Add to ORKGIn this paper the accuracy of routine methods for processing strong-motion earthquake accelerograms (Trifunac, 1971, 1972; Hudson et al., 1971) has been tested by comparing displacement curves computed from the twice-integrated accelerograph recordings with displacement curves computed from displacement-meter measurements. The displacement meters have transducers with natural periods typically several seconds long. Agreement is found to be very good, suggesting that the methods used for routine processing of strong-motion accelerograms are quite accurate
The San Francisco earthquake of March 22, 1957, was recorded simultaneously by accelerometers at fi...
A common practice in the derivation of equations for the prediction of strong ground motions is to s...
This paper presents results of a study of some of the characteristics of a PDR-1 digital strong-moti...
In this paper the accuracy of routine methods for processing strong-motion earthquake accelerograms ...
The need for a greatly expanded network of strong-motion accelerographs throughout the seismic regio...
The need for a greatly expanded network of strong-motion accelerographs throughout the seismic regio...
Since the first strong-motion accelerographs for the measurement of the ground motion associated wit...
Since the first strong-motion accelerographs for the measurement of the ground motion associated wit...
A new method is proposed for standard baseline correction of strong-motion accelerograms. It is base...
A new method is proposed for standard baseline correction of strong-motion accelerograms. It is base...
A brief study is made of the effect of common instrument errors on the accuracy of data obtained fro...
Statistical analysis of strong-motion records of the 1966 Parkfield earthquake and the 1952 Taft ear...
The earthquake ground accelerations recorded at El Centro, 30 December 1934; El Centro, 18 May 1940;...
The San Francisco earthquake of March 22, 1957, was recorded simultaneously by accelerometers at fi...
A brief study is made of the effect of common instrument errors on the accuracy of data obtained fro...
The San Francisco earthquake of March 22, 1957, was recorded simultaneously by accelerometers at fi...
A common practice in the derivation of equations for the prediction of strong ground motions is to s...
This paper presents results of a study of some of the characteristics of a PDR-1 digital strong-moti...
In this paper the accuracy of routine methods for processing strong-motion earthquake accelerograms ...
The need for a greatly expanded network of strong-motion accelerographs throughout the seismic regio...
The need for a greatly expanded network of strong-motion accelerographs throughout the seismic regio...
Since the first strong-motion accelerographs for the measurement of the ground motion associated wit...
Since the first strong-motion accelerographs for the measurement of the ground motion associated wit...
A new method is proposed for standard baseline correction of strong-motion accelerograms. It is base...
A new method is proposed for standard baseline correction of strong-motion accelerograms. It is base...
A brief study is made of the effect of common instrument errors on the accuracy of data obtained fro...
Statistical analysis of strong-motion records of the 1966 Parkfield earthquake and the 1952 Taft ear...
The earthquake ground accelerations recorded at El Centro, 30 December 1934; El Centro, 18 May 1940;...
The San Francisco earthquake of March 22, 1957, was recorded simultaneously by accelerometers at fi...
A brief study is made of the effect of common instrument errors on the accuracy of data obtained fro...
The San Francisco earthquake of March 22, 1957, was recorded simultaneously by accelerometers at fi...
A common practice in the derivation of equations for the prediction of strong ground motions is to s...
This paper presents results of a study of some of the characteristics of a PDR-1 digital strong-moti...
