The best trigonometric and bilinear approximations for functions of many variables from the classes \(B^ r_{p,\theta}\). II (Q1344973)

Continuing the consideration of his previous paper [Ukr. Mat. Zh. 45, No. 5, 663-675 (1993; preceding review)] the author has obtained asymptotics of widths \(e_ M (B^ r_{p,\theta}, L_ q)\) and \(d_ M (B^ r_{p,\theta}, L_ q)\) for some new cases. As an application he obtains the asymptotic of \[ \tau_ M (B^ r_{p, \theta}; L_{q_ 1, q_ 2}):= \sup_{f\in B^ r_{p,\theta}} \tau_ M (f; L_{q_ 1, q_ 2}) \] where \(L_{q_ 1, q_ 2}= L_{q_ 2} (\mathbb{T}^ m, L_{q_ 1} (\mathbb{T}^ m))\) and \[ \tau_ M (f; L_{q_ 1, q_ 2})= \inf_{u_ i, v_ i} \biggl\| f(x,y)= \sum_ 1^ M u_ i (x) v_ i(y) \biggr\|_{q_ 1, q_ 2}. \] [For Part I see Ukr. Mat. Zh. 44, No. 11, 1535-1547 (1992; Zbl 0793.42009)].