Everything You Need to Know About 5G

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What is up with all those comments under the video? Like, holy shit. People think that 5G will be used for mind + population control and going to cause cancer. What? It's not one person either, every single comment is about how 5G will "enslave us".

I don't get it.

👍︎︎ 57 👤︎︎ u/AndiMischka 📅︎︎ Jan 17 2018 🗫︎ replies

"might" be ready in next 5 years.

👍︎︎ 14 👤︎︎ u/Thatmyopinion989 📅︎︎ Jan 17 2018 🗫︎ replies

Aren't more towers needed due to higher frequency? And not just as feature?

👍︎︎ 4 👤︎︎ u/Pascalwb 📅︎︎ Jan 17 2018 🗫︎ replies

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every new generation of wireless networks delivers faster speeds and more functionality to our smartphones 1g brought us the very first cell phones 2g let us text for the first time 3G brought us online and 4g delivered the speeds that we enjoy today but as more users come online 4G networks have just about reached the limit of what they're capable of at a time when users want even more data for their smart phones and devices now we're headed toward 5g the next generation of wireless it will be able to handle a thousand times more traffic than today's networks and it'll be up to 10 times faster than 4G LTE just imagine downloading an HD movie in under a second and then let your imagination run wild 5g will be the foundation for virtual reality autonomous driving the Internet of Things and stuff we can't even yet imagine but what exactly is a 5g network [Music] the truth is experts can't tell us what 5g actually is because they don't even know yet but right now there are 5 brand new technologies emerging as a foundation of 5g millimeter waves small cells massive MIMO beamforming and full duplex first up technology number one millimeter waves your smartphone and other electronic devices in your home use very specific frequencies on the radio frequency spectrum typically those under 6 gigahertz but these frequencies are starting to get more crowded carriers can only squeeze so many bits of data on the same amount of radio frequency spectrum as more devices come online we're going to start to see slower service and more dropped connections the solution is to open up some new real estate so researchers are experimenting with broadcasting on shorter millimeter waves those that fall between 30 and 300 gigahertz this section of spectrum has never been used before for mobile devices and opening it up means more bandwidth for everyone but there is a catch millimetre waves can't travel well through buildings or other obstacles and they tend to be absorbed by plants and rain to get around this problem we'll need technology number 2 small cell networks today's wireless networks rely on large high powered cell towers to broadcast their signals over long distances but remember higher-frequency millimeter waves have a harder time traveling through obstacles which means if you move behind one you lose your signal small cell networks would solve that problem using thousands of low-power mini base stations these base stations would be much closer together than traditional towers forming a sort of relay team to transmit signals around obstacles this would be especially useful in cities as the user moved behind an obstacle his smartphone would automatically switch to a new base station in better range of his device allowing him to keep his connection next up technology number three massive MIMO my most stands for multiple-input multiple-output today's 4g base stations have about a dozen ports for antennas that handle all cellular traffic but massive MIMO base stations can support about a hundred ports this could increase the capacity of today's networks by a factor of 22 or more of course massive MIMO comes with its own complications today's cellular antennas broadcast information in every direction at once and all of those crossing signals could cause serious interference which brings us to technology number 4 beam farming beamforming is like a traffic signalling system for cellular signals instead of broadcasting in every direction it would allow a base station to send a focus stream of data to a specific user this precision prevents interference and it's way more efficient that means stations could handle more incoming and outgoing data streams at once here's how it works say you're in a cluster of buildings and you're trying to make a phone call your signal is ricocheting off of surrounding buildings and criss-crossing with other signals from users in the area a massive MIMO base station receives all of these signals and keeps track of the timing and the direction of their arrival it then uses signal processing algorithms to triangulate exactly where each signal is coming from and plots the best transmission route back through the air to each phone sometimes it'll even bounce individual packets of data in different directions off of buildings or other objects to keep signals from interfering with each other the result is a coherent data stream sent only to you which brings us to technology number 5 full duplex if you've ever used a wall gataki you know that in order to communicate you have to take turns talking and listening that's kind of a drag today's cellular base stations have that exact same hold up a basic antenna can only do one job at a time either transmit or receive this is because of a principle called reciprocity which is the tendency for radio waves to travel both forward and backward along the same frequency to understand this it helps to think of a wave like a train loaded up with data the frequency it's traveling on is like the train track and if there's a second train trying to go in the opposite direction on the same track you're going to get some interference up until now the solution has been to have the trains take turns or to put all the trains on different tracks or frequencies but you can make things a lot more efficient by working around reciprocity researchers have used silicon transistors to create high speed switches that halt the backward role of these waves it's kind of like a signalling system that can momentarily reroute to train so that they can get past each other that means there's a lot more getting done on each track a whole lot faster we're still working out many of the kinks with millimeter waves small cell networks massive MIMO beamforming and full duplex in fact all of 5g is still a work in progress it will likely include other new technologies too and making all of these systems work together will be a whole other challenge but if experts can figure that out ultra fast 5g service could arrive in the next five years [Music]

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Channel: IEEE Spectrum

Views: 2,456,277

Rating: 4.6205063 out of 5

Keywords: 5G, 5 g, technology, wireless, 4g, 4GLTE, IEEE, Spectrum, IEEE Spectrum, explainer, Millimeter waves, MIMO, full duplex, beamforming, small cell networks, editorial

Id: GEx_d0SjvS0

Channel Id: undefined

Length: 6min 15sec (375 seconds)

Published: Mon Feb 06 2017