Mathematical models of extended objects used for planning submeter resolution satellite imagery

D. K. Mozgovoy; D. N. Svinarenko; S. V. Kapustina; R. Y. Tsarev; T. N. Yamskikh; I. N. Kartsan; Ahmad M. Saleh

doi:10.1088/1757-899X/537/5/052037

Mathematical models of extended objects used for planning submeter resolution satellite imagery

D. K. Mozgovoy, D. N. Svinarenko, S. V. Kapustina, R. Y. Tsarev, T. N. Yamskikh, I. N. Kartsan, Ahmad M. Saleh

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2 Scopus citations

Abstract

This paper presents mathematical models describing extended objects with complex configuration used for planning satellite imagery with optoelectronic scanners of submeter spatial resolution. The most efficient spline approximation methods were used for mathematical description of extended objects with complex configuration. The proposed method ensures obtaining maximum coverage of the extended object in one-orbit period by choosing an appropriate spline smoothing coefficient, shifting and turning coverage contour. The results of computer simulation of extended object imagery are given, taking into account the swath width of the imaging instrument, the required scanning direction and limitations on retargeting angles range and satellite angular velocities.

Original language	English
Article number	052037
Journal	IOP Conference Series: Materials Science and Engineering
Volume	537
Issue number	5
DOIs	https://doi.org/10.1088/1757-899X/537/5/052037
State	Published - 25 Jun 2019
Event	International Workshop on Advanced Technologies in Material Science, Mechanical and Automation Engineering - MIP: Engineering-2019 - Krasnoyarsk, Russian Federation Duration: 4 Apr 2019 → 6 Apr 2019

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title = "Mathematical models of extended objects used for planning submeter resolution satellite imagery",

abstract = "This paper presents mathematical models describing extended objects with complex configuration used for planning satellite imagery with optoelectronic scanners of submeter spatial resolution. The most efficient spline approximation methods were used for mathematical description of extended objects with complex configuration. The proposed method ensures obtaining maximum coverage of the extended object in one-orbit period by choosing an appropriate spline smoothing coefficient, shifting and turning coverage contour. The results of computer simulation of extended object imagery are given, taking into account the swath width of the imaging instrument, the required scanning direction and limitations on retargeting angles range and satellite angular velocities.",

author = "Mozgovoy, \{D. K.\} and Svinarenko, \{D. N.\} and Kapustina, \{S. V.\} and Tsarev, \{R. Y.\} and Yamskikh, \{T. N.\} and Kartsan, \{I. N.\} and Saleh, \{Ahmad M.\}",

note = "Publisher Copyright: {\textcopyright} 2019 IOP Publishing Ltd.; International Workshop on Advanced Technologies in Material Science, Mechanical and Automation Engineering - MIP: Engineering-2019 ; Conference date: 04-04-2019 Through 06-04-2019",

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AU - Mozgovoy, D. K.

AU - Svinarenko, D. N.

AU - Kapustina, S. V.

AU - Tsarev, R. Y.

AU - Yamskikh, T. N.

AU - Kartsan, I. N.

AU - Saleh, Ahmad M.

PY - 2019/6/25

Y1 - 2019/6/25

N2 - This paper presents mathematical models describing extended objects with complex configuration used for planning satellite imagery with optoelectronic scanners of submeter spatial resolution. The most efficient spline approximation methods were used for mathematical description of extended objects with complex configuration. The proposed method ensures obtaining maximum coverage of the extended object in one-orbit period by choosing an appropriate spline smoothing coefficient, shifting and turning coverage contour. The results of computer simulation of extended object imagery are given, taking into account the swath width of the imaging instrument, the required scanning direction and limitations on retargeting angles range and satellite angular velocities.

AB - This paper presents mathematical models describing extended objects with complex configuration used for planning satellite imagery with optoelectronic scanners of submeter spatial resolution. The most efficient spline approximation methods were used for mathematical description of extended objects with complex configuration. The proposed method ensures obtaining maximum coverage of the extended object in one-orbit period by choosing an appropriate spline smoothing coefficient, shifting and turning coverage contour. The results of computer simulation of extended object imagery are given, taking into account the swath width of the imaging instrument, the required scanning direction and limitations on retargeting angles range and satellite angular velocities.

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U2 - 10.1088/1757-899X/537/5/052037

DO - 10.1088/1757-899X/537/5/052037

M3 - Conference article

AN - SCOPUS:85068784749

SN - 1757-8981

VL - 537

JO - IOP Conference Series: Materials Science and Engineering

JF - IOP Conference Series: Materials Science and Engineering

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T2 - International Workshop on Advanced Technologies in Material Science, Mechanical and Automation Engineering - MIP: Engineering-2019

Y2 - 4 April 2019 through 6 April 2019

ER -

Mathematical models of extended objects used for planning submeter resolution satellite imagery

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