A few comments are offered in the light of about thirty years of activities linked to the information flow in astronomy and of about two decades of blossoming of electronic networks and tools including the World-Wide Web. Some points are emphasized (such as the changing sociology of data centres) and wrong expectations are pointed out (such as the all-electronic era)
We review the origins of the Virtual Observatory (VO) concept, and the current status of the efforts...
The data processing of a number of current astronomical projects require an intelligent data handlin...
Abstract. The article discusses changes in scientific work (academic and applied) associated with ne...
A few comments are offered in the light of about thirty years of activities linked to the informatio...
A few comments are humbly offered in the light of about thirty years of activities linked to informa...
Information Technology (IT) today has found so many applications in as- tronomy, that we may speak ...
Abstract. The age of currently active astronomy-related organizations is investigated from comprehen...
How 21st-century astronomy became a big data science: All sciences are based on empirical evidence. ...
Big data, data-intensive science, and eScience are contemporary terms to describe research fields th...
Abstract: Most scientific data will never be directly examined by scientists; rather it will be put ...
In compute-heavy and data-driven scientific fields, digital data play a central role in the creation...
Astronomy has become data-driven in ways that are both quantitatively and qualitatively different fr...
Electronic communication is changing the way astronomers work and how they communicate. By forming t...
The NASA Astrophysics Data System Abstract Service has become a key component of astronomical resea...
The data processing of a number of current astronomical projects require an intelligent data handlin...
We review the origins of the Virtual Observatory (VO) concept, and the current status of the efforts...
The data processing of a number of current astronomical projects require an intelligent data handlin...
Abstract. The article discusses changes in scientific work (academic and applied) associated with ne...
A few comments are offered in the light of about thirty years of activities linked to the informatio...
A few comments are humbly offered in the light of about thirty years of activities linked to informa...
Information Technology (IT) today has found so many applications in as- tronomy, that we may speak ...
Abstract. The age of currently active astronomy-related organizations is investigated from comprehen...
How 21st-century astronomy became a big data science: All sciences are based on empirical evidence. ...
Big data, data-intensive science, and eScience are contemporary terms to describe research fields th...
Abstract: Most scientific data will never be directly examined by scientists; rather it will be put ...
In compute-heavy and data-driven scientific fields, digital data play a central role in the creation...
Astronomy has become data-driven in ways that are both quantitatively and qualitatively different fr...
Electronic communication is changing the way astronomers work and how they communicate. By forming t...
The NASA Astrophysics Data System Abstract Service has become a key component of astronomical resea...
The data processing of a number of current astronomical projects require an intelligent data handlin...
We review the origins of the Virtual Observatory (VO) concept, and the current status of the efforts...
The data processing of a number of current astronomical projects require an intelligent data handlin...
Abstract. The article discusses changes in scientific work (academic and applied) associated with ne...