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VII.1 Hille-Yosida Theorem

VII.1 Hille-Yosida Theorem. VII.1 Definition and Elementary Properties of maximal monotone operators. Maximal Monotone. Let H be a real Hilbert space and let. be an unbounded. linear operator . A is called monotone if. A is called maximal monotone if furthermore. i.e. Proposition VII.1.

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VII.1 Hille-Yosida Theorem

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  1. VII.1 Hille-Yosida Theorem

  2. VII.1 Definition and Elementary Properties of maximal monotone operators

  3. Maximal Monotone Let H be a real Hilbert space and let be an unbounded linear operator . A is called monotone if A is called maximal monotone if furthermore i.e.

  4. Proposition VII.1 Let A be maximal monotone. Then (a) D(A) is dense in H (b) A is closed. (c) For every is a bijection from D(A) onto H is a bounded operator with

  5. Yosida Regularization of A Let A be maximal monotone, for each let (by Prop.VII.1 ) is called a resolvent of A and is called Yosida regularization of A

  6. Proposition VII. 2 p.1 Let A be maximal monotone, Then (a1) (a2) (b) (c)

  7. Proposition VII. 2 p.2 (d) (e) (f)

  8. VII.2 Solution of problem of evolution

  9. Theorem VII.3 Cauchy, Lipschitz. Picard Let E be a Banach space and F be a mapping From E to E such that there is a unique then for all such that

  10. Lemma VII.1 If is a function satisfing , then the functions and are decreasing on

  11. Theorem VII.4 (Hille-Yosida) p.1 Let A be a maximal monotone operator in a Hilbert space H then for all there is a unique s.t.

  12. Theorem VII.4(Hille-Yosida) where D(A) is equipped with graph norm i.e. for Furthermore, and

  13. Lemma VI.1 (Riesz-Lemma) Let For any fixed , apply Green’s second identity to u and in the domain we have and then let

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