Last edited by Nimi
Tuesday, August 11, 2020 | History

3 edition of Reading and interpreting strong motion accelerograms found in the catalog.

Reading and interpreting strong motion accelerograms

Donald E. Hudson

Reading and interpreting strong motion accelerograms

by Donald E. Hudson

  • 57 Want to read
  • 39 Currently reading

Published by Earthquake Engineering Research Institute in Berkeley .
Written in English

    Subjects:
  • Accelerograms.,
  • Seismometry.

  • Edition Notes

    Bibliography: p. 71-76.

    Statementby D. E. Hudson.
    SeriesEngineering monographs on earthquake criteria, structural design, and strong motion records ;, v. 1
    Classifications
    LC ClassificationsTA654.6 .H83
    The Physical Object
    Pagination112 p. :
    Number of Pages112
    ID Numbers
    Open LibraryOL4428397M
    LC Control Number79053973

    This earthquake was recorded by 65 stations of the Los Angeles Strong Motion Array, at epicentral distances from 2 to 85 km. Histograms showing distribution of the misalignment angles, light beam incidence angle θ 0 (for unloaded position) and the transducer sensitivities are presented. These indicate that the misalignment angles are typically. Processing of strong-motion accelerograms: needs, options and consequences. Soil Dynamics and Earthquake Engineering, 25() Chryssanthopoulos, Mario K., Dymiotis, Christiana., Kappos, Andreas J. (). Probabilistic Evaluation of Behaviour Factors in EC8- Designed R/C Frames. Eng Struct

    Reading and interpreting strong motion accelerograms Earthquake Engineering Research Institute, Berkeley, CA, pp. Google Scholar Ingle and Proakis, PWS Publishing Company, Boston. Seismic loading is one of the basic concepts of earthquake engineering which means application of an earthquake-generated agitation to a happens at contact surfaces of a structure either with the ground, or with adjacent structures, or with gravity waves from tsunami.. Seismic loading depends, primarily, on: This seismology article is a stub.

    Mechanics of earthquakes and strong motion; Seismic design criteria; Building codes and Applied Technology Council’s publications. GRADING The final grades for the course will be based on the following percentages: Homework 25% Project(s) 20% Mid–Term Exam 25% Final Exam 30% _____ Total % ATTENDANCE. European Strong-Motion Database: Imperial College of Science, Technology and Medicine, Department of Civil and Environmental Engineering, Engineering Seismology and Earthquake Engineering, London. Nigam C., and Jennings C. (): Calculation of response spectra from strong-motion .


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Reading and interpreting strong motion accelerograms by Donald E. Hudson Download PDF EPUB FB2

Reading and Interpreting Strong Motion Accelerograms by D. Hudson, DecemberEarthquake Engineering Research edition, Hardcover. Reading and Interpreting Strong Motion Accelerograms Volume 1 of Engineering monographs on earthquake criteria, structural design, and strong motion records: Author: Donald E.

Hudson: Publisher: Earthquake Engineering Research Institute, Original from: the University of Michigan: Digitized: Length: pages: Export. Additional Physical Format: Online version: Hudson, Donald E., Reading and interpreting strong motion accelerograms. Berkeley: Earthquake Engineering Research Institute, Reading and interpreting strong motion accelerograms book.

Reading and interpreting strong motion accelerograms (Engineering monographs on earthquake criteria, structural design, and strong motion records) [Donald E Hudson] on *FREE* shipping on qualifying : Donald E Hudson.

Reading and Interpreting Strong Motion Accelerograms by Hudson, D. Hardcover available at Half Price Books®   Reading and Interpreting Strong Motion Accelerograms by D.

Hudson,available at Book Depository with free delivery worldwide.4/5(1). Stanford Libraries' official online search tool for books, media, journals, databases, government documents and more. Reading and interpreting strong motion accelerograms in SearchWorks catalog Skip to search Skip to main content.

