Add to ORKGWe introduce a robust numerical technique to verify the causality of sampled scattering parameters given on a finite bandwidth. The method is based on a filtered Fourier transform and includes a rigorous estima-tion of the errors caused by missing out-of-band samples. Compared to existing techniques, the method is simpler to implement and provides a useful insight on the time-domain characteristics of the detected viola-tion. Through an applicative example, we shows its usefulness to improve the accuracy and reliability of macromodeling techniques used to convert sampled scattering parameters into models for transient analysis.
Fourier Series and Fourier Transforms can be used to determine the frequency content of a continuous...
Author Institution: NASA/Goddard Institute for Space Studies and; Department of Applied Physics and...
Many recent inverse scattering techniques have been designed for single frequency scattered fields i...
Abstract—We introduce an accurate and robust technique for accessing causality of network transfer f...
Frequency domain causality is determined by means of the Hilbert transform relating the imaginary pa...
Frequency domain causality is determined by means of the Hilbert transform relating the imaginary pa...
A new technique is presented for extracting the parameters of the damped sinusoids and the early tim...
Checking and enforcing causality of simulated or measured system data is a crucial step for obtainin...
In this paper, we suggest a new Fourier transform based algorithm forthe reconstruction of functions...
Many recent inverse scattering techniques have been designed for single frequency scattered fields i...
In nonuniform sampling (NUS), signal amplitudes and time stamps are delivered in pairs. Several meth...
A time-domain analysis is applied to a frequency-domain technique which recovers the individual freq...
Sampling theory for continuous time signals which have a bandlimited representation in fractional Fo...
A new superresolution technique is proposed for high-resolution estimation of the scattering analysi...
Decimating a uniformly sampled signal a factor D involves low-pass antialias filtering with normaliz...
Fourier Series and Fourier Transforms can be used to determine the frequency content of a continuous...
Author Institution: NASA/Goddard Institute for Space Studies and; Department of Applied Physics and...
Many recent inverse scattering techniques have been designed for single frequency scattered fields i...
Abstract—We introduce an accurate and robust technique for accessing causality of network transfer f...
Frequency domain causality is determined by means of the Hilbert transform relating the imaginary pa...
Frequency domain causality is determined by means of the Hilbert transform relating the imaginary pa...
A new technique is presented for extracting the parameters of the damped sinusoids and the early tim...
Checking and enforcing causality of simulated or measured system data is a crucial step for obtainin...
In this paper, we suggest a new Fourier transform based algorithm forthe reconstruction of functions...
Many recent inverse scattering techniques have been designed for single frequency scattered fields i...
In nonuniform sampling (NUS), signal amplitudes and time stamps are delivered in pairs. Several meth...
A time-domain analysis is applied to a frequency-domain technique which recovers the individual freq...
Sampling theory for continuous time signals which have a bandlimited representation in fractional Fo...
A new superresolution technique is proposed for high-resolution estimation of the scattering analysi...
Decimating a uniformly sampled signal a factor D involves low-pass antialias filtering with normaliz...
Fourier Series and Fourier Transforms can be used to determine the frequency content of a continuous...
Author Institution: NASA/Goddard Institute for Space Studies and; Department of Applied Physics and...
Many recent inverse scattering techniques have been designed for single frequency scattered fields i...