Shimla, June 1 – Indian Institute of Technology in Mandi in Himachal Pradesh have developed state-of-art solutions in telecommunications technologies to address spectrum shortages in future wireless communication systems.
The findings were published in IEEE Transactions on Consumer Electronics and other IEEE journals such as IEEE Transactions on Very Large-Scale Integration (VLSI) Systems and IEEE Transactions on Circuits and Systems – I.
These papers have been authored by Assistant Professor Dr Rahul Shresth of School of Computing and Electrical Engineering in IIT Mandi and his Ph.D. scholar
Mr. Rohit B. Chaurasiya.
Radiofrequency waves, or “spectrum” as they are known in the telecommunication field, are low energy radiation that is used in
wireless communication. The wireless radiofrequency spectrum is a limited resource and is allocated by Governments to telecom companies
through a licensing process.
The rapid growth in wireless communication technology in recent years and the projected exponential increase due to mass adoption of technology such as fifth-generation new-radio (5G-NR) and the Internet of Things (IoT) are expected to result in a massive demand for spectrum bands.
Pointing out the findings of the research in the area of spectrum optimization Assistant Professor Shrestha of IIT Mandi said, “Given the fixed-spectrum allocation policy by many governments around the world, including ours, it becomes important to use the available spectrum intelligently. Cognitive Radio Technology is
considered one of the best ways to optimize spectrum use.”
Not all parts of the spectrum band licensed to a telecom company (called primary user or PU) are used all the time by the PU. The idea
of Cognitive Radio Technology is that a wireless device such as a cell phone, used by the secondary user (SU) can be fitted with a special
sensor that can detect such “spectrum holes”, (spectrum parts that are not used by the PU) and use them when the main channel is unavailable
or crowded. This forms the basis of a dynamic-spectrum access policy that can overcome shortages of available spectrum at a given time. The
spectrum-hole detecting sensor that is built into the SU’s device is called a Stand-Alone Spectrum Sensor (SSSR).
Elaborating on the relevance of the team’s research, Dr. Rahul Shrestha, said, “The SSSR’s detection capability is often less than
satisfactory due to problems such as hidden-node and signal-to-noise ratio (SNR)-wall problems. This leads to the unreliability of
performance when the SSSR is used in real-time.”
The team’s research work seeks to circumvent the above problem. The work is on a technology in which the wireless device at the SU end is
not equipped with a SSSR, but rather transmits the received parts from the spectrum band to a data-fusion center (DFC). The DFC then
digitizes these parts and processes them using a single cooperative-spectrum sensor (CSR) instead of using device-level SSSR.
The reliable decision is broadcast to all the SU devices for opportunistic communication.
Explaining their work, Mr. Rohit B. Chaurasiya, research scholar, IIT Mandi, said, “We have proposed implementation-friendly algorithms for
cooperative spectrum sensing with lower computational complexity and have also developed multiple new hardware-architectures for CSR and
their submodules.”
This digital CSR ASIC-chip developed by IIT Mandi delivers excellent detection reliability of the PU under real-world channel scenarios
with the best hardware efficiency and fast sensing time. The CSR chip can be used with any handheld mobile wireless communication device for
accessing the unused spectrum. Specifically, it can be used in future 5G and 6G wireless communication technologies for enhancing spectral
efficiency.
In addition, this will enable massive deployment of IoT-based networks where numerous connected devices can use spectrum holes for
break-less communication. The specific uses of cooperative spectrum-sensing technology in India cannot be understated and will
help in establishing broadband services in remote and rural parts of tthe country.
