Show simple item record

dc.contributor.authorMolina Molina, Gladys Patriciaspa
dc.contributor.authorAlfaro Castillo, Andrés Joséspa
dc.descriptionThis paper brings up three aspects of a seismic input assessment for the city of Tunja, first, a probabilistic earthquake hazard assessment, secondly, a rock design earthquake spectrum for a 475-year return. And finally a soil predominant period map using a Horizontal to Vertical Spectral Ratio –HVSR– over imposed to the surface soil classification.eng
dc.descriptionEste artículo presenta tres aspectos de la evaluación de la acción sísmica para la ciudad de Tunja, en primer lugar una evaluación probabilista de la amenaza sísmica, en segundo lugar se presenta un espectro sísmico de diseño en roca para un período de retorno de 475 años y por último un mapa de periodos predominantes del suelo a partir de estudios de Relación espectral HVSR superpuesto a la clasificación de suelos en
dc.publisherUniversidad Militar Nueva Granadaspa
dc.rightsDerechos de autor 2016 Ciencia e Ingeniería Neogranadinaspa
dc.sourceCiencia e Ingenieria Neogranadina; Vol 19 No 2 (2009); 17-28eng
dc.sourceCiencia e Ingeniería Neogranadina; Vol. 19 Núm. 2 (2009); 17-28spa
dc.sourceCiencia e Ingeniería Neogranadina; v. 19 n. 2 (2009); 17-28por
dc.titleSeismic input assessment for Tunja - Colombiaeng
dc.titleEvaluación de la acción sísmica para Tunja - Colombiaspa
dc.relation.references/*ref*/Alfaro-Arias C., Van Hissenhoven R. y ALFARO A. (2001) Caracterización en el Dominio de la Frecuencia de Sismos Colombianos. Memorias XIV Jornadas Estructurales de la Ingeniería de Colombia, Bogotá.
dc.relation.references/*ref*/Alfaro, A. (2006) Caracterización Dinámica de Suelos Mediante Microtemblores - HVSR y Arreglos. Universidad de La Salle. ISBN 978-958-9290-73-6. 103 págs.
dc.relation.references/*ref*/Ambraseys, N., & Douglas, J. 2000 (Aug). Reappraisal of the effect of vertical ground motions on response. ESEE Report 00-4. Department of Civil and Environmental Engineering, Imperial College, London.
dc.relation.references/*ref*/Arévalo, N. T. Caicedo, R. Van Hissenhoven y Alfaro A. (2003) Contenidos Frecuenciales de sismos colombianos registrados en BOCO (Bogotá) y SDV (Santo Domingo, Venezuela) (1994-1996) Ingeniería y Universidad. Vol 7, No 1, pp 19-31.
dc.relation.references/*ref*/Chavarria, L., 1997. Manuals de programes per a l’anàlisi freqüencial i temporal d’enregistraments sísmics digitats. Informe SGC No. GS93/97.
dc.relation.references/*ref*/Douglas, J. A. Comprehensive Worldwide Summary of Strong-Motion Attenuation Relationships for Peak Ground Acceleration and Spectral Ordinates (1969 to 2000). London: Imperial College of Science, Technology and Medicine, 2001.
dc.relation.references/*ref*/Douglas, J.A. Errata and additions to ESEE Report No. 01-1 “A comprehensive worldwide for peak ground acceleration and spectral ordinates (1969to 2000)”. London: Imperial College of Sciencie Technology and Medicine, 2002.
dc.relation.references/*ref*/Dziewonski, A. y Woodhouse, J. An experiment in the systematic study of global seismicity: centroid-moment tensor solutions for 201 moderate and large earthquakes of 1981, J. Geophys. Res., 88 (1983): 3247-3271.
dc.relation.references/*ref*/Dziewonski, A., Chou, T. y Woodhouse, J. «Determination of earthquake source parameters from waveform data for studies of global and regional seismicity». J. Geophys. Res., 86 (1981): 2825-2852.
dc.relation.references/*ref*/Fukushima, Y., Tanaka, T., & Kataoka, S. 1988. A new attenuation relationship for peak ground acceleration derived from strong-motion accelerograms. Pages 343–348 of: Proceedings of Ninth World Conference on Earthquake Engineering, vol. II.
dc.relation.references/*ref*/Fukushima, Y., & Tanaka, T. 1990. A new attenuation relation for peak horizontal acceleration of strong earthquake ground motion in Japan. Bulletin of the Seismological Society of America, 80(4), 757–783.
