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The '''SAO/NASA Astrophysics Data System''' ('''ADS''') is an [[online database]] of over
Beginning in 1992, ADS is a research tool that improves astronomical research, and is specifically tailored to astronomical needs.<ref name="announcement">{{cite journal |last=Kurtz |first=M.J. |display-authors=et al. |year=1993 |title=Intelligent Text Retrieval in the NASA Astrophysics Data System |journal=Astronomical Data Analysis Software and Systems II |volume=52 |page=132 |bibcode=1993ASPC...52..132K}}</ref>
The '''SAO/NASA Astrophysics Data System''' ('''ADS''') usage statistics can be used to analyze global trends in astronomical research due to it being used amongst astronomers worldwide. Those statistics revealed the direct correlation between both the number of astronomers and the amount of research an astronomer carries out and the per capita [[gross domestic product]] (GDP) of the country from where the scientist is based.
==History==
The importance of recording and classifying earlier astronomical knowledge and works was recognized in the 18th century, with [[Johann Friedrich Weidler]] publishing the first comprehensive history of astronomy in 1741 and the first astronomical bibliography in 1755. This effort was continued by [[Jérôme Lalande|Jérôme de La Lande]], who published his ''Bibliographie astronomique'' in 1803, a work that covered the time from 480 B. C. to the year of publication. The ''Bibliographie générale de l’astronomie,
As the number of astronomers and astronomical publications grew, bibliographical efforts became institutional tasks, first at the [[Royal Observatory of Belgium|Observatoire Royal de Belgique]], where the ''Bibliography of Astronomy'' was published from 1881 to 1898, and then at the [[Astronomical Calculation Institute (Heidelberg University)|Astronomischer Rechen-Institut]] in Heidelberg, where the yearly ''Astronomischer Jahresbericht'' was published from 1899 to 1968
During the 1980s, however, astronomers realized that the nascent technologies which formed the basis of the [[Internet]] could
The first suggestion of a database of journal paper abstracts was made at a conference on ''Astronomy from Large Data-Bases'' held in [[Garching bei München]] in 1987.<ref>{{cite journal |last1=Squibb |first1=G.F. |last2=Cheung |first2=C.Y. |title=NASA astrophysics data system (ADS) study |journal=European Southern Observatory Conference and Workshop Proceedings |year=1988 |volume=28 |page=489 |bibcode=1988ESOC...28..489S}}</ref><ref>{{cite conference |last1=Adorf |first1=H.-M. |last2=Busch |first2=E.K. |title=Intelligent access to a bibliographical full text data base |journal=European Southern Observatory Conference and Workshop Proceedings |year=1988 |volume=28 |page=143 |bibcode=1988ESOC...28..143A}}</ref><ref>{{cite conference |last=Rey-Watson |first=J.M. |title=Access to astronomical literature through commercial databases |journal=European Southern Observatory Conference and Workshop Proceedings |year=1988 |volume=28 |page=453 |bibcode=1988ESOC...28..453R}}</ref><ref>{{cite conference |last1=Rhodes |first1=C. |last2=Kurtz |first2=M.J. |last3=Rey-Watson |first3=J.M. |title=A library collection of software documentation specific to astronomical data reduction |journal=European Southern Observatory Conference and Workshop Proceedings |year=1988 |volume=28 |page=459 |bibcode=1988ESOC...28..459R}}</ref> Initial development of an electronic system for accessing astrophysical abstracts took place during the following five years. In 1991 discussions took place on how to integrate ADS with the [[SIMBAD]] database, containing all available catalog designations for objects outside the [[Solar System]], to create a system where astronomers could search for all the papers written about a given object.<ref name="overview">{{cite journal |last=Kurtz |first=M.J. |author2=Eichhorn G. |author3=Accomazzi A. |author4=Grant C.S. |author5=Murray S.S. |author6=Watson J.M. |year=2000 |title=The NASA Astrophysics Data System: Overview |journal=Astronomy and Astrophysics Supplement Series |volume=143 |issue=1 |pages=41–59 |doi=10.1051/aas:2000170 |bibcode=2000A&AS..143...41K |arxiv=astro-ph/0002104 |s2cid=17583122}}</ref>
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An initial version of ADS, with a database consisting of 40 papers, was created as a [[proof of concept]] in 1988. The ADS Abstract Service was announced in November 1992 <ref name='announcement' /> and was released for general use in April 1993. The ADS database was successfully connected with the SIMBAD database in the summer of 1993. The creators believed this was the first use of the Internet to allow simultaneous querying of transatlantic scientific databases. Until 1994 the service was available via proprietary network software, but it was transferred to the nascent [[World Wide Web]] early that year. The number of users of the service quadrupled in the five weeks following the introduction of the ADS web-based service.<ref name="overview" />
