Ground-Motion Relational Database (GMDB)

The Ground-Motion Relational Database (GMDB) has been developed for researchers/engineers to access global ground-motion data and related metadata. The processed time series data, associated metadata, and ground motion intensity measures are organized into a web-served relational database consisting of 32 tables connected by primary/foreign key pairs. Ground motion metadata and intensity measures (but not time series) from the NGA-East and NGA-West2 projects are also contained in the database.

If you utilize this website and would like to cite it, please use the reference below. This citation reflects the work required to develop the website and populate it with data, and should not substitute for citing the original data source(s). We suggest citing the original sources of data when feasible.

Buckreis, T.E., C.C. Nweke, P. Wang, S.J. Brandenberg, M.E. Ramos-Sepulveda, R. Shams, R. Pretell, S. Mazzoni, P. Zimmaro, and J.P. Stewart (2023) Web portal for the global earthquake ground motion relational database. The B. John Garrick Institute for the Risk Sciences. DOI: 10.34948/G4RP4K

1. Buckreis, T.E., C.C. Nweke, P. Wang, S.J. Brandenberg, S. Mazzoni, and J.P. Stewart (2023) Relational database for California strong ground motions, Geo-Congress 2023: Geotechnical Data Analysis and Computation, Los Angeles, CA, March 2023, Geotechnical Special Publication No. 342, E.M. Rathje, B. Montoya, and M.H. Wayne (Eds.), 461-470, ASCE Geo-Institute.

1. Nweke, C.C., J.P. Stewart, P. Wang, and S.J. Brandenberg (2022) Site response of sedimentary basins and other geomorphic provinces in southern California, Earthq. Spectra 38(3): 2207-2234.
2. Ramos-Sepulveda, M.E., G.A. Parker, M. Li, O. Ilhan, Y.M.A. Hashash, E.M. Rathje, and J.P. Stewart (2022) Performance of NGA-East GMMs and site amplification models relative to CENA ground motions, 12th National Conference on Earthquake Engineering, EERI, Salt Lake City, UT, Jun 27 - Jul 1, 2022.
3. Buckreis, T.E., J.P. Stewart, S.J. Brandenberg, and P. Wang (2023) Subregional anelastic attenuation model for California, Bull. Seimol. Soc. Am. (pre-print).