Solution of a multipoint problem for a system of ordinary differential equations by a projectional-iterative method (Q801192)

The author considers a multipoint boundary problem for linear systems of ordinary differential equations (1) \(\dot x(t)=P(t)x+f(t)\), (2) \(\sum^{n}_{i=1}W_ ix(t_ i)=\theta_ n\), \(-\infty <q<t_ 1<...<t_{n-1}<t_ n=b\). A projection-iterative method is contained in the reduction of the problems (1)-(2) to the problems (3) \(\dot x- Ax(t)=B(t)x+f(t)\), (4) \(\sum^{n}_{i=1}W_ ix(t_ i)=\theta_ n\). The existence and uniqueness theorem of the problem (3)-(4) in the Hilbert space \(L^ 2_ n(a,b)\) of the n-dimensional vector-functions, the components of which are the elements of space \(L^ 2(a,b)\), is proved.