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N. S. Sokovikova

Bio: N. S. Sokovikova is an academic researcher from Kharkiv National University of Radioelectronics. The author has contributed to research in topics: Software & Virtual observatory. The author has an hindex of 1, co-authored 1 publications receiving 20 citations.

Papers
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Journal ArticleDOI
TL;DR: The CoLiTec software for the automated search for small celestial objects of the solar system on a series of CCD frames has been developed within the Ukrainian virtual observatory project as mentioned in this paper.
Abstract: The CoLiTec software for the automated search for small celestial objects of the solar system on a series of CCD frames has been developed within the Ukrainian virtual observatory project. Four comets and more than a thousand asteroids were discovered using the software. It was also used to send approximately 700000 positional CCD measurements to the Minor Planet Center. In this paper, accuracy factors of positional CCD measurements using the CoLiTec software are analyzed according to data from the Minor Planet Center. The comparative analysis of these factors according to the results of the processing of the same frames using CoLiTec and Astrometrica software is also conducted. In the case of low signal to noise ratios, the standard deviation of positional CCD measurements using the Astrometrica software is 30–50% greater than that of the CoLiTec software.

22 citations


Cited by
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Journal ArticleDOI
TL;DR: In this paper, a subpixel Gaussian model of a discrete object image is used to estimate the coordinates of the pixels in a CCD frame, where the coordinate distribution of the photons hitting a pixel is known a priori, while associated parameters are determined from a real digital object image.
Abstract: We describe a new iteration method to estimate asteroid coordinates, which is based on the subpixel Gaussian model of a discrete object image. The method operates by continuous parameters (asteroid coordinates) in a discrete observation al space (the set of pixels potential) of the CCD frame. In this model, a kind of the coordinate distribution of the photons hitting a pixel of the CCD frame is known a priori, while the associated parameters are determined from a real digital object image. The developed method, being more flexible in adapting to any form of the object image, has a high measurement accuracy along with a low calculating complexity due to a maximum likelihood procedure, which is implemented to obtain the best fit instead of a least-squares method and Levenberg-Marquar dt algorithm for the minimisation of the quadratic form. Since 2010, the method was tested as the basis of our CoLiTec (Collection Light Technology) software, which has been installed at several observatories of the world with the aim of automatic discoveries of asteroids and comets on a set of CCD frames. As the result, four comets (C/2010 X1 (Elenin), P/2011 NO1(Elenin), C/2012 S1 (ISON), and P/2013 V3 (Nevski)) as well as more than 1500 small Solar System bodies (including five NEOs, 21 Trojan asteroids of Jupiter, and one Centaur object) were discovered. We discuss these results that allowed us to compare the accuracy parameters of a new method and confirm its efficiency. In 2014, the CoLiTec software was recommended to all members of the Gaia-FUN-SSO network for analysing observations as a tool to detect faint moving objects in frames.

22 citations

Book ChapterDOI
11 Sep 2019
TL;DR: The research results showed that the new proposed algorithm for astrometric reduction allows performing the reduction into the system of reference catalogue with the highest accuracy level.
Abstract: In this paper we presented the new algorithm for astrometric reduction of the images received from modern large telescopes with very wide field of view. This algorithm is based on the iterative using of the method of ordinary least squares (OLS) and statistical Student t-criterion. The paper contains information about selecting the appropriate reduction model and system of conditional equations for determination of the reduction model parameters with the aim to solve it using the OLS method. The proposed algorithm also provides the automatic selection of the most probabilistic reduction model. At the first iteration the fifth degree polynomial is used, which provides 21 constant plates. The reduction error from the each iteration is used in the next iteration to eliminate reference objects whose residuals more than three sigma. In the developed algorithm the statistical Student t-criterion of reliability is applied after several iterations of getting rid of the noisy objects. This approach allows us to eliminate almost all systematic errors that are caused by imperfections of the optical system of modern large telescopes. The developed software based on the proposed algorithm was applied to perform the astrometric reduction of all measured positions of objects on the digitized photographic plates of SuperCOSMOS data. The research results showed that the new proposed algorithm allows performing the reduction into the system of reference catalogue with the highest accuracy level.

21 citations

Proceedings ArticleDOI
01 Oct 2019
TL;DR: The results of the research showed the significant differences from expected "head-on collision" of rocket with Microsat-R satellite.
Abstract: In this paper we presented the results of cloud computing and analysis of orbital parameters of the satellite fragments that formed by first India anti-satellite (ASAT) missile against a "live" Microsat-R satellite launched by them on January 24, 2019. Based on the cloud computing we calculated the orbital parameters and distribution of impulse values obtained by Microsat-R fragments that were formed after the impact of ASAT missile and tracked by NASA. All results in this paper and detailed analysis of this event are based on the orbital data taken in form of NORAD two-line element (TLE) dataset from space-track.org and by own calculation of the CoLiTec group in EOS Data Analytics using own cloud server. The test parameters were chosen with extreme caution to minimize the hazard of debris after the impact. However, the results of our research showed the significant differences from expected "head-on collision" of rocket with Microsat-R satellite.

21 citations

Journal ArticleDOI
01 Oct 2016
TL;DR: The aim of this paper is to introduce the software and astronomical web-services developed in frame of the Ukraine Virtual Observatory and VIrtual Roentgen and Gamma Observatory to the broad astronomical community.
Abstract: Abstract The aim of this paper is to introduce the software and astronomical web-services developed in frame of the Ukraine Virtual Observatory (UkrVO) and VIrtual Roentgen and Gamma Observatory (VIRGO) to the broad astronomical community. We report briefly on such web-services as the public databases “Sky Maps” of X-ray observations by XMM-Newton, the Earth Orbital Parameters for International Earth Rotation System, and the UkrVO Joint Digitized Archive of astroplates. We refer to such software as the “Multi-Column View”, “Variable Stars Calculator”, “FrameSmooth” for variable star’s research and “Collection Light Technology” (CoLiTec) software for search and discovery of new Solar System bodies.

19 citations

Book ChapterDOI
01 Jan 2020
TL;DR: The main goal of this can be achieved using the Data Mining approach, which is provided by the CoLiTec software that allows processing of input data sets or streams in real time.
Abstract: Modern astronomical systems and telescopes allow taking a lot of frames of considerable sky area in one night. This is a big amount of the raw data sets that should be processed. The main goal of this can be achieved using the Data Mining approach. This approach is provided by the CoLiTec software that allows processing of input data sets or streams in real time. This is a complex system for the astronomical data processing, which was created by the CoLiTec project ( http://neoastrosoft.com ). This system includes features, user-friendly tools for processing control, results reviewing, integration with online catalogs and a lot of different computational modules that are based on the developed methods.

19 citations