Add to ORKGA short review of the receiving-mutual-impedance method (RMIM) for mutual coupling compensation in direction finding applications using linear array is conducted. The differences between the conventional-mutual-impedance method (CMIM) and RMIM, as well as the three different determination methods for receiving mutual impedance (RMI), will be discussed in details. As an example, direction finding with better accuracies is used for demonstrating the superiority of mutual coupling compensation using RMIM
An experimental study is performed to investigate the improvement of direction-of-arrival (DOA) esti...
A new and practical method is proposed to compensate for the mutual coupling effect in a dipole arra...
A new calculation method of the receiving mutual impedances that has taken the scattering effect fro...
A short review of the receiving-mutual-impedance method (RMIM) for mutual coupling compensation in d...
Performance degradation due to the mutual coupling effect of antenna arrays in direction-of-arrival ...
Mutual coupling is well known as an undesirable effect as it degrades the performance of most array ...
Mutual coupling is well known as an undesirable effect as it degrades the performance of most array ...
The invention of antenna arrays opened up the door for microwave sensing and communications. Most ap...
The accuracy of direction finding using antenna arrays with different array apertures is studied. Nu...
Abstract – The accuracy of direction finding using antenna arrays with different array apertures is ...
Most receiving antenna arrays suffer from the mutual coupling problem between antenna elements, whic...
Space-time techniques like MIMO, diversity reception and direction finding all require multiport ant...
This article investigates the accuracy of direction-of-arrival (DOA) estimations using compact anten...
A new definition of mutual impedance for two dipole antennas is introduced to characterize the mutua...
An experimental study is performed to investigate the improvement of direction-of-arrival (DOA) esti...
An experimental study is performed to investigate the improvement of direction-of-arrival (DOA) esti...
A new and practical method is proposed to compensate for the mutual coupling effect in a dipole arra...
A new calculation method of the receiving mutual impedances that has taken the scattering effect fro...
A short review of the receiving-mutual-impedance method (RMIM) for mutual coupling compensation in d...
Performance degradation due to the mutual coupling effect of antenna arrays in direction-of-arrival ...
Mutual coupling is well known as an undesirable effect as it degrades the performance of most array ...
Mutual coupling is well known as an undesirable effect as it degrades the performance of most array ...
The invention of antenna arrays opened up the door for microwave sensing and communications. Most ap...
The accuracy of direction finding using antenna arrays with different array apertures is studied. Nu...
Abstract – The accuracy of direction finding using antenna arrays with different array apertures is ...
Most receiving antenna arrays suffer from the mutual coupling problem between antenna elements, whic...
Space-time techniques like MIMO, diversity reception and direction finding all require multiport ant...
This article investigates the accuracy of direction-of-arrival (DOA) estimations using compact anten...
A new definition of mutual impedance for two dipole antennas is introduced to characterize the mutua...
An experimental study is performed to investigate the improvement of direction-of-arrival (DOA) esti...
An experimental study is performed to investigate the improvement of direction-of-arrival (DOA) esti...
A new and practical method is proposed to compensate for the mutual coupling effect in a dipole arra...
A new calculation method of the receiving mutual impedances that has taken the scattering effect fro...