Fifth-generation (5G) cellular networks will almost certainly operate in the high-bandwidth,
underutilized millimeter-wave (mmWave) frequency spectrum, which offers the potentiality of …

The millimeter-wave (mmWave) is expected to deliver a huge bandwidth to address the
future demands for higher data rate transmissions. However, one of the major challenges in …

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

Metamaterials (MTMs) are artificially engineered materials with unique electromagnetic
properties not occurring in natural materials. MTMs have gained considerable attention …

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 …

It has been widely speculated that the performance of the next generation based wireless
network should meet a transmission speed on the order of 1000 times more than the current …

Accurate propagation characteristics are essential for future indoor millimeter-wave
(mmWave) small cell network planning. This paper presents propagation measurements at …

Recent research into radio propagation and large-scale channel modeling shows that
frequencies can be used above 6 GHz for the new generation of mobile communications …

As the demand for higher speed data transmissions continues to increase exponentially
beyond the speed-limit of the fourth generation (4G) wireless networks due to the rapid …

In this correspondence, useful measurement results of the propagation channel
characteristics in an intra-wagon environment at millimeter wave (mmWave) frequencies are …