Dale Zhou
University of Pennsylvania
28 Papers
54 Citations
Dale Zhou is an academic researcher from University of Pennsylvania. The author has contributed to research in topics: Computer science & Curiosity. The author has an hindex of 8, co-authored 18 publications. Previous affiliations of Dale Zhou include National Institutes of Health.
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Papers
Racial and ethnic imbalance in neuroscience reference lists and intersections with gender
Maxwell A. Bertolero,Jordan D. Dworkin,Jordan D. Dworkin,Sophia David,Claudia López Lloreda,Pragya Srivastava,Jennifer Stiso,Dale Zhou,Kafui Dzirasa,Damien A. Fair,Antonia N. Kaczkurkin,Bianca J. Marlin,Daphna Shohamy,Lucina Q. Uddin,Perry Zurn,Danielle S. Bassett +15 more
TL;DR: It is shown that reference lists tend to include more papers with a White person as first and last author than would be expected if race and ethnicity were unrelated to referencing, and this imbalance is driven largely by the citation practices of White authors, and is increasing over time even as the field diversifies.
Gendered Citation Practices in the Field of Communication.
X. Wang,Jordan D. Dworkin,Dale Zhou,Jennifer Stiso,Emily B. Falk,Danielle S. Bassett,Perry Zurn,David M. Lydon-Staley,David M. Lydon-Staley +8 more
TL;DR: This paper found that citations of women as first and last authors attract fewer citations than papers with men in those positions than would be expected if gender were unrelated to referencing, and the imbalance is driven largely by the citation practices of men and is slowly decreasing over time.
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Models of communication and control for brain networks: distinctions, convergence, and future outlook
Pragya Srivastava,Erfan Nozari,Jason Z. Kim,Harang Ju,Dale Zhou,Cassiano O. Becker,Fabio Pasqualetti,Danielle S. Bassett +7 more
TL;DR: In this paper, the authors explicitly bridge computational models of communication and principles of network control in a conceptual review of the current literature and highlight the convergence of and distinctions between the two frameworks.
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ASLPrep: a platform for processing of arterial spin labeled MRI and quantification of regional brain perfusion
Azeez Adebimpe,Maxwell A. Bertolero,Sudipto Dolui,Matthew Cieslak,Kristin Murtha,Erica B. Baller,Bradley F. Boeve,Ellyn R. Butler,Phillip A. Cook,Stan Colcombe,S. Covitz,Christos Davatzikos,Diego Davila,Mark A. Elliott,Matthew W Flounders,Alexandre R. Franco,Raquel E. Gur,Ruben C. Gur,Basma Jaber,Corey McMillian,Liana G. Apostolova,Brian S. Appleby,Sami Barmada,Yvette Bordelon,Hugo Botha,Adam L. Boxer,Andrea Bozoki,Danielle Brushaber,David Clark,Giovanni Coppola,Ryan Darby,Dennis W. Dickson,Kimiko Domoto-Reilly,Kelley Faber,Annette Fagan,Julie A. Fields,Tatiana Foroud,Leah K. Forsberg,Daniel H. Geschwind,Jill Goldman,Douglas Galasko,Ralitza H. Gavrilova,Tania F. Gendron,Jon Graff-Radford,Neill R. Graff-Radford,Ian Grant,Murray Grossman,Matthew Hall,Eric J. Huang,Hilary W. Heuer,Ging-Yuek Robin Hsiung,Edward D. Huey,David J. Irwin,David T. Jones,Kejal Kantarci,Daniela Kaufer,Diana R. Kerwin,David S. Knopman,John Kornak,Joel H. Kramer,W. Kremers,Marie Francine Therese Ruiz Lapid,Argentina Lario Lago,Gabriel C. Léger,Peter A. Ljubenkov,Irene Litvan,Diane Lucente,Ian R. A. Mackenzie,Joseph C. Masdeu,Scott Paul McGinnis,Mario F. Mendez,Carly T. Mester,Bruce L. Miller,Chiadi U. Onyike,M. B. Pascual,Leonard Petrucelli,Peter Pressman,Rosa Rademakers,Vijay K. Ramanan,Eliana Marisa Ramos,Meghana Rao,Katya Rascovsky,Katherine P. Rankin,Aaron Ritter,Erik D. Roberson,Julio Cesar Rojas-Martinez,Rodolfo Savica,William W. Seeley,Jeremy Syrjanen,Adam M. Staffaroni,Maria Carmela Tartaglia,Jack Draper Taylor,Lawren VandeVrede,Sandra Weintraub,Bonnie Wong,Zbigniew K. Wszolek,Michael P. Milham,Henri J.M.M. Mutsaerts,Desmond J. Oathes,Christopher Olm,Jeffrey S. Phillips,William C. Tackett,David R. Roalf,Howard J. Rosen,Tinashe M. Tapera,M. Dylan Tisdall,Dale Zhou,Oscar Esteban,Russell A. Poldrack,John A. Detre,Theodore D. Satterthwaite +110 more
TL;DR: ASLPrep, a suite of software pipelines that ensure the reproducible and generalizable processing of ASL MRI data, is introduced.
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