The paper proposes a simple method for quick post-earthquake assessment of damage and condition of a stock of bridges in a transportation network using seismic data recorded by a strong motion array. The first part of the paper is concerned with using existing free field strong motion recorders to predict peak ground acceleration (PGA) at an arbitrary bridge site. Two methods are developed using artificial neural networks (a single network and a committee of neural networks) considering influential parameters, such as seismic magnitude, hypocentral depth and epicentral distance. The efficiency of the proposed method is explored using actual strong motion records from the devastating 2010 Darfield and 2011 Christchurch earthquakes in New Zealand. In the second part, two simple ideas are outlined how to infer the likely damage to a bridge using either the predicted PGA and seismic design spectrum, or a broader set of seismic metrics, structural parameters and damage indices.
A copy of the CanCERN online newsletter published on 31 May 2013
A copy of the CanCERN online newsletter published on 7 June 2013
A copy of the CanCERN online newsletter published on 21 June 2013
A copy of the CanCERN online newsletter published on 3 May 2013
A copy of the CanCERN online newsletter published on 10 May 2013
A copy of the CanCERN online newsletter published on 17 May 2013
A copy of the CanCERN online newsletter published on 14 June 2013
A copy of the CanCERN online newsletter published on 5 July 2013
A copy of the CanCERN online newsletter published on 12 July 2013
A copy of the CanCERN online newsletter published on 19 July 2013
A copy of the CanCERN online newsletter published on 16 August 2013
A copy of the CanCERN online newsletter published on 23 August 2013
A copy of the CanCERN online newsletter published on 30 August 2013
A copy of the CanCERN online newsletter published on 9 August 2013
A copy of the CanCERN online newsletter published on 2 August 2013
A copy of the CanCERN online newsletter published on 24 May 2013
A copy of the CanCERN online newsletter published on 26 April 2013
A copy of the CanCERN online newsletter published on 26 July 2013
A copy of the CanCERN online newsletter published on 1 March 2013
A copy of the CanCERN online newsletter published on 15 February 2013
A copy of the CanCERN online newsletter published on 8 February 2013
A copy of the CanCERN online newsletter published on 19 April 2013
A copy of the CanCERN online newsletter published on 5 April 2013
A copy of the CanCERN online newsletter published on 1 February 2013
A copy of the CanCERN online newsletter published on 15 March 2013
A copy of the CanCERN online newsletter published on 12 April 2013
A copy of the CanCERN online newsletter published on 8 March 2013
A copy of the CanCERN online newsletter published on 22 February 2013
A copy of the CanCERN online newsletter published on 22 March 2013
