Add to ORKGAbstract—Common-pole modeling of frequency responses can be time consuming for systems with highly resonant responses. This letter presents a Barycentric Vector Fitting algorithm that improves the running time of existing Vector Fitting algorithms. The effectiveness of the approach is demonstrated by applying it to coupled microstrip lines. Numerical results confirm the accuracy of the model and the savings in computation time. Index Terms—Barycentric interpolation, macromodeling, system identification, transfer functions, vector fitting (VF)
Abstract—This letter presents a generalization of the mul-tivariate Vector Fitting technique that in...
This paper introduces a new approach for rational macromodeling of multiport devices that ensures hi...
This letter presents a generalization of the multivariate Vector Fitting technique that includes par...
Common-pole modeling of frequency responses can be time consuming for systems with highly resonant r...
Abstract—Broadband macromodeling of large multiport systems by vector fitting can be time consuming ...
Vector Fitting is a robust macromodeling technique for transfer function synthesis in the frequency ...
This paper demonstrates the use of a Barycentric Vector Fit-ting algorithm for the modeling of broad...
Abstract — The Vector Fitting algorithm [1] is an iterative procedure to compute rational approximat...
Broadband macromodeling of large multiport systems by vector fitting can be time consuming and resou...
Vector Fitting is a rational approximation technique, which is frequently used to calculate accurate...
The calculation of broadband macromodels from large tabulated frequency responses can be computation...
A novel least-squares fitting technique is presented for the macromodeling of parameterized frequenc...
We present a discrete-time time-domain vector fitting algorithm, called TD-VFz, for rational functio...
As operating frequencies and signal speeds continue to increase in modern devices, the effects of pa...
Abstract—Rational fitting techniques are often used for the macromodeling of linear systems from tab...
Abstract—This letter presents a generalization of the mul-tivariate Vector Fitting technique that in...
This paper introduces a new approach for rational macromodeling of multiport devices that ensures hi...
This letter presents a generalization of the multivariate Vector Fitting technique that includes par...
Common-pole modeling of frequency responses can be time consuming for systems with highly resonant r...
Abstract—Broadband macromodeling of large multiport systems by vector fitting can be time consuming ...
Vector Fitting is a robust macromodeling technique for transfer function synthesis in the frequency ...
This paper demonstrates the use of a Barycentric Vector Fit-ting algorithm for the modeling of broad...
Abstract — The Vector Fitting algorithm [1] is an iterative procedure to compute rational approximat...
Broadband macromodeling of large multiport systems by vector fitting can be time consuming and resou...
Vector Fitting is a rational approximation technique, which is frequently used to calculate accurate...
The calculation of broadband macromodels from large tabulated frequency responses can be computation...
A novel least-squares fitting technique is presented for the macromodeling of parameterized frequenc...
We present a discrete-time time-domain vector fitting algorithm, called TD-VFz, for rational functio...
As operating frequencies and signal speeds continue to increase in modern devices, the effects of pa...
Abstract—Rational fitting techniques are often used for the macromodeling of linear systems from tab...
Abstract—This letter presents a generalization of the mul-tivariate Vector Fitting technique that in...
This paper introduces a new approach for rational macromodeling of multiport devices that ensures hi...
This letter presents a generalization of the multivariate Vector Fitting technique that includes par...