P
Pedro Arduino
Researcher at University of Washington
Publications - 94
Citations - 2030
Pedro Arduino is an academic researcher from University of Washington. The author has contributed to research in topics: Material point method & Liquefaction. The author has an hindex of 23, co-authored 86 publications receiving 1544 citations. Previous affiliations of Pedro Arduino include University of Texas at Arlington & Louisiana State University.
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Journal ArticleDOI
DesignSafe: New Cyberinfrastructure for Natural Hazards Engineering
Ellen M. Rathje,Clint Dawson,Jamie E. Padgett,Jean-Paul Pinelli,Dan Stanzione,Ashley Adair,Pedro Arduino,Scott J. Brandenberg,Timothy M. Cockerill,Charlie Dey,Maria Esteva,Fred L. Haan,Matthew R. Hanlon,Ahsan Kareem,Laura N. Lowes,Stephen Mock,Gilberto Mosqueda +16 more
TL;DR: The design of resilient and sustainable infrastructure based on natural hazards engineering principles will help to reduce the impact of natural hazards on society and improve the ability of infrastructure to withstand natural disasters.
Estimation of Uncertainty in Geotechnical Properties for Performance-Based Earthquake Engineering
TL;DR: In this paper, the authors present a Table of Table of contents of the table. And acknowledgments and acknowledgments of the Table of Contents. And Table of content of the tables.
Journal ArticleDOI
Geotechnical Characterization and Random Field Modeling of Desiccated Clay
TL;DR: In this article, an extensive set of in situ and laboratory test data is presented for a footing load test site east of Houston, Texas, in desiccated Beaumont clay.
Journal ArticleDOI
International Benchmark on Numerical Simulations for 1D, Nonlinear Site Response (PRENOLIN): Verification Phase Based on Canonical Cases
Julie Régnier,Luis Fabian Bonilla,Pierre-Yves Bard,Etienne Bertrand,Fabrice Hollender,Hiroshi Kawase,Deborah Sicilia,Pedro Arduino,Angelo Amorosi,Domniki Asimaki,Daniela Boldini,Long Chen,Anna Chiaradonna,Florent Demartin,Marco Ebrille,Ahmed Elgamal,Gaetano Falcone,Evelyne Foerster,Sebastiano Foti,Evangelia Garini,George Gazetas,Céline Gélis,Alborz Ghofrani,Amalia Giannakou,James R. Gingery,Nathalie Glinsky,Joseph Harmon,Youssef M. A. Hashash,Susumu Iai,Boris Jeremić,Steve Kramer,Stavroula Kontoe,Jozef Kristek,Giuseppe Lanzo,Annamaria di Lernia,Fernando Lopez-Caballero,Marianne Marot,Graeme McAllister,E. Diego Mercerat,Peter Moczo,Silvana Montoya-Noguera,Michael Musgrove,Alex Nieto-Ferro,Alessandro Pagliaroli,Federico Pisanò,Aneta Richterova,Suwal Sajana,Maria Paola Santisi d'Avila,Jian Shi,Francesco Silvestri,Mahdi Taiebat,Giuseppe Tropeano,Luca Verrucci,Kohei Watanabe +53 more
TL;DR: In this paper, the epistemic uncertainties related only to wave propagation modeling using different nonlinear constitutive models are shown to increase with the strain level and to reach values around 0.2 (log(10) scale) for a peak ground acceleration of 5''m/s^2 at the base of the soil column, which may be reduced by almost 50% when the various constitutive model used the same shear strength and damping implementation.
Journal ArticleDOI
Site Response in a Layered Liquefiable Deposit: Evaluation of Different Numerical Tools and Methodologies with Centrifuge Experimental Results
Jenny Ramirez,Andres R. Barrero,Long Chen,Shideh Dashti,Alborz Ghofrani,Mahdi Taiebat,Pedro Arduino +6 more
TL;DR: In this article, the results of a centrifuge experiment simulating seismic site response in a layered level liquefiable soil profile are used to evaluate and systematically compare the predictive capabilities of predictive capabilities.