Over the years global data traffic has significantly increased. The modern-day internet is no longer just about connectivity,
but reliable connectivity with faster speed, lower latency, and higher bandwidth. Amid the recent COVID-19 pandemic, everyone
is way more online than usual. Millions of people have switched to work and learn from home and video consumption (which amounts
to 60% of the global data traffic) is at an all-time high, this is something our networks were never designed to handle. Critical
services are being impacted, WiFi access points are facing congestion, FWA has limitations and interconnect points are burdened.
While we search for answers all around, the solution to this problem is a technology that has been with us from ages, the optical fibre tech.
Ever imagined how we came so far ?
The Past, The Present and The Future : Deep-dive into history to understand the science behind it.
In ancient India (6th–5th century BC) first came the initial theories of light. It was said that the first building block is actually
the “potential” for a building block, light being one of the five fundamental “subtle” elements (tanmatra). Fast-forward a little and
it was the Romans (27th century BC) drawing glass into fibre.
Remember the story called “Through the Looking Glass”? Sure you do. (Alice’s adventures in wonderland). ”She looked at where everyone
else had looked and saw something no one had ever seen before”. That’s what happened with fibre optics, people were making cloth from
glass threads for years and now they were able to pass light through it. Although it still took them years to understand the real potential,
until the late nineteenth century.
“I have heard articulate speech produced by sunlight. I have heard a ray of the sun laugh, cough and sing” – words of Alexander Grahambell.
This was the birth of the idea of using light for communication but it still took another century to make his dream a reality.
In 1977 the first-ever optical communication networks came into action offering 45 Mbps. But soon this was not enough, technologies kept improving and speeds kept increasing. By early 1990, a remarkable thing happened, digital data could be sent through optical fibre getting us to 2.5Gbps capacity. From exploiting the concept of time followed by wavelength, phase, amplitude and then the polarization of optical signals, capacity increased manifolds. Today a single strand of fibre can carry an unimaginable 10Tbps, but soon the sustainability would be questioned again.
With the advent of future technologies, the world is at the cusp of a massive data revolution. The future internet depends heavily upon the
optical fibre tech. Possessing the potential to carry massive amounts of data at ultra-low latency and hypersonic speeds, fibre is a must for
serving both wired and wireless future networks. Over the years the optical fibre industry has seen a paradigm shift, from enabling connectivity
across continents via undersea cable to a world where fibre is almost everywhere. Today we see fibre in mobile backhaul for connecting telecom
towers, fibre to the home services, data centres and various other enterprise use cases.
Delivering convenience and efficiencies – 3 Ways Fibre Changes the Game
1. Serving as a backbone for wireless technologies like 5G, WiFi and satellite
Imagine downloading a 2-hour movie, 26 hours on 3G, 6 minutes on 4G and on 5G
you’ll be ready to watch your movie in just over 3.5 secs. We will soon see technologies
fuelled by 5G like self-driving cars, robotic surgeries, mixed reality, the Internet of
Things, smart factories, drone delivery etc. play an important role in our everyday lives.
But wait a minute, to enable 5G fibre is a must, all of this would be a dream without fibre.
2. Highway for Data
Most people think it’s all satellites and wireless, but they are wrong. All types of land-based
traffic whether its Facebook, Phone Calls, Netflix, Emails whatever, most part is carried by
submarine cables. Today, about 300 undersea fibre optic cables are responsible for 99% of international
data traffic. From one continent to another it happens all in milliseconds. Recently, the Kingdom of Tonga
in 2019 experienced a cell phone and internet crisis when one of their undersea cables was cut by an oil tanker.
It took 13 days to resume services before it all became normal.
3. Cable Television, Telephone and High-speed broadband
As fibre possesses greater bandwidth, ultra-low latency and faster speed at all times, it has become the ideal
choice for cable television and telephony. Also, high-speed fibre broadband has emerged as the most reliable,
secure and fast way of delivering gigabit connectivity in densely populated areas, rural connectivity, long haul
and military applications.
Conclusion
Our connections have never been virtual, they are physical and they are very much work in progress. Although we have seen
ambitious projects like balloons in the sky, internet satellites in orbit, solar-powered planes to bring the internet over
the sea, but until these become a reality, the fibre they are here to stay.
The need of the hour is to build a network that is responsive enough to handle any catastrophe, whether it is tackling
a sudden surge in data traffic or providing mission-critical services. While the world is reducing streaming quality to
keep the internet going, the ones with fibre are upscaling bandwidths and delivering the much needed