Fiber Optics: The Conduit For 5g Proliferation

fibre deployment or spectrum. The challenge is to meet the dense connectivity requirements of the future. Against a target of 7.5 million kms of fibre required to be deployed, only 2.68 million kms have been deployed to date. India's fibre deployment (in kms) to population ratio stands at 0.09 percent compared to other countries like the US and Japan where it is 1.7 percent each and China with 0.87 percent. Apart from fibre issues, hurdles such as Right of Way (RoW) issues and laying of OFC Cables continue to hamper the progress towards deployment of fibre. Fibre optic technology continues to develop alongside the increased demand for greater speed and efficiency. We also look-up to the Government for suitable stimulus packages to enhance growth in the Telecom sector.

A much-discussed topic in recent years is 5G since it promises to revolutionise the communications industry by delivering complete digital connectivity. The deployment of a 5G network infrastructure is set to significantly advance VR and AR technology, as well as driverless automobiles and cloud computing. What significant role does fibre optics play in achieving a true 5G revolution?
5G is designed to support IoT and Big Data (like connected/autonomous cars, factory robotics, smart cities, and others) and involves real-time data collection and transfer, higher network availability levels, full wireless network coverage (no dead spots), lower latency and higher bandwidth capabilities. In the rollout of 5G, India is catching-up with major economies such as the US, Japan, Turkey, and China, where commercial services have already been introduced. Currently in India, around 33 percent of telecom towers relate to fibre, which needs to reach at least 80 percent to fully utilize the potential which 5G services could offer. To make 5G a success story in India, it is essential to invest on network densification heavily through provisioning of fiber, small cell and mobile towers. The current capacity per tower site is about 300 Mbps for 2G/3G/4G services. For 5G, the capacity required for each site will increase to 1-5 Gbps, which will require fiberised backhaul. Traditional microwave can only provide speeds of 250 Mbps. E-band microwave can provide 1-2 Gbps depending on the allocation of the number of spots. In order to achieve capacities of 1-5 Gbps, there is a need to deploy fibre across all the tower sites.

Please elaborate on how fibre optics is increasingly being considered as the solution for increasing connectivity on commercial flights in the Aerospace sector. Tell us how the use of fibre optics will enable improvements to in-flight entertainment and passenger Wi-Fi without interfering with or compromising the complex electrical data systems in place on aircraft.
The use of fibre optics is gaining momentum in the aerospace sector. Fibre optic networks on commercial flights are expected to grow quickly to support network topologies sharing data more than 100 Gbps. Fibre optics networks with lightweight fibre optics transceivers can support these high speeds without installing large copper-based networking systems.

Which technologies do you think have massive potential for the Fiber Optics industry, but are yet to be implemented in the industry?
We feel that the technologies which will evolve in the future will be those which are concentrated around capacity increase of data transfer and increase in speed. For example, new devices such as optical couplers and optical switches, are supporting a recent trend known as All-Optical Networks or AON. This new technology allows data to be transmitted quickly without any electrical processing, which will result in further transmission distances. This will increase the scalability of the existing fibre networks.

The optical fibres are getting smaller and smaller to the deployment challenges being raised by end-use applications. As telecom operators start looking for high fiber count cables in reduced diameters, optical fiber, and cable manufacturers are investing in research & development to realize smaller fibers and cables. Where do you see the market for Fiber Optics Industry in the near future?
Smaller fibre optic cables are designed for applications where large numbers of fibres are required and space is at a premium. With rapid urbanisation, this need is only going to go up exponentially. Micro cables have been used extensively in data centres and smart city networks. To counter the challenge, there is a relatively new development in fibre optics - bend-insensitive fibre. Since this fibre is less sensitive to the stress caused by bending, more fibres can be packed densely into the cable. Additionally, by reducing the fibre coating from 250 microns to less than 200 microns, a bundle of fibres takes-up much less space. We see that the demand for such cables is bound to increase in the near future. For a technology driven firm like KEC, our focus continues on new product development, collaborating with customers for solving their requirements and problems relating to new cable applications and supplying the best quality products around the globe.