Imagine this 5G use case: A building collapses. It’s too dangerous to send in the human rescuers, but there may still be survivors under the rubble. You send in a robot—but it needs super-sensitive remote control that gives its operatorThis is a dramatic example, but one that will be possible with 5G. And at a time like this, latency would be a life-or-death issue.
Typical latency for a 4G network is between 30 and 50 ms. Part of the promise of 5G—a key feature that will make it transformative—is significantly reduced latency. It depends on the application—and for those with a human interface, it also depends on which of our senses we’re using. As 5G advances, non-standalone 5G is being gradually replaced by standalone 5G. The standalone version is pure 5G and is not shared with 4G at all.
Virtual network nodes are less expensive, and operators can deploy many more of them and, crucially, put them closer to business customers. A key theme will be enabling remote and autonomous devices to operate in near-real time without paying the latency penalty. For instance:Remote constructionfrom group simulations to “walk-through” holograms.These are the kinds of 5G low latency use cases that only become possible when you bring the core close to the edge to seriously reduce latency.Automated construction monitoring
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