PRENOLIN project. Results of the validation phase at sendai site

Julie, Régnier; Luis-Fabian, Bonilla; Pierre-Yves, Bard; Hirosho, Kawase; Etienne, Bertrand; Fabrice, Hollender; Deborah, Sicillia; Atsushi, Nozu; Arduino, Pedro; Amorosi, Angelo; Assimaki, Dominiki; Boldini, Daniela; Chen, Long; Chiaradonna, Anna; Demartin, Florent; Ebrille, Marco; Falcone, Gaetano; Foerster, Evelyne; Foti, Sebastiano; Garini, Evangelia; Gazetas, George; Gélis, Céline; Ghofrani, Alborz; Gingery, Jim; Glinsky, Nathalie; Harmon, Joseph; Hashash, Youssef; Iai, Susumu; Jeremić, Boris; Kramer, Steve; Kontoe, Stavroula; Kristek, Jozef; Lanzo, Giuseppe; Annamaria di Lernia,; Lopez-Caballero, Fernando; Marot, Marianne; Mcallister, Graeme; Diego Mercerat, E.; Moczo, Peter; Montoya-Noguera, Silvana; Musgrove, Michael; Nieto-Ferro, Alex; Pagliaroli, Alessandro; Pisanò, Federico; Richterova, Aneta; Sajana, Suwal; Maria Paola Santisi d'Avila,; Shi, Jian; Silvestri, Francesco; Taiebat, Mahdi; Tropeano, Giuseppe; Verrucci, Luca; Watanabe, Kohei

One of the objectives of the PRENOLIN project is the assessment of uncertainties associated with non-linear simulation of 1D site effects. An international benchmark is underway to test several numerical codes, including various non-linear soil constitutive models, to compute the non-linear seismic site response. The preliminary verification phase (i.e. comparison between numerical codes on simple, idealistic cases) is now followed by the validation phase, which compares predictions of such numerical estimations with actual strong motion data recorded from well-known sites. The benchmark presently involves 21 teams and 21 different non-linear computations. Extensive site characterization was performed at three sites of the Japanese KiK-net and PARI networks. This paper focuses on SENDAI site. The first results indicate that a careful analysis of the data for the lab measurement is required. The linear site response is overestimated while the non-linear effects are underestimated in the first iteration. According to these observations, a first set of recommendations for defining the non-linear soil parameters from lab measurements is proposed. PRENOLIN is part of two larger projects: SINAPS@, funded by the ANR (French National Research Agency) and SIGMA, funded by a consortium of nuclear operators (EDF, CEA, AREVA, ENL).

PRENOLIN project. Results of the validation phase at sendai site / Julie, Régnier; Luis-Fabian, Bonilla; Pierre-Yves, Bard; Hirosho, Kawase; Etienne, Bertrand; Fabrice, Hollender; Deborah, Sicillia; Atsushi, Nozu; Arduino, Pedro; Amorosi, Angelo; Assimaki, Dominiki; Boldini, Daniela; Chen, Long; Chiaradonna, Anna; Demartin, Florent; Ebrille, Marco; Falcone, Gaetano; Foerster, Evelyne; Foti, Sebastiano; Garini, Evangelia; Gazetas, George; Gélis, Céline; Ghofrani, Alborz; Gingery, Jim; Glinsky, Nathalie; Harmon, Joseph; Hashash, Youssef; Iai, Susumu; Jeremić, Boris; Kramer, Steve; Kontoe, Stavroula; Kristek, Jozef; Lanzo, Giuseppe; di Lernia, Annamaria; Lopez-Caballero, Fernando; Marot, Marianne; Mcallister, Graeme; Diego Mercerat, E.; Moczo, Peter; Montoya-Noguera, Silvana; Musgrove, Michael; Nieto-Ferro, Alex; Pagliaroli, Alessandro; Pisanò, Federico; Richterova, Aneta; Sajana, Suwal; Paola Santisi d'Avila, Maria; Shi, Jian; Silvestri, Francesco; Taiebat, Mahdi; Tropeano, Giuseppe; Verrucci, Luca; Watanabe, Kohei. - ELETTRONICO. - (2017). (Intervento presentato al convegno Resilience - the new challenge in earthquake engineering tenutosi a Santiago Chile nel 9-13 gennaio 2017).