Recent News

  • ECE Students admitted to prestigious universities across the globe May 30, 2021

    The Department of Electronics and Communication at SRM University-AP, Andhra Pradesh, is overjoyed to announce its students’ success in pursuing higher education. Six students from the maiden batch have performed brilliantly and been accepted to prestigious universities in the United States. These students are offered the opportunity to pursue a master’s degree in their chosen fields. Four of the six pupils have been accepted to New York University, and the remaining two are admitted to The University of Wisconsin-Madison and Georgia Institute of Technology in the United States of America.

    Saifuddin Ahmed, Akhil Aluri, Rohit Sai K, and Abirami Ravishankar have been awarded a handsome annual scholarship from New York University. The host university offered a grant of $10,000, $8000, $8000, and $11000, respectively. Among the four students, Saifuddin, Akhil, Rohit and Abirami, the first three opted for a master’s in Management of Technology and Abirami enrolled in the Department of Electrical Engineering. Agnishwar Paul is selected by Georgia Tech University while B Yogananda took admission in the Master’s-Research Programme at The University of Wisconsin-Madison. Yogananda has received an offer for Teaching Assistantship from University of Wisconsin, Madison and as a part of it, he will also be receiving a Monthly Stipend and full Tuition Fee Wavier.

    Students indicated that the in-depth knowledge that they gained during their B. Tech studies made them very confident while applying for higher studies. Agniswar said, “The curriculum that is followed in the university is up-to-date and at par with reputed global universities. It helped me a lot to catch up with the expectations of my preferred university.” Saifuddin added, “I was a bit doubtful at first whether to pursue higher studies after graduation. But the sincere guidance of Dr Sunil Chinnadurai and Higher Connect Club invoked the hunger in me to seek more knowledge.”

    Higher Connect Club (HCC) is the university’s dedicated wing to connect all ECE students interested in pursuing Higher Education after they graduate from SRM University – AP. This club is focused on clarifying all the doubts that usually arise in a student’s mind when pursuing higher education and provides required support with all the resources required, guiding in the best possible way.

    “My professors helped me to come up with the right strategy to score well in GRE. All of our teachers have international exposures. It helped a lot during our preparations for higher studies,” said Yogananda. Apart from strong grades in undergraduate courses, selection rounds of interviews needed proficiency in work experience and extracurricular activities. “The experience we gained during the Semester Abroad Programme and Capstone Projects added value to the resume, which helped us tremendously to prove our merit,” asserted Abirami.

    The Department of ECE is pleased with students’ accomplishments and encourages future batches to emulate them, bringing honour to SRM University-AP, Andhra Pradesh. Prof Siva Sankar Yellampalli, Head of the Department, said, “We are proud of our students. The first batch is about to graduate. We feel saddened to bid them goodbye, but at the same time, it makes me extremely happy to know that they are going to pursue their chosen paths. My best wishes are always with them.”

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  • ECE Undergrads developed AI-based communication app for deaf and blind March 3, 2021

    Won prestigious i-Hack Alpha with a cash prize of $2300

    Department of Electronics and Communication Engineering rejoices in the exhilarating success of Harsha and Mahesh, the winners at iHack Alpha Hackathon. iHack Alpha was an AI-Hackathon, where developers from all backgrounds were invited to solve real-world problems with innovative AI solutions powered by sentient.io AI and Data platform. Unlike the usual hackathons, it was conducted over three weeks, starting from December 2, 2020, and finished on December 27, 2020, and participants were supposed to present a full-fledged application. Four themes were given to participants to work on in the hackathon- 1) Use of AI in retail 2) Use of AI in Customer service 3) Use of AI in media 4) Use of AI in Accessibility.

    Harsha and Mahesh chose to work on the use of AI in the Accessibility theme, where they were asked to build an AI – solution using the sentient.io services. The whole hackathon was divided into three phases 1.) Ideation Phase 2) Build Phase 3) Finals.
    Around 1083 teams participated across countries such as India, Malaysia, the Philippines, Indonesia, and Singapore.

