2017
DOI: 10.1007/s00498-017-0194-9
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Stochastic finite-time partial stability, partial-state stabilization, and finite-time optimal feedback control

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Cited by 27 publications
(7 citation statements)
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References 30 publications
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“…Extensions of this framework for exploring connections between optimal finite‐time stabilization and finite‐time stabilization for stochastic dynamical systems are currently under development. The proposed framework can also allow us to further explore connections with stochastic inverse optimal control, stochastic dissipativity, and stability margins for finite‐time stabilizing regulators that minimize a derived cost functional involving subquadratic terms.…”
Section: Resultsmentioning
confidence: 99%
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“…Extensions of this framework for exploring connections between optimal finite‐time stabilization and finite‐time stabilization for stochastic dynamical systems are currently under development. The proposed framework can also allow us to further explore connections with stochastic inverse optimal control, stochastic dissipativity, and stability margins for finite‐time stabilizing regulators that minimize a derived cost functional involving subquadratic terms.…”
Section: Resultsmentioning
confidence: 99%
“…These results provide a generalization of the deterministic meaningful inverse optimal nonlinear regulator stability margins and the classical linear-quadratic optimal regulator gain and phase margins to stochastic nonlinear feedback regulators. Extensions of this framework for exploring connections between optimal finite-time stabilization 27,28 and finite-time stabilization 29 for stochastic dynamical systems are currently under development. The proposed framework can also allow us to further explore connections with stochastic inverse optimal control, stochastic dissipativity, and stability margins for finite-time stabilizing regulators that minimize a derived cost functional involving subquadratic terms.…”
Section: Resultsmentioning
confidence: 99%
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“…It is easy to verify that graph (D) is an undirected and connected topology. According to Theorem 2, the protocol (34) can solve fixed-time consensus problem of SMASs (3). That is to say, agents states converge to final state y(0) in fixed-time in probability, and associated T (x 0 , w) satisfies the following inequality:…”
Section: Proof Letmentioning
confidence: 99%
“…If Assumptions (i)-(iii) hold, then SMASs (3) with the protocol (2) can achieve fixed-time consensus in probability, and associated settling time T (x, 𝜔) satisfies E (T (x, 𝜔)) ≤ c, where c is a positive constant independent of initial conditions.…”
Section: Theorem 3 Consider Smas (3) Under a Detail-balanced Graph (A)mentioning
confidence: 99%