Troika 230More cells, more antennas, more spectrum are the three major tools for adding capacity. To begin:

Adding antennas is usually the cheapest choice in 2018. Nearly every telco is going to four (4x4 MIMO.) Adding spectrum is very attractive when you have some unused but expensive if you have to buy it. Adding cells was the approach before LTE-A in 2014 permitted aggregation. Since then, tower building has almost stopped in the developed world. Any upgrade should include 256 QAM, more bits per Hz.

Antennas: True in Thailand and AT&T in the U.S. are rapidly upgrading the entire network to four antennas. 5G Massive MIMO - 64 or 128 antennas - is used by China Mobile. Verizon, Globe, and soon many more where there is a need. On average, a three-time improvement. Results vary enormously with the terrain. Bharti and Jio are moving fast because India is one of the few with a real spectrum crunch.) See MassiveMIMO.rocks.

Spectrum: AT&T and Verizon had 60 MHz of unused spectrum, enough to more than double the network. This was largely useable until ~2014m when carrier aggregation made it possible to combine disparate bands, such as 700 and 2300. Deutsche Telekom and most of the Europeans had been hoarding some spectrum for CA. From 20 MHz (single carrier,) most are going to 60-80 MHz (three or four carriers.) AT&T and SK in Korea have already projected using five carriers when that becomes possible. 5G millimeter wave offers 100's of MHz, attractive but expensive. 3.5 GHz is now becoming available and LAA allows grabbing some more at 4.9 GHz.

Cells: Towers are so expensive few are being added except where there is no coverage today. Less than 3% of the developed world is not covered already. Small cells remain relatively few but are natural in dense areas. Sprint is using them heavily in San Francisco and AT&T in New York. It's cheaper to add antennas or spectrum rather than towers or even small cells in most places.

Small cells will be widely used where telcos believe in 5G mmWave. mmWave has limited reach so it requires a massive build. Verizon has ~50,000 towers for 98% coverage. mmWave across the country will require about one million. The high cost means mmWave will be extremely limited in most countries for 5-10 years from 2017. Most telcos can't find enough customers to fill their networks so are reluctant to invest. Few believe there will be enough demand for low latency or gigabit speeds to justify spending so much. It may be a decade or more until that changes. 

more to come

 

It used to be simple; build more towers where you need them, buy spectrum if that wasn't enough. Today, very few towers are built in the developed world. Verizon's failure to bid in the 2016 auction made clear everything's changed. For years, very few towers have been built in the developed world for yea Around xxx, tower building almost ended. Improved 3G and then LTE provided enough of a boost few new towers were needed in the developed world. More spectrum could be put to use and more bits carried per hertz. That continues most places, but since ~2014 adding antennas became an atractive alternative. Two

From 2014, most telcos reaped a bonanza and suddenly had surplus spectrum. Carrier aggregation." meant AT&T's spectrum at 2300 could be put to use, "aggregated" with their 700 or 1800. LTE began with a single "carrier," usually 20 MHz. When aggregation became practical, those needing capacity easily put a second carrier into use, doubling capacity. By 2016=2017, many used three or four carriers, with a near linear capacity increase. AT&T and the Koreans have announced five carrier for 2018, with many others likely. That was a very cheap upgrade because no new spectrum had to be purchased.  Capex at carriers lke Verizon actually went down. Verizon skipped the 2016 auction because they Probably the cheapest upgrade is putting to use spectrum already owned. The spectrum crisis was wildly exaggerated. ~2014, almost all carriers suddenly had plenty of unused spectrum. AT&T as late as 2017, has 60 MHz of unused spectrum, enough to double capacity.

 

 

Latest issue

Jan 18

300,000 Indian Villages Fibered; 325,000 More To Come http://bit.ly/600KIndia
Verizon, NTT, AT&T: ?$200-$400 5G Costs Much Lower Than Expected http://bit.ly/Hans200400
Important: 5G Handles 10x More Data Than 4G http://bit.ly/5G10X4G
India Passes U.S. in Smartphones http://bit.ly/India40Msmartphones
AT&T Probably Will Not Have a 5G Mobile Phone in 2018 http://bit.ly/T5G2019
Pai, Speaking of Immigration, Put His Career on the Line http://bit.ly/Paicourage
35b: Ready or Not? Germans Say Not, Some Say Yes http://bit.ly/35bready
Qualcomm's Not To Be Believed Comeback in G.fast http://bit.ly/Ikanoslives

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Manoj Sinha announced that 300,000 Indian villages have been connected by fiber and BharatNet is on target for 325,000 more early in 2019. This is by far the largest rural broadband project in history. Bids are out for 500,000 Wi-Fi hotspots and 130.000 post offices will connect. The telcos are offered low prices to bring in LTE and fiber home. Programs are underway for > 100,000 local business to offer connectivity.  

Ajit Pai risked his career by challenging Trump's immigration policy. "My love and reverence for this country comes from living in the house of Raj and Radha Pai. My parents know a little something about the American Dream. They came to this country 46 years ago with literally no assets other than $10, a transistor radio, and a desire to achieve that dream." I never imagined America would plan to deport four million people. 
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