The Gemini Planet Imager Exoplanet Survey (GPIES) is a direct imaging campaign designed to search for young, self-luminous, giant exoplanets. To date, GPIES has observed nearly 500 targets, and generated over 30,000 individual exposures using its integral field spectrograph (IFS) instrument. The GPIES team has developed a campaign data system with a database incorporating all of the metadata for all individual raw data products, including environmental conditions and instrument performance metrics. The same database also indexes metadata associated with multiple levels of reduced data products, including contrast measures for individual images and combined image sequences, which serve as the primary metric of performance for the final science products. The database is also used to track telemetry products from the adaptive optics subsystem, and associate these with corresponding IFS data. Here, we discuss several data exploration and visualization projects enabled by the GPIES database. Of particular interest are any correlations between instrument performance and environmental or operating conditions. We show single and multiple-parameter fits of single-image and observing sequence contrast as functions of various seeing measures, and discuss automated outlier rejection and other fitting concerns. Supervised learning techniques are employed in order to partition the space of raw (single image) to final (full sequence) contrast in order to better predict the value of the final data set from the first few completed observations. Finally, we discuss the particular features of the database design that aid in performing these analyses, and suggest potential future upgrades and refinements.
Cite
@article{arxiv.1807.07153,
title = {Mining the GPIES database},
author = {Dmitry Savransky and Jacob Shapiro and Vanessa Bailey and Robert De Rosa and Jason Wang and Jean-Baptiste Ruffio and Eric Nielsen and Melisa Tallis and Marshall Perrin},
journal= {arXiv preprint arXiv:1807.07153},
year = {2018}
}
Comments
15 pages, 11 Figures. Presented at SPIE Astronomical Telescopes + Instrumentation, 2018, Austin, Texas, United States. Adaptive Optics Systems VI, 107030H (10 July 2018)