T
Trevor Hastie
Researcher at Stanford University
Publications - 428
Citations - 230646
Trevor Hastie is an academic researcher from Stanford University. The author has contributed to research in topics: Lasso (statistics) & Feature selection. The author has an hindex of 124, co-authored 412 publications receiving 202592 citations. Previous affiliations of Trevor Hastie include University of Waterloo & University of Toronto.
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Novel methods for the design and evaluation of marine protected areas in offshore waters
John R. Leathwick,Atte Moilanen,Malcolm P. Francis,Jane Elith,Paul Taylor,K. Julian,Trevor Hastie,Clinton A. J. Duffy +7 more
TL;DR: In this article, the authors demonstrate the use of recent advances in statistical learning and conservation prioritization to produce MPA scenarios with varying costs and benefits for New Zealand's Exclusive Economic Zone, based on the analyses of distributions of 96 demersal fish species.
Journal ArticleDOI
The importance of transparency and reproducibility in artificial intelligence research
Benjamin Haibe-Kains,George Alexandru Adam,Ahmed Hosny,Farnoosh Khodakarami,Levi Waldron,Bo Wang,Chris McIntosh,Anshul Kundaje,Casey S. Greene,Michael M. Hoffman,Jeffrey T. Leek,Wolfgang Huber,Alvis Brazma,Joelle Pineau,Robert Tibshirani,Trevor Hastie,John P. A. Ioannidis,John Quackenbush,Hugo J.W.L. Aerts +18 more
TL;DR: In this article, the authors identify obstacles hindering transparent and reproducible AI research as faced by McKinney et al. and provide solutions with implications for the broader field, including the broader cancer screening.
Journal ArticleDOI
Dispersal, disturbance and the contrasting biogeographies of New Zealand’s diadromous and non-diadromous fish species
TL;DR: In this article, the authors examined the relationship between diadromy and dispersal ability in New Zealand's freshwater fish fauna, and how this affects the current environmental and geographic distributions of both diadromous and non-diadromeous species.
Journal ArticleDOI
Molecular Transducers of Physical Activity Consortium (MoTrPAC): Mapping the Dynamic Responses to Exercise.
James A. Sanford,Christopher D. Nogiec,Malene E. Lindholm,Joshua N. Adkins,David Amar,Surendra Dasari,Jonelle K. Drugan,Facundo M. Fernández,Shlomit Radom-Aizik,Simon Schenk,Michael Snyder,Russell P. Tracy,Patrick M. Vanderboom,Scott Trappe,Martin J. Walsh,Charles R. Evans,Yafeng Li,Lyl Tomlinson,D. Lee Alekel,Iddil Bekirov,Amanda T. Boyce,Josephine Boyington,Jerome L. Fleg,Lyndon Joseph,Maren R. Laughlin,Padma Maruvada,Stephanie A. Morris,Joan McGowan,Concepcion R. Nierras,Vinay Pai,Charlotte A. Peterson,Ed Ramos,Mary Roary,John P. Williams,Ashley Xia,Elaine Cornell,Jessica Rooney,Michael Miller,Walter T. Ambrosius,Scott Rushing,Cynthia L. Stowe,W. Jack Rejeski,Barbara J. Nicklas,Marco Pahor,Ching-ju Lu,Todd A. Trappe,Toby Chambers,Ulrika Raue,Bridget Lester,Bryan C. Bergman,David H. Bessesen,Catherine M. Jankowski,Wendy M. Kohrt,Edward L. Melanson,Kerrie L. Moreau,Irene E. Schauer,Robert S. Schwartz,William E. Kraus,Cris A. Slentz,Kim M. Huffman,Johanna L. Johnson,Leslie H. Willis,L S. Kelly,Joseph A. Houmard,Gabriel S. Dubis,Nick Broskey,Bret H. Goodpaster,Lauren M. Sparks,Paul M. Coen,Dan M. Cooper,Fadia Haddad,Tuomo Rankinen,Eric Ravussin,Neil M. Johannsen,Melissa Harris,John M. Jakicic,Anne B. Newman,Daniel Forman,Erin E. Kershaw,Renee J. Rogers,Bradley C. Nindl,Lindsay C. Page,Maja Stefanovic-Racic,Susan Barr,Blake B. Rasmussen,Tatiana Moro,Doug Paddon-Jones,Elena Volpi,Heidi Spratt,Nicolas Musi,Sara E. Espinoza,Darpan I. Patel,Monica C. Serra,Jonathan Gelfond,Aisling Burns,Marcas M. Bamman,Thomas W. Buford,Gary Cutter,Sue C. Bodine,Karyn A. Esser,Rodger P. Farrar,Laurie J. Goodyear,Michael F. Hirshman,Brent G. Albertson,Wei-Jun Qian,Paul D. Piehowski,Marina A. Gritsenko,Matthew E. Monore,Vladislav A. Petyuk,Jason E. McDermott,Joshua N. Hansen,Chelsea Hutchison,Samuel G. Moore,David A. Gaul,Clary B. Clish,Julian Avila-Pacheco,Courtney Dennis,Manolis Kellis,Steve Carr,Pierre M. Jean-Beltran,Hasmik Keshishian,D. R. Mani,Karl R. Clauser,Karsten Krug,Charlie Mundorff,Cadence Pearce,Anna A. Ivanova,Eric A. Ortlund,Kristal M. Maner-Smith,Karan Uppal,Tiantian Zhang,Stuart C. Sealfon,Elena Zaslavsky,Venugopalan D. Nair,SiDe Li,Nimisha Jain,Yongchao Ge,Yifei Sun,German Nudelman,Frederique Ruf-Zamojski,Gregory R. Smith,Nhanna Pincas,Aliza B. Rubenstein,Mary Anne S. Amper,Nitish Seenarine,Tuuli Lappalainen,Ian R. Lanza,K. Sreekumaran Nair,Katherine Klaus,Stephen B. Montgomery,Kevin S. Smith,Bingqing Zhao,Chia-Jiu Hung,Navid Zebarjadi,Brunilda Balliu,Laure Fresard,Charles F. Burant,Jun Li,Maureen Kachman,Tanu Soni,Alexander B. Raskind,Robert E. Gerszten,Jeremy M. Robbins,Olga Ilkayeva,Michael J. Muehlbauer,Christopher B. Newgard,Euan A. Ashley,Matthew T. Wheeler,David Jimenez-Morales,Archana Raja,Karen P. Dalton,Jimmy Zhen,Young Suk Kim,Jeffrey W. Christle,Shruti Marwaha,Elizabeth T Chin,Steven G. Hershman,Trevor Hastie,Robert Tibshirani,Manuel A. Rivas +179 more
TL;DR: The Molecular Transducers of Physical Activity Consortium (MoTrPAC) will provide a public database that is expected to enhance the understanding of the health benefits of exercise and to provide insight into how physical activity mitigates disease.