Hostname: page-component-78c5997874-dh8gc Total loading time: 0 Render date: 2024-11-19T18:02:18.748Z Has data issue: false hasContentIssue false

UkrVO Astroinformatics Software and Web-services

Published online by Cambridge University Press:  30 May 2017

I. B. Vavilova
Affiliation:
Main Astronomical Observatory, National Academy of Sciences of Ukraine, 27 Akademika Zabolotnogo St., Kyiv 03143, Ukraine
Ya. S. Yatskiv
Affiliation:
Main Astronomical Observatory, National Academy of Sciences of Ukraine, 27 Akademika Zabolotnogo St., Kyiv 03143, Ukraine
L. K. Pakuliak
Affiliation:
Main Astronomical Observatory, National Academy of Sciences of Ukraine, 27 Akademika Zabolotnogo St., Kyiv 03143, Ukraine
I. L. Andronov
Affiliation:
Odesa National Maritime University, 34 Mechnikova St., Odesa 65029, Ukraine
V. M. Andruk
Affiliation:
Main Astronomical Observatory, National Academy of Sciences of Ukraine, 27 Akademika Zabolotnogo St., Kyiv 03143, Ukraine
Yu. I. Protsyuk
Affiliation:
Nikolaev Astronomical Observatory, 1 Observatorna St., Mykolaiv 54030, Ukraine
V. E. Savanevych
Affiliation:
Western Radio Technical Surveillance Center, National Space Agency of Ukraine, Kosmonavtiv St., Mukachevo 89600, Ukraine
D. O. Savchenko
Affiliation:
Bogolyubov Institute of Theoretical Physics, National Academy of Sciences of Ukraine, 14b, Metrologichna St., Kyiv 03143, Ukraine
V. S. Savchenko
Affiliation:
Institut national de physique nuclaire et de physique des particules, CNRS 3 rue Michel-Ange, 75794, Paris Cedex 16, France
Rights & Permissions [Opens in a new window]

Abstract

Core share and HTML view are not available for this content. However, as you have access to this content, a full PDF is available via the ‘Save PDF’ action button.

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.

Type
Contributed Papers
Copyright
Copyright © International Astronomical Union 2017 

References

Andronov, I. L. & Baklanov, A. V. 2004, Astronomical School’s Report, 5, 264 Google Scholar
Andronov, I. L., et al. 2016, Phys. Journal, 2, 140.Google Scholar
Andruk, V. M., et al. 2016, Kinemat. Phys. Celestial Bodies, 32, 261 Google Scholar
Babyk, Yu. V., et al. 2014, Astronomy Reports, 58, 587.CrossRefGoogle Scholar
Babyk, Yu. V. & Vavilova, I. B. 2014, Astrophys. & Space, Sci., 349, 415.Google Scholar
Bolotin, S. & Yatskiv, Ya. 2003, IVS Annual report-NASA-TP-2003-211619, Greenbelt, p. 269–272Google Scholar
Boyarsky, A., et al. 2014, Phys. Rev. Lett., 113, 251301 Google Scholar
Breus, V. V. 2007, Odessa Astron. Publications, 20, 32 Google Scholar
Borne, K., et al. 2009, The Astronomy and Astrophys. Decadal Survey, Position Papers, no. 6Google Scholar
Brescia, M. & Longo, G. 2013, Nuclear Instruments and Methods in Physics Research A, 720, 92 Google Scholar
Butler, D. 2007, Nature, 446, 354 CrossRefGoogle Scholar
Cavuoti, S., et al. 2012, Proceedings of the SPIE, 8451, article id. 845103Google Scholar
Chesnok, N. G., et al. 2009, Kinemat. Phys. Celest. Bodies, 25, 107 Google Scholar
Eastman, T., et al. 2005, Data Science Journal, 4, 67 Google Scholar
Fedorov, E. P., et al. 1972, Motion of the earth’s pole from 1890.0 to 1969.0, Kiev, Nauk. dumkaGoogle Scholar
Fedorov, P., Myznikov, A., & Akhmetov, V. 2009, MNRAS, 393, 133 Google Scholar
Feigelson, E. D., et al. 2013, In: ADASS XXII, ASP Conferences Series, 15Google Scholar
Goodman, A., et al. 2012, In: ADASS XXI, ASP Conference Series, 461, 267 Google Scholar
Gray, J., et al. 2005, arxiv.org/abs/cs/0502008 Google Scholar
Kharchenko, N. V. & Roeser, S. 2001, Kinemat. Phys. Celestial Bodies, 17, 409 Google Scholar
Mazhaev, A. E. & Protsyuk, Yu. I. 2013, Odessa Astron. Publications, 26/2, 233Google Scholar
Michaelian, A. 2016, Baltic Astronomy, 25 (1), 75 Google Scholar
Norris, R. P., et al. 2013, PASA, 30, 20 Google Scholar
Pepe, A., et al. 2014, PLoS ONE 9(8): e104798. doi:10.1371/journal.pone.0104798 Google Scholar
Pulatova, N. G., et al. 2015, MNRAS, 447, 2209 Google Scholar
Ruiz, J. E., et al. 2014, Astronomy and Computing, 7, 3 Google Scholar
Savanevych, V. E., et al. 2015a, MNRAS, 451, 3, 3287Google Scholar
Savanevych, V. E., et al. 2015b, Kinemat. Phys. Cel. Bodies, 31 (6), 302 Google Scholar
Savchenko, D. & Iakubovskyi, D. 2014, AASP, 4, 51 Google Scholar
Slyapnikov, A. A., et al. 2015, Baltic Astron., 24, 462 Google Scholar
Vasylenko, A. A., et al. 2015, Astrophys. & Space Sci., 360, article id.37Google Scholar
Vavilova, I. B., et al. 2012a, Kinemat. Phys. Cel. Bodies, 28 (2), 85 Google Scholar
Vavilova, I. B., et al. 2012b, Baltic Astronomy, 21/3, 356 Google Scholar
Vavilova, I. B. 2016, Odessa Astron. Publications, 29, 109 Google Scholar
Yatskiv, Ya.S. 1985, Report of IAU Com. 19: Rotation of the Earth, Trans. IAU, 19A, 193 Google Scholar