Qijing Qin∗,∗∗,∗∗∗ Ziming Kou∗,∗∗,∗∗∗ Guijun Gao∗,∗∗,∗∗∗ and Xiangyang Ye∗,∗∗,∗∗∗
[1] G Wang, New technological progress of coal mine intelligenceand its problems, Coal Science and Technology, 50(1), 2022,1–27. [2] H. Dong, S. Gao, and B. Ning, Cooperative control synthesisand stability analysis of multiple trains under moving signalingsystems, IEEE Transactions on Intelligent TransportationSystems, 17(10), 2016, 2730–2738. [3] S. Ge, E. Hu, and W. Pei, System and key technology of coalmine robot, Journal of China Coal Society, 45 (1), 2020,m455–463 [4] H. Zhou, F. Jia, H. Jing, Z. Liu, and L. G¨uven¸c, Coordinatedlongitudinal and lateral motion control for four wheelindependent motor-drive electric vehicle, IEEE Transactionson Vehicular Technology, 67(5), 2018, 3782–3790. [5] L. Zhai, T. Sun, and J. Wang, Electronic stability controlbased on motor driving and braking torque distribu-tion for a four in-wheel motor drive electric vehicle,IEEE Transactions on Vehicular Technology, 65(6), 2016,4726–4739. [6] X. Wu, L. Yang, and M. Xu, Speed following control fordifferential steering of 4WID electric vehicle, in Proceeding ofthe IECON 40th Annual Conference of the IEEE IndustrialElectronics Society, Dallas, TX, 2014, 3054–3059. [7] T. Chen, X. Xu, Y. Li, W. Wang, and L. Chen,Speed-dependent coordinated control of differential andassisted steering for in-wheel motor driven electric vehicles,Proceedings of the Institution of Mechanical Engineers,Part-D: Journal of Automobile Engineering, 232(9), 2018,1206–1220.9 [8] D. Zhang, C. Yang, W. Zhang, and Y. Cheng, Anadaptive tracking control method for the all-wheel-drivingand active-steering articulated vehicle with n-units, Pro-ceedings of the Institution of Mechanical Engineers, PartD: Journal of Automobile Engineering, 236(9), 2022,2120–2137. [9] B. Sun, Z. Liu, T. Cui, M. Li, H. Li, and W. Wang,New structure for train-like vehicle and its path trackingmethod, Journal of Mechanical Engineering, 54(24), 2018,181–188. [10] A. Ayeb and A. Chatti, Sliding mode control of nonholo-nomic uncertain perturbed wheeled mobile robot, Inter-national Journal of Robotics and Automation, 36(5),2021, 274–282. [11] V.T. La, S. Huang, T.D. Tran, and D.H. Vu, Adaptive robustbackstepping sliding mode control of a de-icing industrial robotmanipulator using neural network with dead zone, InternationalJournal of Robotics and Automation, 36(3), 2021, 154–169. [12] L. Wang, L.-J. Zhang, H.-M. Jia, and H.-B. Wang, Horizontaltracking control for AUV based on nonlinear sliding mode,in Proceeding of the IEEE International Conference onInformation and Automation, Shenyang, 2012, 460–463. [13] J. Zhang, S. Yu, and Y. Yan, Fixed-time velocity-freesliding mode tracking control for marine surface vessels withuncertainties and unknown actuator faults, Ocean Engineering,201, 2020, 107107. [14] S. Wang, L. Tao, Q. Chen, J. Na, and X. Ren, USDE-basedsliding mode control for servo mechanisms with unknownsystem dynamics, IEEE/ASME Transactions on Mechatronics,25(2), 2020, 1056–1066. [15] J. Zhang, Z. Ren, C. Deng, and B. Wen, Adaptive fuzzy globalsliding mode control for trajectory tracking of quadrotor UAVs,Nonlinear Dynamics, 97 ,2019, 609–627. [16] J. Fei and Y. Chen, Fuzzy double hidden layer recurrent neuralterminal sliding mode control of single-phase active powerfilter, IEEE Transactions on Fuzzy Systems, 29(10), 2020,3067–3081. [17] J. Wang, L. Zhao, and L. Yu Adaptive terminal slidingmode control for magnetic levitation systems with enhanceddisturbance compensation, IEEE Transactions on IndustrialElectronics, 68(1), 2020, 756–766. [18] X. Sun, L. Feng, Z. Zhu, G. Lei, K. Diao, Y. Guo, and J. Zhu,Optimal design of terminal sliding mode controller for directtorque control of SRMs, IEEE Transactions on TransportationElectrification, 8(1), 2021, 1445–1453. [19] J. Fei, Y. Chen, L. Liu, and Y. Fang, Fuzzy multiple hidden layerrecurrent neural control of nonlinear system using terminalsliding-mode controller, IEEE Transactions on Cybernetics,52(9), 2021, 9519–9534. [20] O. Mofid, S. Mobayen, and W.K. Wong, Adaptive terminalsliding mode control for attitude and position tracking controlof quadrotor UAVs in the existence of external disturbance,IEEE Access, 9, 2020, 3428–3440. [21] B. Gao, Y.J. Liu, and L. Liu, Adaptive neural fault-tolerantcontrol of a quadrotor UAV via fast terminal sliding mode,Aerospace Science and Technology, 129, 2022, 107818. [22] D. Cruz-Ortiz, I. Chairez, and A. Poznyak, Non-singularterminal