    Harsha and Mahesh found their inspiration in the story of Helen Keller and decided to build an app with ease of accessibility for the blind and deaf persons. As Annie Sullivan used to help Helen in her communication, Harsha and Mahesh thought, why can’t they create an app which can be installed on the mobile phone and will do the same! The duo turned this crazy idea into reality by developing Artificial Voice- a communication app for the blind and deaf. Artificial Voice is a bidirectional communication app for the deaf and blind to send and receive messages with the help of AI-based technology such as Automatic Speech recognition, Text to speech converter, Audio format converter.

    The whole Hackathon was broadcasted online. Harsha and Mahesh’s presentation on Artificial Voice received high praise and acclaims from the judges, and the Team SRMAP(aka Team Square) secured first place in the prestigious i-Hack Alpha hackathon with a grand cash prize of $2300. Harsha is currently pursuing his 3rd year B. Tech Studies whereas Mahesh is in the 2nd year of his undergraduate studies at the Department of Electronics and Communications Engineering. “This success at i-Hack Alpha hackathon has boosted our confidence. We are working on better versions of the app and some other projects that can contribute to society,” said Harsha.

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  • ECE Student sets sail to King’s College, London for Masters studies January 6, 2021

    Nothing brings more pleasure than seeing our students being recognised in the best educational institutions abroad. Ms Abirami Ravishankar has secured a seat in King’s College London for their full-time Master’s Programme in Telecommunications and Internet Technology. She is in the final year of B. Tech in the Department of Electronics and Communication Engineering. The duration of the Master’s programme is one year, and she will be joining her programme in September 2021.

    King’s College, London is well known throughout the world for its eminence. It is one of the top institutes with high QS ranking. Abirami informed that the admission process in such a reputed institute is very rigorous and challenging. King’s College, London accepts only 10% of all the applications each year. “The sheer credit goes to my professors who briefed me on the admission process and guided to crack it. Thanks to the incredible learning experience at SRMAP, I was able to achieve a thorough understanding in my subjects, which helped me immensely during my application days. King’s College, London minutely judges the applicant’s overall knowledge and depth before offering them admission. However, for me, it was no tough job because of my excellent grooming here at SRMAP. I sincerely thank all my professors for all their efforts in making me a good engineer, and now I wish to avail this opportunity to prosper and make a difference to the world in the coming days,” says Abirami, deeply overwhelmed.

    “We are very happy for Abirami for her enrolment in the Master’s programme at King’s College, London. We, the faculty of SRMAP, always strive to provide best guidance and support to our students. Abirami is a meritorious student who aspires to do something for herself as well as for the community. We wish her all the best for her future. She can always count on our support whenever she needs it,” said Prof Siva Sankar Yellampalli, who has closely witnessed Abirami throughout the years of her undergraduate studies. Prof Yellampalli is also the Professor and Head in the Department of Electronics and Communication Engineering.

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  • Students certified on successfully completing outreach programmes organized by IIRS-ISRO September 23, 2020


    SRM University AP-Andhra Pradesh has collaborated with the Indian Institute of Remote Sensing (IIRS) -Indian Space Research Organization (ISRO)’s outreach programme. As part of the association, the students of SRM AP have the excellent opportunity to register for annual courses as well as live and interactive programmes being organized by IIRS-ISRO.

    Department of Electronics and Communication Engineering, SRM AP, have participated and successfully completed the programmes offered IIRS-ISRO. Lehitha Paturi, Bharadwaj Kadiyala, and Sai Yasaswini Metla have been awarded the certificate from the IIRS-ISRO on completing the online course on “Satellite Photogrammetry and its Application”. Also, Annapragada Sai Mounika has been certified for taking up the course on “Application of Geoinformatics in Ecological Studies”. Further, Tamatam Sravani Ratna has been accredited for undertaking both the aforementioned programmes organized by IIRS-ISRO.

    SRM AP encourages the students to proactively avail the interactive distance learning courses and webinars that will enable them to achieve their career goals in aerospace and geospatial technologies and make a mark globally.

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  • Novel cost-effective framework for autonomous vehicle infrastructure September 15, 2020

    Simulating time-variant channel impulse response for mmWave I2I channels using Doppler spread information

    Dr Anirban Ghosh

    Dr Anirban Ghosh, Assistant Professor, Electronics and Communication Engineering, has recently published a paper titled “Time Variance of 60 GHz VI2I channel”. The paper is published in the renowned journal Elsevier-Vehicular Communication with an Impact Factor of 4.7. This paper explores the implementation challenges in unlicensed 60 GHz frequency band for autonomous vehicle infrastructure. This work has been implemented in collaboration with his colleagues from NIT Durgapur and collaborators from Brno University under the aegis of Prof. Ales Prokes. This work is also funded by the Science Foundation grant (Czech) and National Sustainability Program grant (Czech) and DST-Core Research Grant(India).

