Recent Most Popular
FCC chairman Mr Pai, known for his quick and fast decision making capabilities and abilities, said here in INDIA IMC 2018, that he does not ...
BRUSSELS – October 23, 2018 – At its recent General Assembly, 5G IA elected its new Board for a term of two years until October 2020. 5G...
Akraino Edge Stack , a Linux Foundation project initiated by AT&T and Intel, intends to develop a fully integrated edge infrastructur...
Today Verizon Business announced its new private 5G network offering, On Site 5G, which is being marketed to large enterprises and public se...
IOT: Much Ado About Nothing - So Far. IOT means Internet of Things, in literary term it's like expansion of connectivity to thi...
Almost since 5G first grabbed the industry's attention, US telcos have been crowing about their investment in the next-generation mobile...
Q: Based on our discussion and the discussion you've been having with people in the industry, what's your outlook for the relati...
Don't we need to re-write this paper - Operator must transform to deepen entry into the digital ecosystem.The Paper below put very matured attention and we must put it again with little more experience .
Thursday, 1 November 2018
WiFi in 60 GHz Band will Provide Teragraph Network for Urban Backbone.
WiFi - a widely used technology for internet connectivity over wireless access. WiFi uses unlicensed spectrum for radio waves, mostly in band of 2.5 GHZ or 5GHz. WiFi has been coping with other wireless access technologies through its rapid advancements. New standards developed by IEEE, has appeared to keep it a relevant technology with time. It has provided necessary data rates, as for coping with next gen applications. Also there have been significant improvements in reliability and security aspect through WPA2 and WPA3 standards.
WiFi - also being taken to be used on 60GHz band, a millimeter wave unlicensed band. Millimeter Wave spectrum is much in demand for providing gigabits per seconds. Millimeter waves are being used to provide high data rates using advance technologies like massive MIMO etc. Apart from required benefits from millimeter wave, there are some drawbacks too. It has fast attenuation at distance and it is likely to be absorbed by the atmosphere too. Therefore it degrades fast with distance and could be used for shorter distance propagation.
At 60 GHz, radio waves will be propagated line of sight (LOS) for better transmission and reception. due to high data rate advantage of 60GHz spectrum band, WiFi standards are being developed to achieve 10 Gbps data rate. This much data rate would be beneficial to create a backbone network using multiple LOS access points in mesh connectivity.
Teragraph is one such network, which is being backed by Facebook. This will provide a city wide backbone network for faster data connectivity in ubiquitous way. This is also being seen as replacement of fiber and a cheaper way of backhauling the data.
"With Terragraph, our goal is to enable people living in urban areas to access high-quality connectivity that can help create new opportunities and strengthen communities," said Yael Maguire, vice president of connectivity with Facebook.
Facebook working on this in collaboration with Qualcomm, as Qualcomm was supposed to bring the chipset for Wifi new standards - said to be 802.11ay.
The real boost has come with the recent declaration from Qualcomm for bringing up its new chipsets QCA64x8 and QCA64x1. Qualcomm is the first-to-market with a 60GHz Wi-Fi solution with optimizations based on the 802.11ay specification, enabling best-in-class 60GHz WiFi speeds and unmatched coverage performance. Qualcomm provides industry-first 802.11ay 60GHz WiFi chipsets includes QCA6438 and QCA6428 for infrastructure and fixed wireless access, and the QCA6421 and QCA6431 for mobile applications.
60GHz WiFi go far beyond high performance throughput, as Qualcomms' new chipsets enable unique always-on ambient. It Provides, Wi-Fi sensing capabilities, enabling devices to identify people, objects, movements and precise location without being affected by light conditions. Networking and mobile devices alike can take advantage of these new Wi-Fi sensing features to provide new and differentiated experiences to end users.
Facebook's Terragraph network will be constructed through the development of a multi-node wireless system based on the QCA6438 and QCA6428 chipsets. Comparing with the 2.4GHz and 5GHz bands commonly used in WiFi networks all over the world, mmWave-based 60GHz WiFi is of low interference, bandwidth-rich spectrum that delivers increased wireless capacity, and ultra-low latency.
With gigabit-per-second speeds, the 60 GHz WiFi solutions provides wire-equivalent latencies. It will be enabling mind boggling experiences such as 4K streaming and truly immersive wireless virtual and augmented reality, all while providing high power efficiency to significantly extend battery life.
Why Facebook with Terragraph
Facebook has been quite optimistic for providing low cost network infrastructure since a quite long time, we all are aware of its free basic program and net neutrality push off to make the access of internet cheaper and to less developed economies.
WiFi works on unlicensed technologies, that means operators or technology providers do not need to pay money for spectrum uses, only there are some regulations, differs country to country, what they need to follow for their operation. So WiFi spectrum becomes essentially free to use and deliver internet services. Although WiFi technology has been in use for wireless access network so far, mostly in the spectrum band 2.5GHz or 5GHz, which are also unlicensed spectrum band.
With advent of 802.11ay standards and recent focus of wireless industry to use millimeter waves has cropped the 60GHz unlicensed band for use in WiFi. This is with the intent of providing high data rates of the order of multiple gigabits per second that could be used to transmit backhaul traffic as well, instead of limiting WiFi to access only it could be utilized for backbone networks.
Facebook with support from Qualcomm, for development and implementation of 60GHz WiFi Technology, made its plan to come up with ubiquitous and city wide network that will help to replace the costly fiber layouts and provide backbone for internet specific access networks. That all resulted in the emergence of a mesh based LOS network given the name Terragraph.
Teragraph fullfil the demand of city wide backbone network and can replace fiber, therefore it is suitable, low cost, city wide backbone network solution. It is about deploying a mesh of 60GHz WiFi APs connected through wireless radio in possible LoS arrangements. The major challenge for deployment comes with no of such APs as it will require civil infrastructure like lamppost, high rise buildings etc.