sliding-mode control for a manipulator robot usinga barrier Lyapunov function, ISA Transactions, 121, 2022,268–283. [23] J. Zhai and G. Xu, A novel non-singular terminal sliding modetrajectory tracking control for robotic manipulators, IEEETransactions on Circuits and Systems II: Express Briefs, 68(1),2020, 391–395. [24] Y. Tian, Y. Cai, and Y. Deng, A fast nonsingular terminalsliding mode control method for nonlinear systems with fixed-time stability guarantees, IEEE Access, 8, 2020, 60444–60454. [25] H. Zou, G. Zhang, and J. Hao, Nonsingular fast terminal slidingmode tracking control for underwater glider with actuatorphysical constraints, ISA Transactions, 146, 2024, 249–262. [26] D. Xu, B. Ding, B. Jiang, W. Yang, and P. Shi, Nonsingularfast terminal sliding mode control for permanent magnet linearsynchronous motor via high-order super-twisting observer,IEEE/ASME Transactions on Mechatronics, 27(3), 2021,1651–1659. [27] A.K. Junejo, W. Xu, C. Mu, and Y. Liu, Improved continuousfast terminal sliding mode control for speed regulationof surface-mounted permanent magnet synchronous motor,in Proceeding of the 2018 21st International Conferenceon Electrical Machines and Systems (ICEMS), Jeju, 2018,93–98. [28] Y. Lu, C. Tan, W. Ge, Y. Zhao, and G. Wang, Adaptivedisturbance observer-based improved super-twisting slidingmode control for electromagnetic direct-drive pump, SmartMaterials and Structures, 32(1), 2022, 017001. [29] H. Sun, L. Gao, Z. Zhao, and B. Li, Adaptive super-twisting fastnonsingular terminal sliding mode control with ESO for high-pressure electro-pneumatic servo valve, Control EngineeringPractice, 134, 2023, 105483. [30] C. Tan, Y. Lu, and W. Ge, Deep fuzzy sliding mode activedisturbance rejection control for direct drive permanent magnetlinear motor, Journal of Xi’an Jiaotong University, 57(1),2023,185–194. [31] B. Qin, H. Yan, L. Zeng, S.X. Yang, and M. Wang, Enhancedextended state observer based output-feedback tracking controlof wheeled mobile robot with disturbance, InternationalJournal of Robotics and Automation, 39(5), 2024, 422–430. [32] W. Luo and S. Liu, Disturbance observer based nonsingularfast terminal sliding mode control of underactuated AUV,Ocean Engineering, 279, 2023, 114553. [33] H. Qin, J. Si, N. Wang, and L. Gao, Fast fixed-time nonsingularterminal sliding-mode formation control for autonomousunderwater vehicles based on a disturbance observer, OceanEngineering, 270, 2023, 113423. [34] L. Zhang, W. Ao, H. Zhang, P. Liu, Z. Li, and L.I. Minchala,Dynamics modeling and trajectory tracking control of a lifesupport robot using sliding-mode control with extended stateobserver, Journal of the Franklin Institute, , 361, 2024, 107013. [35] B. Xu, L. Zhang, and W. Ji, Improved non-singular fast terminalsliding mode control with disturbance observer for PMSMdrives, IEEE Transactions on Transportation Electrification,7(4), 2021, 2753–2762. [36] F. Alyoussef and I. Kaya, Improved adaptive dynamic non-singular terminal sliding mode controller with fractionaldisturbance observer, Information Sciences, 641, 2023, 119110. [37] T. Wang, Y. Liu, and X. Zhang, Extended state observer-based fixed-time trajectory tracking control of autonomoussurface vessels with uncertainties and output constraints, ISATransactions, 128, 2022, 174–183. [38] M. Fu, L. Yu, and Y. Tuo, Extended state observer-baseddistributed formation control for autonomous surface vesselswith uncertain disturbances, International Journal of Roboticsand Automation, 33(1), 2018, 53–61. [39] K. Liu, H. Ji, and Y. Zhang, Extended state observer basedadaptive sliding mode tracking control of wheeled mobilerobot with input saturation and uncertainties, Proceedings ofthe Institution of Mechanical Engineers, Part-C: Journal ofMechanical Engineering Science, 233(15), 2019, 5460–5476. [40] A.K. Junejo, W. Xu, C. Mu, M.M. Ismail, and Y. Liu, Adaptivespeed control of PMSM drive system based a new sliding-mode reaching law, IEEE Transactions on Power Electronics,35(11), 2020, 12110–12121. [41] J. Wu, J. Zhang, Y. Tian, and L. Li, A novel adaptive steeringtorque control approach for human–machine cooperationautonomous vehicles, IEEE Transactions on TransportationElectrification, 7(4), 2021, 2516–2529. [42] Z. Li, J. Zhang,and B. Tang, Super-twisting nonsingularterminal sliding mode control method for accurate stoppingof high-speed trains, Journal of the China Railway Society,45(12), 2023, 83–91.10
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