In radio frequency interference study, equivalent dipole moments are widely used to reconstruct real radiation noise sources. Previous reconstruction methods, such as least square method (LSQ) and optimization method are affected by parameter selections, such as number and locations of dipole moments and choices of initial values. In this paper, a new machine learning based source reconstruction method is developed to extract the equivalent dipole moments more accurately and reliably. Based on the near-field patterns, the proposed method can determine the minimal number of dipole moments and their corresponding locations. Furthermore, the magnitude and phase for each dipole moment can be extracted. The proposed method can extract the domina...
A new equivalent dipole model hybrid with artificial neural network (ANN) is proposed in this paper ...
This paper used magnetic near fields to extract the dipole-moment model to represent the real radiat...
In this paper, a new dipole-moment model based on near-field scanning for representing equivalent IC...
Accurate noise source characterization is critical in increasing the accuracy of desense simulations...
A physics-based dipole moment source reconstruction is proposed to estimate the near-field coupling ...
With rapid innovations in Internet of Things (IoT) and wireless technology, more and more consumer e...
Near-field scanning with phase measurement is always a challenge in practical experiments because of...
A method to extract an equivalent array of dipole-moments model from only the magnitude data of near...
Dipole moment model is widely used to represent real noise source to estimate near field coupling be...
Radio frequency interference can degrade the receiving sensitivity of antennas. The interference is ...
Electromagnetic noise source of an integrated circuit (IC) can be approximately modeled with three d...
In modern electronic products, the noise from high-speed digital parts is likely to interfere with n...
Electromagnetic noise source of an integrated circuit (IC) can be approximately modeled with three d...
Coupling or electromagnetic interference between different components of a complex electronic produc...
Infinitesimal electric and magnetic dipoles are widely used as an equivalent radiating source model ...
A new equivalent dipole model hybrid with artificial neural network (ANN) is proposed in this paper ...
This paper used magnetic near fields to extract the dipole-moment model to represent the real radiat...
In this paper, a new dipole-moment model based on near-field scanning for representing equivalent IC...
Accurate noise source characterization is critical in increasing the accuracy of desense simulations...
A physics-based dipole moment source reconstruction is proposed to estimate the near-field coupling ...
With rapid innovations in Internet of Things (IoT) and wireless technology, more and more consumer e...
Near-field scanning with phase measurement is always a challenge in practical experiments because of...
A method to extract an equivalent array of dipole-moments model from only the magnitude data of near...
Dipole moment model is widely used to represent real noise source to estimate near field coupling be...
Radio frequency interference can degrade the receiving sensitivity of antennas. The interference is ...
Electromagnetic noise source of an integrated circuit (IC) can be approximately modeled with three d...
In modern electronic products, the noise from high-speed digital parts is likely to interfere with n...
Electromagnetic noise source of an integrated circuit (IC) can be approximately modeled with three d...
Coupling or electromagnetic interference between different components of a complex electronic produc...
Infinitesimal electric and magnetic dipoles are widely used as an equivalent radiating source model ...
A new equivalent dipole model hybrid with artificial neural network (ANN) is proposed in this paper ...
This paper used magnetic near fields to extract the dipole-moment model to represent the real radiat...
In this paper, a new dipole-moment model based on near-field scanning for representing equivalent IC...