Abdel O. Ghrieb,∗ Yahia Kourd,∗∗ Kamel Messaoudi,∗∗ Djamel M. Mouss,∗ and Toufik Bakir∗∗∗
[1] L. Noureddine, A. Hafaifa, and K. Abdellahe, Rotor faultdetection of wind turbine squirrel cage induction generatorusing Teager-Kaiser energy operator, Mechatronic Systems andControl, 45(1), 2017, 2742–2765. [2] T. Hsiao and M.-C. Weng, A hierarchical multiple-modelapproach for detection and isolation of robotic actuator faults,Robotics and Autonomous Systems, 60, 2012, 154–166. [3] A. Wahrburg, B. Matthias, and H. Ding, Cartesian contactforce estimation for robotic manipulators—A fault isolationperspective, IFAC-Papers On Line, 48(21), 2015, 1232–1237. [4] R. Tinos, M. Henrique Terra, and M. Bergerman, A fault toler-ance framework for cooperative robotic manipulators, ControlEngineering Practice, 15, 2007, 615–625. [5] J. Yinghong and X. Shijie, Decentralized adaptive sliding modecontrol of a space robot actuated by control moment gyroscopes,Chinese Journal of Aeronautics, 29(3), 2016, 688–703. [6] L. Simoni, M. Beschi, G. Legnani, and A. Visioli, On theinclusion of temperature in the friction model of industrialrobots, IFAC Papers On Line, 50(1), 2017, 3482–3487. [7] X. Tang and H. Yamada, Tele-operation construction robotcontrol system with virtual reality technology, Procedia Engi-neering, 15, 2011, 1071–1076. [8] T. Ni, H. Zhang, P. Xu, and H. Yamada, Vision-based virtualforce guidance for tele-robotic system, Computers and ElectricalEngineering, 39, 2013, 2135–2144. [9] T. Li, J. Hong, J. Zhang, and F. Guo, Brain–machine interfacecontrol of a manipulator using small-world neural network andshared control strategy, Journal of Neuroscience Methods, 224,2013, 26–38. [10] P. Chotiprayanakul, D.K. Liu, and G. Dissanayake, Human–robot–environment interaction interface for robotic grit-blasting of complex steel bridges, Automation in Construction,27, 2012, 11–23. [11] C.A. Jara, F.A. Candelas, S.T. Puente, and F. Torres, Hands-on experiences of undergraduate students in Automatics andRobotics using a virtual and remote laboratory, Computers &Education, 57, 2011, 2451–2461. [12] I. Eski, S. Erkaya, S. Sava, and S. Yildirim, Fault detection onrobot manipulators using artificial neural networks, Roboticsand Computer-Integrated Manufacturing, 27, 2011, 115–123. [13] Y. Wang, H. Wu, H. Handroos, M. Li, B. Mao, J. Wu,et al., Accuracy improvement studies for remote maintenancemanipulators, Fusion Engineering and Design, 124, 2017, 532–536. [14] M. Vijay and J. Debashisha, PSO based neuro fuzzy slidingmode control for a robot manipulator, Journal of ElectricalSystems and Information Technology, 4, 2017, 243–256. [15] A. Mohammadi, M. Tavakoli, H.J. Marquez, andF. Hashemzadeh, Nonlinear disturbance observer design forrobotic manipulators, Control Engineering Practice, 21, 2013,253–267. [16] R.-J. Wai, Tracking control based on neural network strategyfor robot manipulator, Neurocomputing, 51, 2003, 425–445. [17] O. Barambones and V. Etxebarria, Robust neural control forrobotic manipulators, Automatica, 38, 2002, 235–242. [18] A. Do˘gan, A study on performance of dynamic file replica-tion algorithms for real-time file access in data grids, FutureGeneration Computer Systems, 25, 2009, 829–839. [19] F. Caccavale, F. Pierri, and L. Villani, An adaptive observerfor fault diagnosis in nonlinear discrete-time systems, ASMEJournal of Dynamic Systems, Measurement and Control, 130,2008, 1–9. [20] X. Zhang, M.M. Polycarpou, and T. Parisini, A robust detectionand isolation scheme for abrupt and incipient faults in nonlinearsystems, IEEE Transactions on Automatic Control, 47, 2002,576–593. [21] M. Tashnehlab and S. Menhaj, Modeling trip tours usingANFIS modelling, Engineering Journal of Tehran University,31(3), 2001, 361–370. [22] J.-S.R. Jang, ANFIS: Adaptive-network-based fuzzy inferencesystem, IEEE Transactions on Systems, Man, and Cybernetics,23(3), 1993, 665–685. [23] G.A. Ouahab, K. Yahia, and G. Noureddine, Supervision ofindustrial manipulators using ANFIS system, ICCAS 2017,Int. Conf. on Control, Automation and Systems, RamadaPlaza, Jeju, Korea, October 2017, 18–21. [24] C.-S. Shieh and L.-S. Yang, FPGA Implementation of quickcharger controller for lead-acid battery, Mechatronic Systemsand Control, 43(1), 2015, 2580–2597. [25] M. Kamel, A. Yahi, N. Messaoudi, E.-B. Bourennane, and S.Toumi, Adaptive hardware implementation for the deblockingfilter used in H.264/AVC using system generator, ICESTI’16,Int. Conf. on Embedded Systems in Telecommunications andInstrumentation, Annaba, Algeria, October 2016, 24–26.
Important Links:
Go Back
