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In this paper, a method, which synthesizes the artificial ground motion compatible with the specified peak velocity as well as the target acceleration response spectrum, was proposed. In this method, firstly, an initial acceleration time history a g(0)(t), which satisfies the prescribed peak ground acceleration, the target spectral acceleration ST(ω, ζ ), and the specified intensity envelope, is generated by the traditional method that generates the re- sponse-spectrum-compatible artificial ground motion by modifying the Fourier amplitude spectrum in the fre- quency domain; secondly, a g(0)(t) is further modulated by superimposing narrow-band time histories upon it in the time domain to make its peak velocity, approach the target peak ground velocity, and at the same time to improve its fitting precision to the target spectrum. Numerical examples show that this algorithm boasts high calculation precisions.
In this paper, a method, which synthesizes the artificial ground motion compatible with the specified peak velocity as well as the target acceleration response spectrum, was proposed. wherein the prescribed peak ground acceleration, the target spectral acceleration ST (ω, ζ), and the specified intensity envelope, is generated by the traditional method that generates the spontaneous-spectrum-compatible artificial ground motion by modifying the Fourier amplitude spectrum in the fre- quency domain; secondly, ag (0) (t) is further modulated by superimposing narrow-band time histories upon it in the time domain to make its peak velocity, approach the target peak ground velocity, and at the same time to improve its fitting precision to the target spectrum. Numerical examples show that this algorithm boasts high tallies precisions.