论文信息 - A Frequency Domain Method for the Generation of Partially Coherent Normal Stationary Time Domain Signals

A Frequency Domain Method for the Generation of Partially Coherent Normal Stationary Time Domain Signals

A procedure for generating vectors of time domain signals that are partially coherent in a prescribed manner is described. The procedure starts with the spectral density matrix, [Gxx(f)], that relates pairs of elements of the vector random process {{x(t)}, -00 < t < oo}. The spectral density matrix is decomposed into the form [GxAf)] = [U(f)][S(f)][ U(f)]' where [U(f)] is a matrix of complex frequency response functions, and [S(f)] is a diagonal matrix of real functions that can vary with frequency. The factors of the spectral density matrix, [U(f)] and [S(f)], are then used to generate a frame of random data in the frequency domain. The data is transformed into the time domain using an inverse FFT to generate a frame of data in the time domain. Successive frames of data are then windowed, overlapped, and added to form a vector of normal stationary sampled time histories, {x(t)}, of arbitrary length. © 1993 John Wiley & Sons, Inc. *

David O. Smallwood | Thomas L. Paez | D. Smallwood | T. Paez

[1] F. Harris. On the use of windows for harmonic analysis with the discrete Fourier transform , 1978, Proceedings of the IEEE.

[2] Charles L. Lawson,et al. Solving least squares problems , 1976, Classics in applied mathematics.

[3] C. J. Dodds,et al. Partial coherence in multivariate random processes , 1975 .

[4] Pol D. Spanos,et al. ARMA Monte Carlo simulation in probabilistic structural analysis , 1989 .

[5] A. Nuttall. Some windows with very good sidelobe behavior , 1981 .

[6] William H. Press,et al. Numerical recipes , 1990 .

[7] David O. Smallwood. A Random Vibration Control System for Testing a Single Test Item with Multiple Inputs , 1982 .

[8] J. E. Glynn,et al. Numerical Recipes: The Art of Scientific Computing , 1989 .