A fuzzy neural network prediction model of the principal motions of earthquakes based on preliminary tremors

Author

Tsunekawa, H.

Author_Institution

Takenaka Corp., Chiba

Volume

1

fYear

1998

fDate

31 Aug-4 Sep 1998

Firstpage

46

Abstract

A technique to predict principal motions of earthquakes using preliminary tremors, has been developed. Taking advantage of the time lag between them, we can take suitable countermeasures against the principal motions that affect urban structures; e.g. an escape from dangerous zones, stopping elevators and gas supply, and activating AMD (active mass damper) systems. A structured neural network is used to construct a peak ground acceleration prediction model, where inputs are fuzzified shaking direction data, and power spectrum and maximum acceleration of preliminary tremors. The proposed model has been improved by handling some earthquakes in Ibaraki-ken south-west zone that least fit the model as exceptions. Mean square error of the improved model is reduced to one third of the statistical model

Keywords

earthquakes; fuzzy neural nets; geophysics computing; Ibaraki-ken south-west zone; Japan; earthquake motions; fuzzified shaking direction data; fuzzy neural network prediction model; maximum acceleration; mean square error; peak ground acceleration prediction model; power spectrum; preliminary tremors; statistical model; structured neural network; urban structures; Acceleration; Earthquakes; Fuzzy neural networks; Mean square error methods; Motion estimation; Neural networks; Oceans; Orbital calculations; Power system modeling; Predictive models;

fLanguage

English

Publisher

ieee

Conference_Titel

Industrial Electronics Society, 1998. IECON '98. Proceedings of the 24th Annual Conference of the IEEE

Conference_Location

Aachen

Print_ISBN

0-7803-4503-7

Type

conf

DOI

10.1109/IECON.1998.723942

Filename

723942