How Can 5G mmWave Benefit IoT Applications

Compared with sub-6GHz, the millimeter wave frequency band can provide higher bandwidth. The wider the bandwidth, the higher speed rate that can be supported. Take trucking as an example. The transmission of data is like the transportation of goods between two stations. The goods on the truck are the data that needs to be transmitted. The road between the starting point and the ending point is the electromagnetic wave we use.

In order to quickly deliver all the goods to the other end, we can increase the lanes to increase the number of trucks that can travel at one time, which is to increase the bandwidth. The more lanes, the more trucks can drive through in a unit time. In other words, the higher the bandwidth, the more data can be received in a unit time, which is undoubtedly a faster network speed as well as low latency.

As the wireless communication technology developing from generation 1 to generation 5, the frequency of electromagnetic wave they used is getting higher and higher. The sub-6GHz frequency band is already very crowded, with plenty of wireless communication services interfering with each other. The available spectrum resources below 6GHz are increasingly scarce. Therefore, in order to have a higher network speed, 5g must explore more frequency resources.

The spectrum resource of mmWave, conversely, is very rich, and thus the frequency band that can be allocated to the operators is extremely broad. The higher the frequency, the richer the spectrum resources that can be used. The richer the spectrum resources, the faster the transfer rate that can be achieved. That is how ultra-fast, ultra-high capacity 5G network takes advantage of mmWave.

5G mmWave in IoT Applications

Furthermore, in terms of transmission speed and bandwidth, 5G mmWave is suitable for densely populated areas or scenarios with high demand for stable network connectivity, such as Industrial IoT, smart manufacturing and shared workspaces. Everyone must have experienced something like this: when you are around a large amount of people, even though you are able to connect to the Internet, the network speed is not up to ones’ expectations. The number of communication devices in urban environments such as subway stations, offices and factories are often large. As the frequency band of 5G mmWave have higher capacity and suffers from less interference, it can greatly improve the efficiency of interconnection and intercommunication between these smart terminals.

The high bandwidth and short transmission distances of 5G mmWave also make it useful for C-V2X. With higher frequency, 5G mmWave can better resist the influence of rain and weather, and provide a more stable data transmission. Additionally, 5G mmWave enables high-position GNSS services. Due to the fact that distance resolution is inversely proportional to bandwidth, the high bandwidth of mmWave can achieve centimeter-level positioning accuracy.

Compared with 3G, 4G, and even the Sub-6 frequency band in the early stage of 5G deployment, 5G mmWave use higher spectrum frequencies and therefore have higher network speed rate — this is what makes 5G mmWave unique.

Being a completely new technology, 5G mmWave requires a significant amount of effort from all parts of the industrial ecosystem to roll out. Cellular wireless module plays an essential role in the popularization of 5G mmWave applications in IoT. As a global leading provider of wireless communication modules, Fibocom steers through this new world of 5G mmWave and provides 5G wireless modules, delivering enhanced mobile broadband and high-reliability, low-latency wireless services for Industrial IoT, FWA (Fixed Wireless Access), 4K/8K live streaming, telemedicine, private 5G networks and other mass data scenarios.