Standard

On a cubic variational problem. / Malozemov, V. N.; Tamasyan, G. Sh.

In: Vestnik St. Petersburg University: Mathematics, Vol. 49, No. 4, 2016, p. 350-358.

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Harvard

Malozemov, VN & Tamasyan, GS 2016, 'On a cubic variational problem', Vestnik St. Petersburg University: Mathematics, vol. 49, no. 4, pp. 350-358. https://doi.org/10.3103/S1063454116040105

APA

Malozemov, V. N., & Tamasyan, G. S. (2016). On a cubic variational problem. Vestnik St. Petersburg University: Mathematics, 49(4), 350-358. https://doi.org/10.3103/S1063454116040105

Vancouver

Malozemov VN, Tamasyan GS. On a cubic variational problem. Vestnik St. Petersburg University: Mathematics. 2016;49(4):350-358. https://doi.org/10.3103/S1063454116040105

Author

Malozemov, V. N. ; Tamasyan, G. Sh. / On a cubic variational problem. In: Vestnik St. Petersburg University: Mathematics. 2016 ; Vol. 49, No. 4. pp. 350-358.

BibTeX

@article{1bf7dba51dc040648ecbd48f185aa478,
title = "On a cubic variational problem",
abstract = "An extremal curve of the simplest variational problem is a continuously differentiable function. Hilbert{\textquoteright}s differentiability theorem provides a sufficient condition for the existence of the second derivative of an extremal curve. It is desirable to have a simple example in which the condition of Hilbert{\textquoteright}s theorem is violated and an extremal curve is not twice differentiable. In this paper, a cubic variational problem with the following properties is analyzed. The functional of the problem is bounded neither above nor below. There exists an extremal curve for this problem which is obtained by sewing together two different extremal curves and not twice differentiable at the sewing point. Despite this unfavorable situation, an attempt to apply the method of steepest descent (in the form proposed by V.F. Dem{\textquoteright}yanov) to this problem is made. It turns out that the method converges to a stationary curve provided that a suitable step size rule is chosen.",
keywords = "cubic variational problem, extremal curve, method of steepest descent.",
author = "Malozemov, {V. N.} and Tamasyan, {G. Sh.}",
year = "2016",
doi = "10.3103/S1063454116040105",
language = "English",
volume = "49",
pages = "350--358",
journal = "Vestnik St. Petersburg University: Mathematics",
issn = "1063-4541",
publisher = "Pleiades Publishing",
number = "4",

}

RIS

TY - JOUR

T1 - On a cubic variational problem

AU - Malozemov, V. N.

AU - Tamasyan, G. Sh.

PY - 2016

Y1 - 2016

N2 - An extremal curve of the simplest variational problem is a continuously differentiable function. Hilbert’s differentiability theorem provides a sufficient condition for the existence of the second derivative of an extremal curve. It is desirable to have a simple example in which the condition of Hilbert’s theorem is violated and an extremal curve is not twice differentiable. In this paper, a cubic variational problem with the following properties is analyzed. The functional of the problem is bounded neither above nor below. There exists an extremal curve for this problem which is obtained by sewing together two different extremal curves and not twice differentiable at the sewing point. Despite this unfavorable situation, an attempt to apply the method of steepest descent (in the form proposed by V.F. Dem’yanov) to this problem is made. It turns out that the method converges to a stationary curve provided that a suitable step size rule is chosen.

AB - An extremal curve of the simplest variational problem is a continuously differentiable function. Hilbert’s differentiability theorem provides a sufficient condition for the existence of the second derivative of an extremal curve. It is desirable to have a simple example in which the condition of Hilbert’s theorem is violated and an extremal curve is not twice differentiable. In this paper, a cubic variational problem with the following properties is analyzed. The functional of the problem is bounded neither above nor below. There exists an extremal curve for this problem which is obtained by sewing together two different extremal curves and not twice differentiable at the sewing point. Despite this unfavorable situation, an attempt to apply the method of steepest descent (in the form proposed by V.F. Dem’yanov) to this problem is made. It turns out that the method converges to a stationary curve provided that a suitable step size rule is chosen.

KW - cubic variational problem

KW - extremal curve

KW - method of steepest descent.

U2 - 10.3103/S1063454116040105

DO - 10.3103/S1063454116040105

M3 - Article

VL - 49

SP - 350

EP - 358

JO - Vestnik St. Petersburg University: Mathematics

JF - Vestnik St. Petersburg University: Mathematics

SN - 1063-4541

IS - 4

ER -

ID: 7627143