combining disturbance compensation with the nonsingular sliding surface, a fixed-time sliding mode controller is developed to ensure high-precision trajectory-tracking and smooth control performance. Simulation results demonstrate that the proposed method achieves fast fixed-time convergence, strong robustness against disturbances, and reduced chattering, highlighting its effectiveness for practical quadrotor UAV applications.
AbdillahMMellouliEMHaidiT (2024) A new intelligent controller based on integral sliding mode control and extended state observer for nonlinear MIMO drone quadrotor. International Journal of Intelligent Networks5: 49–62.
2.
AhmadiKAsadiDMerhebA, et al. (2023) Active fault-tolerant control of quadrotor UAVs with nonlinear observer-based sliding mode control validated through hardware-in-the-loop experiments. Control Engineering Practice137: 105557.
3.
BaniAsadAPordalRSharifiA, et al. (2024) Attitude control of a 3-DoF quadrotor platform using a linear quadratic integral differential game approach. ISA Transactions148: 515–527.
4.
BrahimKSEl HajjajiATerkiN, et al. (2022) Anti-saturation finite-time adaptive altitude quadrotor control under unknown disturbances. IFAC PapersOnLine55(22): 287–292.
5.
CaoCLuoZZhaoZ (2024) Event-triggered adaptive control for quadrotor unmanned aerial vehicle with prescribed performance. Transactions of the Institute of Measurement and Control46(16): 3073–3081.
6.
ChenPTanJYaoY, et al. (2025) Unified prescribed-time performance control for HOSNs with input saturation. Journal of the Franklin Institute2025: 107760.
7.
ChenYLiFZhangL (2024) Fixed-time nonsingular terminal sliding mode control for trajectory tracking of uncertain robot manipulators. Transactions of the Institute of Measurement and Control46(12): 2414–2425.
8.
ChenZZhangHXiaoB (2023) Appointed-time nonsingular sliding mode control of spacecraft attitude stabilization. IET Control Theory & Applications17(14): 1944–1954.
9.
DongRQQiWNLyuX (2024) Singularity-free fixed-time sliding mode control for a class of nonlinear systems. Aerospace Science and Technology146: 108952.
10.
LeWXiePChenJ (2025) Disturbance rejection control of the agricultural quadrotor based on adaptive neural network. Information Processing in Agriculture12(2): 169–178.
11.
LiYZhuMAnB, et al. (2025) Three-dimensional cooperative guidance laws with impact velocity and impact angles constraints. Aerospace Science and Technology159: 109997.
12.
LiuK (2022) Research on Intelligent Control Algorithm of Quadrotor UAV under Uncertain Environments. University of Science and Technology of China.
13.
LiuXJiaCPingJ (2025) Adjustable predefined time sliding mode control method for nonlinear systems with unknown disturbances. Chaos, Solitons & Fractals199: 116667.
14.
Lopez-SanchezIMoreno-ValenzuelaJ (2023) PID control of quadrotor UAVs: A survey. Annual Reviews in Control56: 100900.
15.
MobayenSEl-SousyFFMAlattasKA, et al. (2023) Adaptive fast-reaching nonsingular terminal sliding mode tracking control for quadrotor UAVs subject to model uncertainties and external disturbances. Ain Shams Engineering Journal14(8): 102059.
16.
MoulayELéchappéVBernuauE, et al. (2022) Fixed-time sliding mode control with mismatched disturbances. Automatica136: 110009.
17.
SanwaleJDahiyaSTrivediP (2023) Robust fault-tolerant adaptive integral dynamic sliding mode control using finite-time disturbance observer for coaxial octorotor UAVs. Control Engineering Practice135: 105495.
18.
ShevidiAHashimHA (2024) Quaternion-based adaptive backstepping fast terminal sliding mode control for quadrotor UAVs with finite-time convergence. Results in Engineering23: 102497.
19.
ShiSZhangGHuY, et al. (2024) Fixed-time second-order sliding mode control for uncertain nonlinear systems subject to non-vanishing mismatched terms. Transactions of the Institute of Measurement and Control46(16): 3093–3103.
20.
SongXWuCSongS, et al. (2024) Fuzzy wavelet neural adaptive finite-time self-triggered fault-tolerant control for a quadrotor unmanned aerial vehicle with scheduled performance. Engineering Applications of Artificial Intelligence131: 107832.
21.
TianMWangNWangZ, et al. (2025) Prescribed-time fault-tolerant tracking control for quadrotor UAV with guaranteed performance. Aerospace Science and Technology161: 110162.
22.
WangXDuanG (2024) Comprehensive reconstructions and predictive control for quadrotor UAV information-gathering tracking missions based on fully actuated system approaches. ISA Transactions147: 540–553.
23.
WeiHJiangY (2024) Adaptive fast nonsingular terminal sliding mode tracking control for quadrotor with disturbances compensation and actuator saturation. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science238(2): 301–319.
24.
XueHLiuX (2023) A novel fast terminal sliding mode with predefined-time synchronization. Chaos, Solitons & Fractals175: 114049.
25.
ZhangMZangHShiZ (2024) A unified Lyapunov-like characterization for predefined time synchronization of nonlinear systems. Nonlinear Dynamics112(11): 8775–8787.
26.
ZhaoZHXiaoLJiangB, et al. (2022) Fast nonsingular terminal sliding mode trajectory tracking control of a quadrotor UAV based on extended state observers. Control and Decision37(9): 2201–2210.
