716 Methods for Solving Grid Equationsand Ct= /3 = 1 for .\(Ai)= ~ 1 , .\(A2) = ~ 2 , the constants p, q, r, T) are
found by the formulas( 14)l-t
T)=l+t' t=(~1 - c51) (~2 - c52)
(~1 + c52) (~2 + c51),(15)
r= --------~ ~1 - ~2 + (~1 + ~2) pwith x > t and p > 0.
l-p
q = r+--
~1At the next stage, with reasonable accuracy c > 0 and knowledge of
the spectral bounds be,, ~CY of the operators ACY simple algebra gives TJ, p, q,
r by formulas (14)-(15). When providing a prescribed accuracy c > 0, that
is, II Yn - u II < E II Yo - u 11, it is necessary to perform n = n(c) iterations
that can be most readily evaluated by the approximate formula(16)1 4 4
n(c) ~ - In - In -.
7f2 [ 17In the new notations2 j - 1
(} -- ~ 16 T) 2 (1 + ~ 2 T) 2) , (]' = j = 1,2, ... ,n,
2 1)the quantities wj are specified by the formulasw. - ---------(1+2G)(l+G")
) - 2eaf2(l+e1-a+e1+a)' j=l,2,. .. ,n.In agreement with (10) the undetermined parameters become
(l)_qwj+r
T· J - l + wj p 'making it possible to solve problem (7).
It should be noted that for particular values c5 1 = c52 = c5 and ~ 1 =
~2 = ~ formulas (14)-(15) give x = ~, p = r = 0, q = 1/ ~ and ~ =
(1-17)/(l + TJ), 17 = c5/~. Via transforms (9)-(10), amounting for now to