Identification of anomalous light curves within time-domain surveys is often challenging. In addition, with the growing number of wide-field surveys and the volume of data produced exceeding astronomers’ ability for manual evaluation, outlier and anomaly detection is becoming vital for transient science. We present an unsupervised method for transient discovery using a clustering technique and the ASTRONOMALY package. As proof of concept, we evaluate 85 553 min-cadenced light curves collected over two ∼1.5 h periods as part of the Deeper, Wider, Faster program, using two different telescope dithering strategies
Context. XMM-Newton provides unprecedented insight into the X-ray Universe, recording variability in...
The large sky localization regions offered by the gravitational-wave interferometers require efficie...
Modern time-domain astronomy is capable of collecting a staggeringly large amount of data on million...
Identification of anomalous light curves within time-domain surveys is often challenging. In additio...
New time-domain surveys, such as the Rubin Observatory Legacy Survey of Space and Time (LSST), will ...
Time-domain astronomy has reached an incredible new era where unprecedented amounts of data are beco...
>Magister Scientiae - MScWe are fast moving into an era where data will be the primary driving facto...
We present results from applying the SNAD anomaly detection pipeline to the third public data releas...
Every field of Science is undergoing unprecedented changes in the discovery process, and Astronomy h...
The modern time-domain photometric surveys collect a lot of observations of various astronomical obj...
With the upcoming plethora of astronomical time-domain datasets and surveys, anomaly detection as a ...
International audienceAims. We present the first piece of evidence that adaptive learning techniques...
This thesis explores the use of state-of-the-art computational analysis techniques in astronomy. Thi...
Masters of ScienceObservations that push the boundaries have historically fuelled scientific breakth...
Exploration of time domain is now a vibrant area of research in astronomy, driven by the advent of d...
Context. XMM-Newton provides unprecedented insight into the X-ray Universe, recording variability in...
The large sky localization regions offered by the gravitational-wave interferometers require efficie...
Modern time-domain astronomy is capable of collecting a staggeringly large amount of data on million...
Identification of anomalous light curves within time-domain surveys is often challenging. In additio...
New time-domain surveys, such as the Rubin Observatory Legacy Survey of Space and Time (LSST), will ...
Time-domain astronomy has reached an incredible new era where unprecedented amounts of data are beco...
>Magister Scientiae - MScWe are fast moving into an era where data will be the primary driving facto...
We present results from applying the SNAD anomaly detection pipeline to the third public data releas...
Every field of Science is undergoing unprecedented changes in the discovery process, and Astronomy h...
The modern time-domain photometric surveys collect a lot of observations of various astronomical obj...
With the upcoming plethora of astronomical time-domain datasets and surveys, anomaly detection as a ...
International audienceAims. We present the first piece of evidence that adaptive learning techniques...
This thesis explores the use of state-of-the-art computational analysis techniques in astronomy. Thi...
Masters of ScienceObservations that push the boundaries have historically fuelled scientific breakth...
Exploration of time domain is now a vibrant area of research in astronomy, driven by the advent of d...
Context. XMM-Newton provides unprecedented insight into the X-ray Universe, recording variability in...
The large sky localization regions offered by the gravitational-wave interferometers require efficie...
Modern time-domain astronomy is capable of collecting a staggeringly large amount of data on million...