摘要
We consider the problem K(x)Uxx = utt , 0 〈 x 〈 1, t 〉 0, with the boundary condition u(O,t) = g(t) E LZ(R) and ux(O,t) = 0, where K(x) is continuous and 0 〈α≤ K (x) 〈 +∞. This is an ill-posed problem in the sense that, if the solution exists, it does not depend continuously on g. Considering the existence of a solution u(x, .) E H2(R) and using a wavelet Galerkin method with Meyer multiresolution analysis, we regularize the ill-posedness of the problem. Furthermore we prove the uniqueness of the solution for this problem.
We consider the problem K(x)Uxx = utt , 0 〈 x 〈 1, t 〉 0, with the boundary condition u(O,t) = g(t) E LZ(R) and ux(O,t) = 0, where K(x) is continuous and 0 〈α≤ K (x) 〈 +∞. This is an ill-posed problem in the sense that, if the solution exists, it does not depend continuously on g. Considering the existence of a solution u(x, .) E H2(R) and using a wavelet Galerkin method with Meyer multiresolution analysis, we regularize the ill-posedness of the problem. Furthermore we prove the uniqueness of the solution for this problem.
