Scene 1: Conference center network coverage
I'm sure many people who have visited an exhibition have experienced that for people who visit large exhibitions, the on-site network coverage is always very poor, but millimeter wave can solve this problem very well.
Of course, 5g mmWave in the low-density development of the conference service center, millimeter wave has also been a good application.
The total area ratio of about 180,000 square feet of low-density regional conference research center, the same can be 5G new-space millimeter wave gNodeB antenna and the existing Wi-Fi access point co-location way.
The 28GHz band provides significantly improved coverage, with downlink coverage of 87% and MAPL of 115dB, and uplink coverage of 92% and MAPL of 117dB.
The millimeter wave technology in the 25 GHz band was successfully used to achieve comprehensive network development coverage in conference service centers of different enterprise sizes.
Scenario 2: Indoor Stadium Network Coverage Forecast
The network coverage of a venue (e.g., a stadium). For a large indoor stadium with a total area of about 3000 square feet, the aisle antenna location (> height installation) is used to provide the best millimeter wave coverage.
Again, in the 28 GHz band, the downlink and uplink coverage is 100%, where the downlink MAPL is 110 dB and the uplink MAPL is 112 dB.
Scenario 3: Network Coverage for Indoor Enterprise Scenes
The deployment of 5G new-space millimeter wave in indoor enterprise scenes can achieve network coverage comparable to current Wi-Fi by simply using 1:1 or partial co-location, enabling high-speed transmission in 5G networks.
At the World Radiocommunications Conference in 2019, the 26 GHz band was a millimeter wave (mmWave) frequency that was examined for international mobile telecommunications (IMT) allocation. It represents a significant step toward reaching global consensus on the spectrum for 5G wireless broadband technologies.
For wide-area coverage and bandwidth, sub-6GHz 5G is necessary, although mmWave offers faster speeds over shorter distances. As a result, mmWave deployments are only feasible across short distances, like a few streets, and in places that can benefit most from extremely high bandwidth, such stadiums and urban cores.
It's important to note that mmWave 5G provides more bandwidth, which eases network congestion. LTE speeds often slow down in congested regions due to the volume of devices connecting, however mmWave technology can support more connections without experiencing noticeable performance decreases.
A cutting-edge cellular technology called 5G mmWave gives users access to the significant bandwidth and capacity present in the frequency range above 24GHz. Despite naysayers' claims to the contrary, 5G millimeter waves are now being employed in wireless ecosystems and are continuing to gain popularity all over the world.
The largest carrier network upgrade in years, Verizon's mid-band 5G roll-out makes a significant difference and provides substantially better speeds to those who are covered. In the past, Verizon began constructing its 5G network by concentrating solely on mmWave technology and employing the 28GHz and 39GHz frequencies.