There is an entire science of strong ground motion, that is dedicated to studying the shaking in the vicinity of earthquakes (roughly within about km of the fault rupture).

Accelerographs record the acceleration of the ground with respect to time. This recording is often called an accelerograms, strong-motion record or acceleration time. A set of time-synchronized strong-motion accelerograms, obtained on the San Juan Bautista / Separation Bridge in California during the 6 August Coyote Lake earthquake (ML = ), are used to study the spatial variation of ground motion at the bridge site, including traveling wave effects and the.

Analysis of current methods of interpreting strong-motion accelerograms Anshel Schiff; that reading errors in accelerogram charts, as they are currently being recorded, can cause significant errors in response spectra; (c) that limitations of current seismographs may attenuate the high frequency content in strong-motion seismic shocks or.

Hudson, D. [] "Reading and interpreting strong motion accelerograms," EERI Monograph, Earthquake Engineering Research Institute, Oakland, California. Google Scholar; Idriss, I.

[] "Procedures for selecting earthquake ground motions at rock sites," NIST GCRNational Institute of Standards and Technology, Gaithersburg, MD. Some accelerograms are affected by non-standard recording and digitization problems that mean they are often not used in strong-motion studies.

These non-standard problems cannot be corrected by the standard processing techniques that remove low and high-frequency noise from the time-history. Records from analogue instruments are more prone to these problems but even records from digital. A knowledge of the seismic ground motion is essential to understanding the earthquake behavior of structures.

The basic data of earthquake engineering are the records of ground acceleration during moderate-to-strong earthquakes (Housner ).Acceleration time series (also known as accelerograms and strong-motion records) are the acceleration of the ground sampled many.

For additional reading on FFT’s and digital signal processing, I’ve found the following to contain useful information: Reading and Interpreting Strong Motion Accelerograms.

EERI Engineering Monographs on Earthquake Criteria, Structural Design, and Strong Motion Records, Vol. Modify accelerograms to meet one or more target spectra defined at different damping levels.

2 2 π T D where T D is the strong motion duration over which |V g Reading and interpreting strong motion accelerograms, Earthquake. Seismic load is one of the basic concepts of earthquake engineering which means application of an earthquake-generated agitation to a building structure or its happens at contact surfaces of a structure either with the ground, or with adjacent structures, or with gravity waves from tsunami.

Wikimedia Commons has media related to Earthquake damage. Corpus ID: Engineering Characterization of Ground Motion Introduction Strong-motion Recordings Historical Perspective @bullet Examples of Acceleration and Velocity Time Series @bullet Processing Strong-motion Records @bullet Sources of Strong-motion Records Characteristics of Strong-motion Spectra.

observed according to the techniques of data handling in the case of analysis of strong motion accelerograms. In the first part of this paper are discussed the data processing methods used for strong motion accelerograms so as to get most accurately the ground velocity and displacement.

The effects of errors in interpreting accelerograms which. Reading and Interpreting Strong Motion Accelero- motion accelerograms, Earthquake Engineering Research Laboratory, Strong-motion recordings may have physically implausible trends due to.

Reading and interpreting strong motion accelerograms. EERI Engineering Monographs on Earthquake Criteria, Structural Design, and Strong Motion Records, Vol.

Reading and Interpreting Strong Motion Accelerograms Earthquake Engineering Research Institute, Oakland, California, USA, Key, D. McGraw Hill Books Company, Krishna K.

Seismic Response of Concrete Bridges ACI International, Geotechnical Engineering. The first strong-motion accelerograms were obtained in the Long Beach (California) earthquake of March Over the 70 years since the Long Beach earthquake, thousands of accelerographs have been installed around the world and the global databank of strong-motion records—which already numbers tens of thousands—continues to grow at an ever.

Reading and interpreting strong motion accelerograms. EERI Engineering Monographs on Earthquake Criteria, Structural Design, and Strong Motion Records, Vol.

.