This paper mainly proposes a new C-XSC (C- for eXtended Scientific Computing) software for the symmetric single step method and relaxation method for computing an enclosure for the solution set and compares the meth...This paper mainly proposes a new C-XSC (C- for eXtended Scientific Computing) software for the symmetric single step method and relaxation method for computing an enclosure for the solution set and compares the methods with others' and then makes some modifications and finally, examples illustrating the applicability of the proposed methods are given.展开更多
In this paper,we point out that the Fourier series of a classical function∑^∞k=1 sin kx/k has the Gibbs phenomenon in the neighborhood of zero.Furthermore,we estimate the upper bound of its partial sum and get:sup ...In this paper,we point out that the Fourier series of a classical function∑^∞k=1 sin kx/k has the Gibbs phenomenon in the neighborhood of zero.Furthermore,we estimate the upper bound of its partial sum and get:sup n≥1||∑^n k=1sin kx/k||=∫^x 0sin x/x dx=1.85194, which is better than that in[1].展开更多
文摘This paper mainly proposes a new C-XSC (C- for eXtended Scientific Computing) software for the symmetric single step method and relaxation method for computing an enclosure for the solution set and compares the methods with others' and then makes some modifications and finally, examples illustrating the applicability of the proposed methods are given.
基金Foundation item: the Natural Science Foundation of Zhejiang Province (No. 102058).
文摘In this paper,we point out that the Fourier series of a classical function∑^∞k=1 sin kx/k has the Gibbs phenomenon in the neighborhood of zero.Furthermore,we estimate the upper bound of its partial sum and get:sup n≥1||∑^n k=1sin kx/k||=∫^x 0sin x/x dx=1.85194, which is better than that in[1].
