Laycock, S., et al.: Digital Access to a Sky Century at Harvard: Initial Photometry and Astrometry. It supports communication with all of ds9s XPA access points. ASPC 442, 683 (2011)īertin, E., and Arnouts, S.: SExtractor: Source Extractor. The pyds9 module uses a Python interface to XPA to communicate with ds9. AJ 139, 1782 (2010)īoch, T., et al.: Aladin: An Open Source All-Sky Browser. Lang, D., et al.: : Blind Astrometric Calibration of Arbitrary Astronomical Images.
CITING SAOIMAGE DS9 SOFTWARE
Greenfield, P., et al.: Astropy: Community Python Software for Astronomy. “Zbadanie funkcjonalności i metod integracji narzędzi astrofizycznych w ramach usługi dziedzinowej, gridowej platformy wsparcia pracy naukowej – AstroGrid-PL, na bazie kompleksowej analizy potrzeb polskiego środowiska astronomicznego w zakresie zaawansowanej infrastruktury i usług ICT”. Pych, W., et al.: Opracowanie merytoryczne z IV etapu Usługi Badawczej pt. Pych, W., et al.: Opracowanie merytoryczne z III etapu Usługi Badawczej pt. Webdavis: Webdav interface for iRODS and SRB, German Astrophycical Virtual Observatory, Ĭentre de Données astronomiques de Strasbourg, Hanisch, R.: Resource Metadata for the Virtual Observatory. IRAF Image Reduction and Analysis Facility, NASA: CFITSIO: A FITS File Subroutine Library,
Holties, H., Renting, A., Grange, Y.: The LOFAR long-term archive: e-infrastructure on petabyte scale. Keywordsīecla, J., et al.: Organizing the LSST Database for Real-Time Astronomical Processing.
CITING SAOIMAGE DS9 PLUS
These standards are already in use at astronomical facilities across the globe, and implementing them within the framework of AstroGrid-PL and the PLGrid Plus project enables us not only to provide advanced data retrieval services to our users, but also to leverage a large body of existing astronomical data analysis software and give our users access to external data resources provided on the same principles. In parallel, we have implemented the Polish Virtual Observatory, which provides access, search, retrieval and in situ processing for this data using the protocols and standards established by the International Virtual Observatory Alliance (IVOA). Additional funding was provided by the JWST Mission office at Space Telescope Science Institute to improve capabilities for 3-D data visualization.As part of the AstroGrid-PL project, we have implemented a large scale data management system for the Polish astronomical community within the framework of the PLGrid Plus project, with built-in metadata services, replication and distributed storage based on the well-established iRODS middleware.
CITING SAOIMAGE DS9 ARCHIVE
SAOImageDS9 development has been made possible by funding from the Chandra X-ray Science Center (CXC) and the High Energy Astrophysics Science Archive Center (HEASARC). GUI elements such as the coordinate display, panner, magnifier, horizontal and vertical graphs, button bar, and color bar can be configured via menus or the command line.
All versions and platforms support a consistent set of GUI and functional capabilities.ĭS9 supports advanced features such as 2-D, 3-D and RGB frame buffers, mosaic images, tiling, blinking, geometric markers, colormap manipulation, scaling, arbitrary zoom, cropping, rotation, pan, and a variety of coordinate systems. It requires no installation or support files. It provides for easy communication with external analysis tasks and is highly configurable and extensible via XPA and SAMP.ĭS9 is a stand-alone application. DS9 supports FITS images and binary tables, multiple frame buffers, region manipulation, and many scale algorithms and colormaps. SAOImageDS9 is an astronomical imaging and data visualization application.
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