streets will be Effective 5G networks will rely on fiber optic cables to keep internet services fast, writes Lumen CEO Jeff Storey.
When it comes to new technologies
5G has been touted as the biggest and best. Its possibilities are certainly awe-inspiring, from autonomous vehicles to next-generation machine learning applications, from artificial intelligence to the Internet of Things (IoT). But it’s rarely mentioned that 5G’s incredible applications—and ultimately its success—are critically dependent on fiber optic networks.
5G enables data transmission between
smartphones and cellular estonia phone number list antennas (or large cells) at extremely high speeds—up to 100 times faster than 4G. But the frequencies used by 5G have difficulty penetrating streets structures and cannot maintain their strength over long distances. For example, concrete, brick, metal, wood, and even people can weaken the 5G signal. For this reason, 5G will need to rely on small cells in will be addition to large cells to fully distribute its signal to users—especially in crowded urban areas.
That’s where fiber comes in Data transmission
between these small cells typically has to travel sawo tower th3-60 nb long distances, and fiber networks can carry that data at top speeds. Think of 5G as a side street, good for short distances, and fiber as an interstate highway. In fact, the autobahn (Germany’s high-capacity highway network) could provide a better example of this.
For all these reasons
iber must be deployed both broadly and deeply turkey numbers database in the world’s emerging 5G networks if this powerful new wireless technology is to reach its full potential.
Fiber’s partnership with 5G will have a major impact on emerging technologies. Take autonomous vehicles, for example. 5G will be essential for transmitting critical real-time data to and from autonomous vehicles in motion, but it will not have the capacity to transfer the vast amounts of data these vehicles collect that need to be analyzed and processed in critical computing facilities. To solve this problem, Lumen streets and other technology companies are working closely with the automotive industry to establish fiber-based, super-high-speed data transmission hubs that can distribute terabytes of information around the world. This data will then be analyzed to provide better software and database updates to self-driving cars over 5G.
Some of these 5G fiber applications are
in place, such as intelligent automation in factories. Such improvements enable factory machines to operate with unprecedented precision and make instantaneous will be decisions. of data to and from the applications that control robots on the factory floor.
To leverage the power of 5G combined
with fiber, forward-looking enterprises are turning to edge computing. Fiber-based edge computing involves these enterprises—including retailers. Financial services providers. Healthcare providers. Aand even 5G carriers—placing servers physically closer to the cellular antennas that deliver data to end users over 5G. Because the fiber carrying information between the servers and the cellular antennas is shorter. Transmission is faster. Enterprises that leverage 5G can realize tremendous cost savings by implementing edge computing.
Over the past century
telephone companies pioneered early networks by streets erecting telephone poles and laying telephone wires across the country. Today, the new pioneers are technology companies like Lumen, which are building networks and laying fiber around the world – and in the process, making exciting technologies like 5G possible.