M
Miles J. Wells
Researcher at UCL Institute of Neurology
Publications - 19
Citations - 416
Miles J. Wells is an academic researcher from UCL Institute of Neurology. The author has contributed to research in topics: Sensory system & Computer science. The author has an hindex of 8, co-authored 13 publications receiving 241 citations. Previous affiliations of Miles J. Wells include UCL Institute of Ophthalmology & University College London.
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Journal ArticleDOI
High-yield methods for accurate two-alternative visual psychophysics in head-fixed mice
Christopher P. Burgess,Armin Lak,Nicholas A. Steinmetz,Peter Zatka-Haas,Peter Zatka-Haas,Charu Bai Reddy,Elina A. K. Jacobs,Jennifer F. Linden,Joseph J. Paton,Adam Ranson,Sylvia Schröder,Sofia Soares,Miles J. Wells,Lauren E Wool,Kenneth D. Harris,Matteo Carandini +15 more
TL;DR: High-yield methods for probing mouse visual decisions and their neural basis are introduced, providing a platform to accurately probe mouse vision and its neural basis.
Posted ContentDOI
Standardized and reproducible measurement of decision-making in mice
Valeria Aguillon-Rodriguez,Dora E. Angelaki,Hannah Bayer,Niccolò Bonacchi,Matteo Carandini,Fanny Cazettes,Gaelle Chapuis,Anne K. Churchland,Yang Dan,Eric Dewitt,Mayo Faulkner,Hamish Forrest,Laura Haetzel,Michael Häusser,Sonja B. Hofer,Fei Hu,Anup Khanal,Christopher Krasniak,Christopher Krasniak,Ines Laranjeira,Zachary F. Mainen,Guido T. Meijer,Nathaniel J Miska,Thomas D. Mrsic-Flogel,Masayoshi Murakami,Jean-Paul Noel,Alejandro Pan-Vazquez,Cyrille Rossant,Joshua I. Sanders,Karolina Socha,Rebecca Terry,Anne E Urai,Hernando Vergara,Miles J. Wells,Christian J Wilson,Ilana B. Witten,Lauren E Wool,Anthony M. Zador +37 more
TL;DR: In this article, the authors designed a task for head-fixed mice that combines established assays of perceptual and value-based decision making, and standardized training protocol and experimental hardware, software, and procedures.
Journal ArticleDOI
Standardized and reproducible measurement of decision-making in mice.
Valeria Aguillon-Rodriguez,Dora E. Angelaki,Hannah Bayer,Niccolò Bonacchi,Matteo Carandini,Fanny Cazettes,Gaelle Chapuis,Anne K. Churchland,Yang Dan,Eric Dewitt,Mayo Faulkner,Hamish Forrest,Laura Haetzel,Michael Häusser,Sonja B. Hofer,Fei Hu,Anup Khanal,Christopher Krasniak,Christopher Krasniak,Ines Laranjeira,Zachary F. Mainen,Guido T. Meijer,Nathaniel J Miska,Thomas D. Mrsic-Flogel,Masayoshi Murakami,Jean-Paul Noel,Alejandro Pan-Vazquez,Cyrille Rossant,Joshua I. Sanders,Karolina Socha,Rebecca Terry,Anne E Urai,Anne E Urai,Hernando Vergara,Miles J. Wells,Christian J Wilson,Ilana B. Witten,Lauren E Wool,Anthony M. Zador +38 more
TL;DR: In this article, a task for head-fixed mice that assays perceptual and value-based decision making was adopted, and the training protocol and experimental hardware, software, and procedures were standardized.
Posted ContentDOI
High-yield methods for accurate two-alternative visual psychophysics in head-fixed mice
Christopher P. Burgess,Nicholas A. Steinmetz,Armin Lak,Peter Zatka-Haas,Adam Ranson,Miles J. Wells,Sylvia Schröder,Elina A. K. Jacobs,Charu Bai Reddy,Sofia Soares,Jennifer F. Linden,Joseph J. Paton,Kenneth D. Harris,Matteo Carandini +13 more
TL;DR: High-yield methods for probing mouse visual decisions, which provide a platform to accurately probe mouse vision and its neural basis, are introduced.
Posted ContentDOI
A standardized and reproducible method to measure decision-making in mice.
Valeria Aguillon-Rodriguez,Dora E. Angelaki,Hannah Bayer,Niccolò Bonacchi,Matteo Carandini,Fanny Cazettes,Gaelle Chapuis,Anne K. Churchland,Yang Dan,Eric Dewitt,Mayo Faulkner,Hamish Forrest,Laura Haetzel,Michael Häusser,Sonja B. Hofer,Fei Hu,Anup Khanal,Christopher S. Krasniak,Ines Laranjeira,Zachary F. Mainen,Guido T. Meijer,Nathaniel J Miska,Thomas D. Mrsic-Flogel,Masayoshi Murakami,Jean-Paul Noel,Alejandro Pan-Vazquez,Josh Sanders,Karolina Socha,Rebecca Terry,Anne E Urai,Hernando Vergara,Miles J. Wells,Christian J Wilson,Ilana B. Witten,Lauren E Wool,Anthony M. Zador +35 more
TL;DR: It is shown that a standardized task to probe decision-making in mice produces reproducible results across multiple laboratories, and this work establishes a standard for reproducible rodent behavior and indicates a path towards achieving reproducibility in neuroscience through collaborative open-science approaches.