We propose a new source-time function, to be used in kinematic modeling of ground-motion time histories, which is consistent with dynamic propagation of earthquake ruptures and makes feasible the dynamic interpretation of kinematic slip models. This function is derived from a source-time function first proposed by Yoffe (1951), which yields a traction evolution showing a slip-weakening behavior. In order to remove its singularity, we apply a convolution with a triangular function and obtain a regularized source-time function called the regularized Yoffe function. We propose a parameterization of this slip-velocity time function through the final slip, its duration, and the duration of the positive slip acceleration (Tacc). Using this ana...
International audienceWe analyse the scaling and distribution of average dynamic source properties (...
In an attempt to improve the ground motion modelling, the characteristics of the slip velocity funct...
International audienceIn this paper, we obtain an accurate estimation of the rupture velocity of the...
We propose a new source-time function, to be used in kinematic modeling of ground-motion time histo...
We compute the temporal evolution of traction by solving the elasto-dynamic equation and by using th...
We have analyzed the most relevant features of three different analytical representations of the tim...
In seismology, the analisys of source kinematic parameters (slip-rate and rupture velocity ecc.) is ...
Strong ground motion simulations require physically plausible earthquake source model. Here we prese...
International audienceABSTRACT Properties of earthquake source physics can be inferred from the comp...
Abstract In the absence of sufficient data in the very near source, predictions of the intensity and...
Abstract We estimate the critical slip-weakening distance on earthquake faults by using a new approa...
Slip velocity functions commonly used in kinematic inversions and forward simulations have a number...
Abstract In this paper, we obtain an accurate estimation of the rupture velocity of the 6 April 2009...
International audienceWe analyse the scaling and distribution of average dynamic source properties (...
In an attempt to improve the ground motion modelling, the characteristics of the slip velocity funct...
International audienceIn this paper, we obtain an accurate estimation of the rupture velocity of the...
We propose a new source-time function, to be used in kinematic modeling of ground-motion time histo...
We compute the temporal evolution of traction by solving the elasto-dynamic equation and by using th...
We have analyzed the most relevant features of three different analytical representations of the tim...
In seismology, the analisys of source kinematic parameters (slip-rate and rupture velocity ecc.) is ...
Strong ground motion simulations require physically plausible earthquake source model. Here we prese...
International audienceABSTRACT Properties of earthquake source physics can be inferred from the comp...
Abstract In the absence of sufficient data in the very near source, predictions of the intensity and...
Abstract We estimate the critical slip-weakening distance on earthquake faults by using a new approa...
Slip velocity functions commonly used in kinematic inversions and forward simulations have a number...
Abstract In this paper, we obtain an accurate estimation of the rupture velocity of the 6 April 2009...
International audienceWe analyse the scaling and distribution of average dynamic source properties (...
In an attempt to improve the ground motion modelling, the characteristics of the slip velocity funct...
International audienceIn this paper, we obtain an accurate estimation of the rupture velocity of the...