Scientists in all domains face a data avalanche -- both from better instruments and from improved simulations. We believe that computer science tools and computer scientists are in a position to help all the sciences by building tools and developing techniques to manage, analyze, and visualize peta-scale scientific information. This article is summarizes our experiences over the last seven years trying to bridge the gap between database technology and the needs of the astronomy community in building the World-Wide Telescope
How 21st-century astronomy became a big data science: All sciences are based on empirical evidence. ...
Natural-sciences researchers have created innovative, powerful computational tools to analyze the la...
Fundamental changes are taking place in the way we do astronomy. In twenty years time, it is likely ...
Abstract: Most scientific data will never be directly examined by scientists; rather it will be put ...
Abstract. We describe Astroinformatics, the new data science paradigm for astronomy research and edu...
Optical and infrared ground-based astronomy is undergoing a renaissance. Advances in material techno...
Astronomy has become data-driven in ways that are both quantitatively and qualitatively different fr...
Publishing articles in scholarly journals is essential to furthering science. However, it is only on...
Space telescopes have increased the quality of data collection for today’s astronomy. In parallel to...
Big data, data-intensive science, and eScience are contemporary terms to describe research fields th...
The ability to explore huge digital resources assembled in data warehouses, databases and files, at ...
In the last decade a new generation of telescopes and sensors has allowed the production of a very l...
In the last decade a new generation of telescopes and sensors has allowed the production of a very l...
Open Astronomy is an important and valuable goal, including the availability of refereed science pap...
Astronomy is rapidly approaching an impasse: very large datasets require remote or cloud-based paral...
How 21st-century astronomy became a big data science: All sciences are based on empirical evidence. ...
Natural-sciences researchers have created innovative, powerful computational tools to analyze the la...
Fundamental changes are taking place in the way we do astronomy. In twenty years time, it is likely ...
Abstract: Most scientific data will never be directly examined by scientists; rather it will be put ...
Abstract. We describe Astroinformatics, the new data science paradigm for astronomy research and edu...
Optical and infrared ground-based astronomy is undergoing a renaissance. Advances in material techno...
Astronomy has become data-driven in ways that are both quantitatively and qualitatively different fr...
Publishing articles in scholarly journals is essential to furthering science. However, it is only on...
Space telescopes have increased the quality of data collection for today’s astronomy. In parallel to...
Big data, data-intensive science, and eScience are contemporary terms to describe research fields th...
The ability to explore huge digital resources assembled in data warehouses, databases and files, at ...
In the last decade a new generation of telescopes and sensors has allowed the production of a very l...
In the last decade a new generation of telescopes and sensors has allowed the production of a very l...
Open Astronomy is an important and valuable goal, including the availability of refereed science pap...
Astronomy is rapidly approaching an impasse: very large datasets require remote or cloud-based paral...
How 21st-century astronomy became a big data science: All sciences are based on empirical evidence. ...
Natural-sciences researchers have created innovative, powerful computational tools to analyze the la...
Fundamental changes are taking place in the way we do astronomy. In twenty years time, it is likely ...