Difference sche1nes as operator equations. General formulations 143and work in the space H 1 of all grid functions defined on the grid wk under
the inner product structure ( y, v] = L~l hyi-l/ 2 vi_ 1 ; 2 +yN vN+Yo V 0 and
the norm 11 y JI = J( y, y ]. As before, H is the space of all grid functions
defined on the uniform grid wh ={xi= ih, i = 0, l, ... , N,h = 1/ N}
with the inner product ( y, v) = L~~^1 Yi vi h+ ~ h (Yo v 0 + yN vN) and the
associated norm II y II = J( y, y ). We specify the operators T: H f--+ H 1
and T*: H 1 f--+ H as follows:(TY)o =Yo, ( )
Yi - Yi-1
Tyi-1/2= h , i:= 1,2, ... ,N,(T* ) = _ v 1/2 - v a
y^0 0.5 h 0.5 h(T* v )· ' = _ Vi+l/2 -h Vi-1/2 ' i = 1, 2, ... , N - 1, y EH,
This provides support for the view that A = T* ST, where the operator
S: H 1 f--+ H 1 is defined by the relations
(Sy)o = CJ'1 Yo, (SY )i-1/2 = ai Yi-1/2,
(Sy)N = CJ'2YN ·
Obviously, S is a self-adjoint operator in H 1 and (Sy, y] > c 1 11yJ1^2 with
constant c 1 = min ( ai, CJ' 1 , CJ' 2 ). Let us show that the operators T and T
are mutually adjoint in the following sense: ( T v, y) = ( v, Ty] for y E H,
v E H 1. Indeed,
N-1
( T*v, Y) = - L ( Vi+l/2 - vi-l/2) Yi - Yo ( V1;2 - Va)
i=lN
= L Vi-1/2 (Yi - Yi-1) +Yo Vo - YN VN
i=l=(v,Ty].
vVe are now in a position to derive some a priory estimates for the equation
Ay =T'S Ty= <p. Under the natural premise S > c 1 E, c 1 > 0, we obtain