On Designing of Sliding-Mode Control for Stochastic Jump Systems

“…MJSs are also appropriate and reasonable to describe systems subject to abrupt variation in their structures or parameters, which caused by failures of subsystems, sudden environmental changes, and system noises. It is a fact that transition probability plays an important role in the performance of such systems, under the assumption that the transition probabilities of MJSs are time invariant, some problems have been studied, such as system analysis [2,3], stochastic stability and stabilization [4], control [5][6][7][8][9][10][11][12], fault detection and filtering [13][14][15][16][17], fault tolerant and estimation [18,19] etc. Some work has also been done on systems with partially known or uncertain transition probability (see, e.g., [20][21][22][23][24] and the references therein).…”

Observer-basedH_∞control on nonhomogeneous Markov jump systems with nonlinear input

“…MJSs are also appropriate and reasonable to describe systems subject to abrupt variation in their structures or parameters, which caused by failures of subsystems, sudden environmental changes, and system noises. It is a fact that transition probability plays an important role in the performance of such systems, under the assumption that the transition probabilities of MJSs are time invariant, some problems have been studied, such as system analysis [2,3], stochastic stability and stabilization [4], control [5][6][7][8][9][10][11][12], fault detection and filtering [13][14][15][16][17], fault tolerant and estimation [18,19] etc. Some work has also been done on systems with partially known or uncertain transition probability (see, e.g., [20][21][22][23][24] and the references therein).…”

Observer-basedH_∞control on nonhomogeneous Markov jump systems with nonlinear input

“…Among this work, T-S fuzzy systems and Markovian jump systems are two representative classes of dynamical systems. Over the past decades, many meaningful results have been published on the sliding mode control of either T-S fuzzy systems [10,11,12,13] or Markovian jump systems [14,15,16,17,18,19,20]. However, relatively little attention has been focused on research into sliding mode control for composite systems comprising the two classes of systems, namely Markovian jump T-S fuzzy systems [21,22], despite their wide application [23,24,25,26].…”

Integral sliding mode control for Markovian jump T–S fuzzy descriptor systems based on the super‐twisting algorithm

“…For example, In [25], a special integral-type switching function is constructed to guarantee that the system dynamics lies on the specified sliding surface. Very recently, the SMC problem of Markovian jump systems (MJSs) has gained particular research interests because of their practical applications in a variety of areas [5], [6], [19], [20], [28], [33]. The main reason could be that MJSs are very appropriate to model the dynamic systems whose structures are subject to random abrupt variation [26], [27].…”

Almost sure H ∞ sliding mode control for nonlinear stochastic systems with Markovian switching and time-delays