Controlled Markov Processes and Viscosity SolutionsThis book is intended as an introduction to optimal stochastic control for continuous time Markov processes and to the theory of viscosity solutions. |
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Page 42
... implies the following . There exists a constant R1 such that | p | ≤ B and L ( s , y , v ) + v⋅p ≤ c1 imply v≤ R1 . By ( 9.2c ) and ( 9.6 ) L ( S , XR ( S ) , UR ( S ) ) + UR ( s ) · PR ( 8 ) ≤ L ( s , xp ( s ) , 0 ) ≤ c1 for ...
... implies the following . There exists a constant R1 such that | p | ≤ B and L ( s , y , v ) + v⋅p ≤ c1 imply v≤ R1 . By ( 9.2c ) and ( 9.6 ) L ( S , XR ( S ) , UR ( S ) ) + UR ( s ) · PR ( 8 ) ≤ L ( s , xp ( s ) , 0 ) ≤ c1 for ...
Page 72
... implies that there is ( tn , xn ) → ( t , x ) , as n → ∞ , such that ( tn , In ) is a local maximum of Ww " . Set ... implies that Definition 4.1 with either choice of D and Definition 4.2 are equivalent for any partial differen- tial ...
... implies that there is ( tn , xn ) → ( t , x ) , as n → ∞ , such that ( tn , In ) is a local maximum of Ww " . Set ... implies that Definition 4.1 with either choice of D and Definition 4.2 are equivalent for any partial differen- tial ...
Page 262
... implies Etx [ ^ * ~ \ u ° * ( s ) \ 2ds < ∞0 . This implies that Tt1 , with probability 1 , and hence also ( 3.8 ) . = If x * ( s ) is interpreted as the position at time s of a particle in R under- going a stochastic motion governed ...
... implies Etx [ ^ * ~ \ u ° * ( s ) \ 2ds < ∞0 . This implies that Tt1 , with probability 1 , and hence also ( 3.8 ) . = If x * ( s ) is interpreted as the position at time s of a particle in R under- going a stochastic motion governed ...
Other editions - View all
Controlled Markov Processes and Viscosity Solutions Wendell H. Fleming,Halil Mete Soner Limited preview - 2006 |
Controlled Markov Processes and Viscosity Solutions Wendell H. Fleming,Halil Mete Soner No preview available - 2006 |
Common terms and phrases
admissible control assume assumptions boundary condition boundary data bounded c₁ C¹(Q calculus of variations Chapter classical solution consider constant continuous on Q convergence convex Corollary cylindrical region defined definition denote dynamic programming equation dynamic programming principle Dynkin formula Example exists exit finite first-order formulation Hamilton-Jacobi equation Hence HJB equation holds implies inequality initial data lateral boundary Lemma lim sup linear Lipschitz continuous Markov chain Markov control policy Markov processes maximum principle minimizing Moreover nonlinear obtain optimal control optimal control problem partial derivatives partial differential equation proof of Theorem prove result satisfies second-order Section semigroup stochastic differential equation Suppose t₁ test function Theorem 5.1 uniformly continuous unique value function variations problem Verification Theorem viscosity solution viscosity subsolution viscosity supersolution yields