References
- Bartoszewicz, A. (2006). Nonlinear flow control strategies for connection-oriented communication networks, IEE Proceedingson Control Theory and Applications (Part D)153(1): 21-28.
- Bartoszewicz, A. and Zuk, J. (2009). Discrete time sliding mode flow controller for multi-source single-bottleneck connection-oriented communication networks, Journal ofVibration and Control 15(11): 1745-1760.
- Drazenovic, B. (1969). The invariance conditions in variable structure systems, Automatica 5(3): 287-295.
- Edwards, C., Alwi, H. and Tan, C.P. (2012). Sliding mode methods for fault detection and fault tolerant control with application to aerospace systems, International Journal of AppliedMathematics and Computer Science 22(1): 109-124, DOI: 10.2478/v10006-012-0008-7.
- Edwards, C. and Spurgeon, S. (1994). On the development of discontinuous observers, International Journal of Control59(4): 1211-1229.
- Emelyanov, S.V. (1967). Variable Structure Control System, Nauka, Moscow.
- Floquet, T., Edwards, C. and Spurgeon, S. (2007). On sliding mode observers for systems with unknown inputs, InternationalJournal of Adaptive Control and Signal Processing21(8-9): 638-656.
- Fridman, L., Levant, A. and Davila, J. (2007). Observation of linear systems with unknown inputs via high-order sliding-modes, International Journal of Systems Science38(10): 773-791.
- Gao, W., Wang, Y. and Homaifa, A. (1995). Discrete-time variable structure control systems, IEEE Transactions on IndustrialElectronics 42(2): 117-122.
- Haskara, I., Ozguner, U. and Utkin, V. (1998). On sliding mode observers via equivalent control approach, InternationalJournal of Control 71(6): 1051-1067.
- Hung, J.Y., Gao, W. and Hung, J.C. (1993). Variable structure control: A survey, IEEE Transactions on Industrial Electronics40(1): 2-22.
- Ignaciuk, P. and Bartoszewicz, A. (2008). Linear quadratic optimal discrete-time sliding-mode controller for connectionoriented communication networks, IEEE Transactions onIndustrial Electronics 55(11): 4013-4021.
- Ignaciuk, P. and Bartoszewicz, A. (2009). Linear quadratic optimal sliding mode flow control for connection-oriented communication networks, International Journal of Robustand Nonlinear Control 19(4): 442-461.
- Ignaciuk, P. and Bartoszewicz, A. (2011). Discrete-time slidingmode congestion control in multisource communication networks with time-varying delay, IEEE Transactions onControl Systems Technology 19(4): 852-867.
- Ignaciuk, P. and Bartoszewicz, A. (2013). Congestion Controlin Data Transmission Networks: Sliding Mode and OtherDesigns, Springer-Verlag, London.
- Jin, J., Wang, W. and Palaniswami, M. (2009). A simple framework of utility max-min flow control using sliding mode approach, IEEE Communications Letters 13(5): 360-362.
- Jing, Y., He, L., Dimirovski, G. and Zhu, H. (2007). Robust stabilization of state and input delay for active queue management algorithm, Proceedings of the American ControlConference, New York, NY, USA, pp. 3083-3087.
- Jing, Y., Yu, N., Kong, Z. and Dimirovski, G. (2008). Active queue management algorithm based on fuzzy sliding model controller, Proceedings of the 17th IFAC WorldCongress, Seoul, Korea, pp. 6148-6153.
- Kwakernaak, H. and Sivan, R. (1972). Linear Optimal ControlSystems, Wiley-Interscience, New York, NY.
- Levant, A. (1993). Sliding order and sliding accuracy in sliding mode control, International Journal of Control58(6): 1247-1263.
- Mnasri, C. and Gasmi, M. (2011). LMI-based adaptive fuzzy integral sliding mode control of mismatched uncertain systems, International Journal of Applied Mathematics andComputer Science 21(4): 605-615, DOI: 10.2478/v10006-011-0047-5.
- Pietrabissa, A., Priscoli, F. D., Fiaschetti, A. and Paolo, F. D. (2006). A robust adaptive congestion control for communication networks with time varying delays, Proceedingsof the IEEE International Conference on Control Applications,Munich, Germany, pp. 2093-2098.
- Sira-Ramirez, H. (1993). On the dynamical sliding mode control of nonlinear systems, International Journal of Control57(5): 1039-1061.
- Tomera, M. (2010). Nonlinear controller design of a ship autopilot, International Journal of Applied Mathematics andComputer Science 20(2): 271-280, DOI: 10.2478/v10006-010-0020-8.
- Utkin, V. (1977). Variable structure systems with sliding modes, IEEE Transactions on Automatic Control 22(2): 212-222.
- Utkin, V. and Shi, J. (1996). Integral sliding mode in systems operating under uncertainty conditions, 35th IEEE Conferenceon Decision and Control, Kobe, Japan, pp. 4591-4596.
- Veluvolu, K.C. and Soh, Y.C. (2009). Discrete-time slidingmode state and unknown input estimations for nonlinear systems, IEEE Transactions on Industrial Electronics56(9): 3443-3345.
- Yan, M., Kolemisevska-Gugulovska, T., Jing, Y. and Dimirovski, G. (2007). Robust discrete-time sliding-mode control algorithm for TCP networks congestion control, Proceedings of TELSIKS, Niˇs, Serbia, pp. 393-396.
- Yang, M., Jing, Y., Dimirovski, G. and Zhang, N. (2007). Stability and performance analysis of a congestion control algorithm for networks, Proceedings of the 46th IEEE Conferenceon Decision and Control, New Orleans, LA, USA, pp. 4453-4458.
- Zhang, N., Yang, M., Jing, Y. and Zhang, S. (2009). Congestion control for DiffServ network using second-order sliding mode control, IEEE Transactions on Industrial Electronics56(9): 3330-3336.
- Zheng, X., Zhang, N., Dimirovski, G. and Jing, Y. (2008). Adaptive sliding mode congestion control for DiffServ network, Proceedings of the 17th IFAC World Congress, Seoul, Korea, pp. 12983-12987.