dc.relation.references/*ref*/Guacaneme, J. Microzonificación Sísmica Preliminar de Tunja. Trabajo de Grado.Pontificia Universidad Javeriana. Bogotá, 2000.
dc.relation.references/*ref*/Guacaneme, J. Zonificación de suelos en superficie de la ciudad de Tunja, Colombia. Revista Epsilon 6, pp 29-44. 2006.
dc.relation.references/*ref*/Hanks, T. y Cornell, C. Probabilistic Seismic Hazard Analysis: A Beginner’s Guide. In Proceedings of the Fifth Symposium on Current Issues Related to Nuclear Power Plant Structures, Equipment and Piping, North Carolina State University, Raleigh. (1994): I/1-1 to I/1-17.
dc.relation.references/*ref*/Harvard (2009)<>
dc.relation.references/*ref*/Housner, G.W. (1941) Calculations of the response of an oscillator to arbitrary ground motion, Bull. Seism. Soc. Am. 31, 143-149.
dc.relation.references/*ref*/Molina Molina, P., Evaluación Probabilística de la Amenaza Sísmica regional para Tunja. Trabajo de Grado. Ingeniería Civil. Universidad de La Salle. 2008.
dc.relation.references/*ref*/Nakamura, Y., 1989. A method for dynamic characteristics estimation of surface using microtremor on the ground surface, Quarterly Rep of RTRF, 30, 1, February, 25-33.
dc.relation.references/*ref*/Newmark, N.M. y Hall, W.J. (1982) Earthquake Spectra and design. Monograph, Earthquake Engineering Research Institute, Berkeley, California.
dc.relation.references/*ref*/Nigam, N.C. and Jennings, P.C. (1969) Calculation of Response Spectra From Strong Motion Earthquake Records, Bull. Seis. Soc. Amer., 59:2, pp. 909-922.
dc.relation.references/*ref*/Páez, C. y O. Rincón, Determinación de los periodos predominantes de los depósitos de suelo de la ciudad de Tunja a partir de microtremors y diseño de la red acelerográfica de Boyacá etapa I: Trabajo de Grado Facultad de Ingeniería Universidad Pedagógica y Tecnológica de Colombia.
dc.relation.references/*ref*/Patwardhan, K.; Sadigh, I. M.; Idriss and Youngs, R. 1978. Attenuation of Strong Motion Effect of Site Conditions. Transmission Path Characteristics and Focal Depths, submitted to the Bull. Seismological Society of America.
dc.relation.references/*ref*/Ramírez J.E. (1975) Historia de los terremotos en Colombia. Instituto Geográfico Agustín Codazzi-IGAC. Bogotá. 285 pág.
dc.relation.references/*ref*/Sarma, S.K., & Srbulov, M. 1996. A simplified method for prediction of kinematic soil-foundation interaction effects on peak horizontal acceleration of a rigid foundation. Earthquake Engineering and Structural Dynamics, 25(8), 815–836.
dc.relation.references/*ref*/Sarma, S.K., & Srbulov, M. 1998. A uniform estimation of some basic ground motion parameters. Journal of Earthquake Engineering, 2(2), 267–287.
dc.relation.references/*ref*/Smit, P.; Arzoumanian, V.; Javakhishvili, Z.; Arefiev, S.; Mayer-Rosa, D.; Balassanian,S., & Chelidze, T.; 2000. The digital accelerograph network in the Caucasus. In: Balassanian, S. (ed), Earthquake Hazard and Seismic Risk Reduction — Advances in Natural and Technological Hazards Research. Kluwer Academic Publishers. Presented at 2nd International Conference on Earthquake Hazard and Seismic Risk Reduction, Yerevan, Armenia, 15/9/1998–21/9/1998.
dc.relation.references/*ref*/Takada, T. “Seismic Macro Zonation”. International Institute of Seismology and Earthquake Engineering. Lectures Notes. 2005.
dc.relation.references/*ref*/USGS - United States Geological Survey. URL: <> [2009].
dc.relation.references/*ref*/Wessel, P. y Smith, W. The Generic Mapping Tools Version 4 - Technical Reference and Cookbook. [2004].
dc.relation.references/*ref*/Woodhouse, J. y Dziewonski, A. «Mapping the upper mantle: three dimensional modelling of Earth structure by inversion of seismic waveforms». J. Geophys. Res.89 (1984): 5953-5986.
dc.subject.proposalearthquake hazardeng
dc.subject.proposalearthquake spectrumeng
dc.subject.proposalpredominant periodseng
dc.subject.proposalespectro sísmicospa
dc.subject.proposalperiodos predominantesspa

Files in this item


There are no files associated with this item.

This item appears in the following Collection(s)

Show simple item record