Given the disparity in signal transmission properties for both current bandwidths and
millimeter wave radio frequencies, the present propagation models used for low frequency …

The current propagation models used for frequency bands less than 6 GHz are not
appropriate and cannot be applied for path loss modeling and channel characteristics for …

Millimeter wave path loss modeling is essential for reliable system design and accurate link
budget calculations. The motivation for this research is that channel modeling in 5G …

The signal power in wireless communication systems is influenced by its surroundings;
primarily, it will be affected by the path difference, operating frequency, and environmental …

The critical rule to achieve extremely high peaks of data transmission is the availability of a
tremendous amount of bandwidth. The super high frequency (SHF) and the millimeter-wave …

To satisfy the demand for ever-increasing data rates in the mobile networks, and that the
high demands for the future applications in the 5G system require more capacity. In the …

A modified indoor path loss prediction model is presented, namely, effective wall loss model.
The modified model is compared to other indoor path loss prediction models using …

This paper presents millimeter wave (mmWave) measurements in an indoor environment.
The high demands for the future applications in the 5G system require more capacity. In the …

Most of the existing channel models cannot be applied to emerging millimeter-wave
(mmWave) systems due to the difference between the characteristics of existing operating …

Path loss is the primary factor that determines the overall coverage of networks. Designing
reliable wireless communication systems requires accurate path loss prediction models …