Directional antennas are regarded as one of the key technologies to achieve higher signal quality and data rate. Evidence has shown that the directional antenna channel features can be very different from the omnidirectional ones. Therefore, it is essential to characterize the directional antenna channel model (DACM), since an accurate, easy-to-implement DACM plays a vital role in the wireless network design, optimization and utilization. In this paper, we cluster the incident rays based on the azimuth direction of arrival at the receiver and extract the features concerning the number of clusters, the distribution of the cluster center and the cluster power ratio. The proposed DACM is derived by the ray tracing method and is feasible for a typical urban scenario within a range of a few hundred meters. Moreover, our proposed model is veriϔied by both ray tracing and numerical simulations. In this paper, we present the model derivation methodology, recommend the model parameters and offer an implementation guideline.
Zhuyin Li, S.K. (2019). Directional antenna channel modelling in urban area using ray tracing. ITU JOURNAL, 2(1), 1-8.
Directional antenna channel modelling in urban area using ray tracing
Andrea GiorgettiMembro del Collaboration Group
;
2019
Abstract
Directional antennas are regarded as one of the key technologies to achieve higher signal quality and data rate. Evidence has shown that the directional antenna channel features can be very different from the omnidirectional ones. Therefore, it is essential to characterize the directional antenna channel model (DACM), since an accurate, easy-to-implement DACM plays a vital role in the wireless network design, optimization and utilization. In this paper, we cluster the incident rays based on the azimuth direction of arrival at the receiver and extract the features concerning the number of clusters, the distribution of the cluster center and the cluster power ratio. The proposed DACM is derived by the ray tracing method and is feasible for a typical urban scenario within a range of a few hundred meters. Moreover, our proposed model is veriϔied by both ray tracing and numerical simulations. In this paper, we present the model derivation methodology, recommend the model parameters and offer an implementation guideline.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.