Tech

Optical Communication Technology By IIT Guwahati Researchers Transferred For Commercial Rollout; It Has Critical Military Applications

Anand Parthasarathy

Feb 14, 2023, 05:04 PM | Updated 05:03 PM IST


IIT Guwahati researchers Bosanta Ranjan Boruah and Santanu Kanwar whose Free Space Optical Communication technology has been transferred for commercial rollout.
IIT Guwahati researchers Bosanta Ranjan Boruah and Santanu Kanwar whose Free Space Optical Communication technology has been transferred for commercial rollout.
  • IIT Guwahati has transferred Free Space Optical Communication technology to Ahmedabad-based specialists, Nav Wireless Technologies. 
  • Six-year work of Physics professor and his PhD student has garnered US, Korean and Japanese patents for its novel solution to overcome atmospheric challenges.
  • Secure encryption features in Indian solution may interest defence forces.
  • Just over two years after their pathbreaking innovations in the technology of transmitting digital data wirelessly in the form of light pulses was sealed with three global patents, IIT Guwahati Physics Professor Bosanta Ranjan Boruah and his PhD student Santanu Kanwar, now an Assistant Professor, teaching Physics in Abhayapuri College in Assam, have achieved an important landmark.

    Unlike so much of academic work that remains within the covers of doctoral theses, the novel “Free Space Optical Communication System” (FSO) developed by the duo has been technology-transferred to a private sector Indian company who is arguably the leading provider of optical wireless solutions.

     A release from IIT Guwahati, earlier today (14 February) announced that the transfer of technology has been completed to Ahmedabad-based Nav Wireless Technologies, which has hitherto exploited another optical communication technology – LiFi or light-based WiFi. (Swarajya has reported on this work).

    Swarajya spoke to both co-developers of the technology earlier today to understand why this made-in-India solution claims to innovate in a communications arena that has been around for a decade or more and is being tried in many countries.

    How Free Space Optical Communication works. Image credit Sahil Nazir Pootoo (2020) from his paper at Research Gate.
    How Free Space Optical Communication works. Image credit Sahil Nazir Pootoo (2020) from his paper at Research Gate.

    They explained that simply put, FSO replaces physical data communication channels like fibre optic cable with an optical system, where data is converted into optical pulses representing ones and zeroes and transmitted wirelessly to a receiver where an optical receiver unscrambles the pulses and reconverts it back into digital data. 

    Such systems can send and receive data at very high speeds — around 1.25-1.5 gigabits per second — and the IIT Guwahati researchers have achieved distances of up to 1 km, in a lab set up.

    This can — and presumably will — be scalable to larger distances by the tech partner, Nav Wireless Technologies.

    Dr Kanwar explained the patents earned by the work (the 16-page US patent can be read here. The work has also earned identical patents in Korea and Japan) spell out how their system overcomes the main obstacles to uninterrupted FSO communication, weather conditions like fog. 

    He added: “our system is highly secure and it requires multiple keys to decode the data… there is no possibility of unauthorised interception.”

    This suggests why world-wide military agencies including the US Defence Advanced Research Projects Agency (DARPA) have been among the earliest to embrace free space optical communication.   

    The pluses of the IIT Guwahati technology — enhanced security features and the ability to overcome severe atmospherics, would make it an ideal for India’s armed forces along the northern and north-eastern borders where low visibility and fog/snow are perennial challenges.

    Military applications of  free space optical communications: a concept. (Wikipedia)
    Military applications of free space optical communications: a concept. (Wikipedia)

    The only requirement is that multiple towers, within a few kilometres of each other’s line of sight, are required to bounce the optical signals across the terrain. The other option tried by some military users is to bounce the signal off satellites.

    In the civilian sector too, the FSO solution when rolled out commercially will help provide secure and high-speed data communications  for enterprise customers.

    Says Prof Boruah: “Free space optical communication is likely to play a crucial role in the coming days both in case of indoor applications and outdoor especially in the defence sector. We will be looking forward to meeting the challenges as our technology is adapted to serve the society.”

    Adds Hardik Soni, Nav Wireless Technologies’ CTO and co-founder: “NavTech is a pioneer in India doing research on optical wireless technologies  developing applications, and manufacturing LiFi and FSO products and solutions. We are glad to join hands with one of India’s premier technology institutions for further development of optical wireless technology.”

    The work of these Assam-based researchers will hopefully result in the coming months in the rollout of robust systems that will ensure Indian ownership and control over mission-critical communication technology for both civilian and defence applications.

    Anand Parthasarathy is managing director at Online India Tech Pvt Ltd and a veteran IT journalist who has written about the Indian technology landscape for more than 15 years for The Hindu.


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