Abstract: Operations on the 5G‐NR and 4G‐long‐term evolution (LTE) frequency bands make it possible to increase cell coverage and/or improve data rate transmission on the uplink (UL) and the downlink.

Within North America, 5G cellular service is able to operate in several frequency bands. The higher the frequency, the faster the speed; however, the signals are less capable of penetrating ...

CTIA's numerical mis-steps mean that its advocacy undercounts the U.S. availability of mid-band spectrum, and overcounts the ...

None of this was the case in President Donald Trump's first term. The FCC was armed with both spectrum auction authority and ...

It's an extreme example for sure, but it really all comes down to older phones not having the right antennas, radio hardware, ...

Telstra, in partnership with Ericsson and MediaTek, has reached a peak downlink speed of 9.4 Gbps on its live commercial 5G ...

At present, there are a total of 63 Fifth-Generation New Radio (5G NR) frequency bands, with allocations from 612 MHz to 7,125 MHz (a substantial expansion from already existing 54 LTE bands) to ...

Because mmWave bands are much higher-frequency than bands used for 4G and 3G, they do not reach as far, nor as well through solid objects. A typical mmWave base station ("tower") only covers one ...

The development and establishment of mobile communication technologies has necessitated assessments of possible risks to human health from exposures to radio-frequency electromagnetic fields (RF EMF).

The Nordics are cementing their place as 5G leaders in Europe and setting benchmarks for widespread availability and ...

Abstract: Operations on the 5G‐NR and 4G‐long‐term evolution (LTE) frequency bands make it possible to increase cell coverage and/or improve data rate transmission on the uplink (UL) and the downlink.