At first, the journal articles available via ADS were [[Image scanner|scan]]ned [[bitmap]]s created from the paper journals, but from 1995 onwards, the ''[[Astrophysical Journal]]'' began to publish an on-line edition, soon followed by the other main journals such as ''[[Astronomy and Astrophysics]]'' and the ''[[Monthly Notices of the Royal Astronomical Society]]''. ADS provided links to these electronic editions from their first appearance. Since the year 1995, the number of ADS users has doubled roughly every two years. ADS now has agreements with almost all astronomical journals, who supply abstracts. Scanned articles from as far back as the early 19th century are available via the service, which now contains over
In 2011 the ADS launched ADS Labs Streamlined Search which introduced [https://www.researchgate.net/publication/228582891_Retrieval_from_facet_spaces facets] for query refinement and selection. In 2013 ADS Labs 2.0 featuring a new search engine, full-text search functionality, scalable facets and an API was introduced. In 2015 the new ADS, codenamed Bumblebee, was released as ADS-beta. The ADS-beta system features a microservices API and client-side dynamic page loading served on a cloud platform. In May 2018 the beta label was dropped and Bumblebee became the default ADS interface—with some legacy features (ADS Classic) remaining available.<ref>{{Cite conference |last1=Accomazzi |first1=Alberto |last2=Kurtz |first2=Michael J. |last3=Henneken |first3=Edwin |last4=Grant |first4=Carolyn S. |last5=Thompson |first5=Donna M. |last6=Chyla |first6=Roman |last7=McDonald |first7=Steven |last8=Shaulis |first8=Taylor J. |last9=Blanco-Cuaresma |first9=Sergi |last10=Shapurian |first10=Golnaz |last11=Hostetler |first11=Timothy W. |last12=Templeton |first12=Matthew R. |last13=Lockhart |first13=Kelly E. |date=January 2018 |title=ADS Bumblebee comes of age |conference=231st Meeting of the American Astronomical Society |at=362.17 |bibcode=2018AAS...23136217A}}</ref> Development continues to the present day, with an extensible [[API]] available: enabling users to build their own utilities on top of the ADS bibliographic record.
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==Coverage==
The database now contains over
While the database contains the complete contents of all the major journals and many minor ones as well, its coverage of references and citations is much less complete. References in and citations of articles in the major journals are fairly complete, but references such as "private communication", "in press" or "in preparation" cannot be matched, and author errors in reference listings also introduce potential errors. Astronomical papers may cite and be cited by articles in journals which fall outside the scope of ADS, such as [[chemistry]], [[mathematics]] or [[biology]] journals.<ref>{{cite web |url=http://adsabs.harvard.edu/abs_doc/journals1.html |title=ADS Bibliographic Codes: Journal Abbreviations |publisher=Harvard-Smithsonian Center for Astrophysics |access-date=30 October 2008 |archiveurl=https://web.archive.org/web/20080430032916/http://adsabs.harvard.edu/abs_doc/journals1.html |archive-date=30 April 2008}}</ref>
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==Impact on astronomy==
ADS is almost universally used as a research tool among astronomers, and there are several studies that have estimated quantitatively how much more efficient ADS has made astronomy; one estimated that ADS increased the efficiency of astronomical research by 333 full-time equivalent research years per year,<ref name="overview" /> and another found that in 2002 its effect was equivalent to 736
In monetary terms, this increase in efficiency represents a considerable amount. There are about 12,000
The great importance of ADS to astronomers has been recognized by the [[United Nations]], the [[United Nations General Assembly|General Assembly]] of which has commended ADS on its work and success, particularly noting its importance to astronomers in the developing world, in reports of the [[United Nations Committee on the Peaceful Uses of Outer Space]]. A 2002 report by a visiting committee to the Center for Astrophysics, meanwhile, said that the service had "revolutionized the use of the astronomical literature", and was "probably the most valuable single contribution to astronomy research that the CfA has made in its lifetime".<ref name="awards">{{cite web |url=https://ui.adsabs.harvard.edu/about/awards.html |title=ADS Awards and Recognition |publisher=Harvard-Smithsonian Center for Astrophysics |access-date=25 March 2022}}</ref>
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