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About convergence rates in regularization for ill posed operator equations of hammerstein type
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The aim of this paper is to study convergence rates of the regularized solutions in connection with the finite-dimensional approximations for the operator equation of Hammerstein type x+ F2F1(x)=f in reflexive Banach spaces under the perturbations for not only the operators Fi,i=1,2, but also f. | ’ Tap ch´ Tin hoc v` Diˆu khiˆ n hoc, T.23, S.1 (2007), 50—58 ı e e . . a ` . ABOUT CONVERGENCE RATES IN REGULARIZATION FOR ILL-POSED OPERATOR EQUATIONS OF HAMMERSTEIN TYPE NGUYEN BUONG1 , DANG THI HAI HA2 1 Vietnamse Academy of Science and Technology, Institute of Information Technology 2 Vietnamese Forestry University, Xuan Mai, Ha Tay Abstract. The aim of this paper is to study convergence rates of the regularized solutions in connection with the finite-dimensional approximations for the operator equation of Hammerstein type x + F2 F1 (x) = f in reflexive Banach spaces under the perturbations for not only the operators Fi , i = 1, 2, but also f . The conditions of convergence and convergence rates given in this paper for a class of inverse-strongly monotone operators Fi , i = 1, 2, are much simpler than those in the past papers. ´ ´ . . ’ T´m t˘t. Muc d´ cua b`i b´o n`y l` nghiˆn c´.u tˆc dˆ hˆi tu cua nghiˆm hiˆu chınh d˜ du.o.c o a ıch ’ a a a a e u o o o . ’ e e a . . . . ` ´p xı h˜.u han chiˆu cho phu.o.ng tr` to´n tu. loai Hammerstein x + F2 F1 (x) = f trong khˆng ’ . ’ u e ınh a o xˆ a . ˜ ` ’ o ’ a ’ a ’ ’ e e o . e o a ’ gian Banach phan xa v´.i nhiˆu khˆng chı c´ o. c´c to´n tu. Fi , i = 1, 2 m` ca o. f . Diˆu kiˆn hˆi tu . . . o ´ . . ` ´ v` tˆc dˆ hˆi tu trong b`i b´o n`y cho to´n tu. ngu.o.c do.n diˆu manh Fi , i = 1, 2 l` yˆu ho.n nhiˆu a o o o . e a a a a ’ e a e . . . .i c´c kˆt qua tru.´.c. ´ ’ so v´ a e o o 1. INTRODUCTION Let X be a reflexive real Banach space, and X ∗ be its dual which both are strictly convex. For the sake of simplicity the norms of X and X ∗ are denoted by the symbol . . We write x∗ , x or x, x∗ instead of x∗ (x) for x∗ ∈ X ∗ and x ∈ X . Concerning the space X , in addition assume that it possesses the property: the weak convergence and convergence of norms for any sequence follows its strong convergence. Let F1 : X → X ∗ and F2 : X ∗ → X be monotone, in general nonlinear, bounded (i.e. image of any bounded subset is .