Upgrading or repeating any cable-based infrastructure is extremely expensive and difficult, especially if the goal is to minimize geographic distance. It also requires a lot of regulatorygovernment approval. Of course, it's easier to fix wireless networks. 5G certainly helps, as it shaves 20-40 milliseconds off 4G on average and promises latency as low as 1 millisecond. However, this only helps the last few hundred meters of data transmission. Once your data reaches the tower, you're back to the traditional backbone.
SpaceX’s satellite internet constellation company, Starlink, promises high-bandwidth, low-latency internet service across the United States and the rest of the world. But it doesn’t solve the problem of ultra-low latency, especially at long distances. While Starlink achieves a travel time of 18-35 milliseconds from your home to the satellite and back, that time austria mobile database is extended when the data must travel from New York to Los Angeles and back again. After all, it requires relaying across multiple satellites. the travel distance. The straight-line distance from New York to Philadelphia is about 100 miles, which might be 125 miles by cable, but more than 700 miles when traveling to low-orbit satellites and back. In addition, fiber optic cable has much lower losses than light transmitted through the atmosphere, especially on cloudy days. Dense urban areas are also noisy and therefore susceptible to interference. In 2020, Elon Musk emphasized that Starlink is focused on “the hardest customers to serve, who [telecom companies] would otherwise have trouble reaching.” In that sense, it brings more to the metaverse than it does to elevate those who are already participating.