Gravitational Lensing Accuracy Testing 2010 (GREAT10) Challenge Handbook

Kitching, T; Amara A, Gill M, Harmeling, S; Heymans C, Massey R, Rowe B, Schrabback T, Voigt L, Balan S, Bernstein G, Bethge, M; Bridle S, Courbin F, Gentile M, Heavens A, Hirsch, M; Hosseini, R; Kiessling A, Kirk D, Kuijken K, Mandelbaum R, Moghaddam B, Nurbaeva G, Paulin-Henriksson S, Rassat A, Rhodes J, Schölkopf, B; Shawe-Taylor J, Shmakova M, Taylor A, Velander M, van Waerbeke L, Witherick, D; Wittman, D

doi:10.1214/11-AOAS484

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Gravitational Lensing Accuracy Testing 2010 (GREAT10) Challenge Handbook

Kitching, T., Amara A, Gill M, Harmeling, S., Heymans C, Massey R, Rowe B, Schrabback T, Voigt L, Balan S, Bernstein G, Bethge, M., Bridle S, Courbin F, Gentile M, Heavens A, Hirsch, M., Hosseini, R., Kiessling A, Kirk D, Kuijken K, Mandelbaum R, Moghaddam B, Nurbaeva G, Paulin-Henriksson S, Rassat A, Rhodes J, Schölkopf, B., et al. (2011). Gravitational Lensing Accuracy Testing 2010 (GREAT10) Challenge Handbook. Annals of Applied Statistics, 5(3), 2231-2263. doi:10.1214/11-AOAS484.

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Item Permalink: https://hdl.handle.net/11858/00-001M-0000-0013-BA20-A Version Permalink: https://hdl.handle.net/11858/00-001M-0000-0013-BA21-8

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Kitching, T, Author
Amara A, Gill M, Harmeling, S¹, Author
Heymans C, Massey R, Rowe B, Schrabback T, Voigt L, Balan S, Bernstein G, Bethge, M², Author
Bridle S, Courbin F, Gentile M, Heavens A, Hirsch, M¹, Author
Hosseini, R², Author
Kiessling A, Kirk D, Kuijken K, Mandelbaum R, Moghaddam B, Nurbaeva G, Paulin-Henriksson S, Rassat A, Rhodes J, Schölkopf, B¹, Author
Shawe-Taylor J, Shmakova M, Taylor A, Velander M, van Waerbeke L, Witherick, D, Author
Wittman, D, Author

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1Department Empirical Inference, Max Planck Institute for Biological Cybernetics, Max Planck Society, ou_1497795
2Research Group Computational Vision and Neuroscience, Max Planck Institute for Biological Cybernetics, Max Planck Society, ou_1497805

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Abstract: GRavitational lEnsing Accuracy Testing 2010 (GREAT10) is a public image analysis challenge aimed at the development of algorithms to analyze astronomical images. Specifically, the challenge is to measure varying image distortions in the presence of a variable convolution kernel, pixelization and noise. This is the second in a series of challenges set to the astronomy, computer science and statistics communities, providing a structured environment in which methods can be improved and tested in preparation for planned astronomical surveys. GREAT10 extends upon previous work by introducing variable fields into the challenge. The “Galaxy Challenge” involves the precise measurement of galaxy shape distortions, quantified locally by two parameters called shear, in the presence of a known convolution kernel. Crucially, the convolution kernel and the simulated gravitational lensing shape distortion both now vary as a function of position within the images, as is the case for real data. In addition, we introduce the “Star Challenge” that concerns the reconstruction of a variable convolution kernel, similar to that in a typical astronomical observation. This document details the GREAT10 Challenge for potential participants. Continually updated information is also available from www.greatchallenges.info.

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Dates: Date issued: 2011-09

Publication Status: Issued

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Identifiers: URI: http://projecteuclid.org/euclid.aoas/1318514302
DOI: 10.1214/11-AOAS484
BibTex Citekey: KitchingAGHHMRSVBBBBCGHHHKKKMMNPRRSSSTVvWW2011

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Title: Annals of Applied Statistics

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Pages: - Volume / Issue: 5 (3) Sequence Number: - Start / End Page: 2231 - 2263 Identifier: -