    Fig 1: Field test setup at the measurement site

    Smart cities are cities on the move; having a mission of delivering people and goods with zero congestion, zero fatality and zero energy wastage. For realising this mission, a smart city needs an intelligent transport system (ITS). As far as the communication aspect of ITS is concerned, historically, the urban ITS planners were more concerned about vehicle-to-vehicle (V2V) and vehicle-to-infrastructure (V2I) modes of communication. This is because the V2V and V2I channels are essentially wireless, and establishing reliable low-latency links over these channels is challenging. Infrastructure-to-infrastructure (I2I) communication is also an integral part of the ITS initiative, and due to their rapid, dynamic and non-invasive nature of the installation, wireless I2I links are preferred over wired links in several smart-road based ITS applications. In order to implement wireless I2I communication, transceivers may be fitted with different kinds of roadside units (RSUs), e.g., short height traffic signposts, overhead gantries, and cantilever sign supports. The traditional role of these RSUs is to support the basic ITS goals, i.e. driver assistance or traffic management. As the vehicular networks scale-up, ITS computations are being shifted to the edge, and the RSUs are going to play more prominent roles in the form of edge computing devices. For example, RSUs can form the cloudlet layer of a vehicular fog computing (VFC) architecture for the internet of vehicles (IoV).

    Vehicular wireless I2I channels realise fixed-to-fixed (F2F) radio communication between two RSUs. For any F2F radio channel with stationary transmitter (TX) and receiver (RX), the time-variance is caused by the mobility of the scatterers. These mobile scatterers, say passersby for an indoor scenario, or passing vehicles for an outdoor scenario, cause changes in path lengths in a fading multipath channel. When viewed in frequency-domain, this yields a change in carrier frequency termed as Doppler shift which is proportional to the velocity of the scatterer, and the spectral broadening caused by the time rate of change of the channel is measured with the Doppler spread. Information about Doppler spread is critical for V2V applications such as platooning. In the context of V2I applications, accurate estimation of the Doppler spread is required for designing adaptive transceivers, smart antennas and for determining cellular handoffs. Doppler spread information can also be used for I2I applications like speed estimation. The radar-based solution has a lower latency compared to a camera-based solution, owing to the video acquisition and processing time of the later. As the Doppler shift is a linear function of the carrier frequency, it is of greater concern while moving up in the frequency ladder to the millimetre wave (mmWave) regime. The Doppler spread in the unlicensed 60 GHz mmWave band would be 10-30 times that in the current sub-6 GHz band, with a range spanning from 10 Hz to 20 kHz depending on the velocity of the scatterers. Moreover, compared to V2V links, the effect of moving scatterers is much more pronounced in F2F links; walking pedestrians with a velocity order of ∼ 1 m/s or even the tree leaves fluttering in the wind are important for F2F channel modelling. For highways, the moving vehicles have a velocity an order higher (> 10 m/s) and contribute significantly to the time-variance of the roadside wireless I2I links.

    Fig 2: Comparison of the measured and
    proposed models of ACF and Doppler
    Spectrum with existing analytical models

    In this paper, Dr Ghosh studied the time-variance of a roadside infrastructure to infrastructure (I2I) channel operating at 60 GHz millimetre wave (mmWave) band, where the time-variance is caused by moving vehicles acting as scatterers. At first, measurement data is obtained by placing the transmitter (TX) and the receiver (RX) at different heights to emulate a link between two nonidentical roadside units (RSUs), and time-domain channel sounding is performed by sending complementary Golay sequences from the TX to the RX. A linear piecewise interpolation of the corresponding temporal auto-correlation function (ACF) is used to find the Doppler spread of the I2I channel, where their interpolation method compensates for a slower sampling rate. Next, a framework is presented for the time-variant channel impulse response (CIR) simulation, which focuses on moving scatterers only and validates the linear piecewise ACF model. The framework is useful for time-variant vehicular I2I channel simulation and in speed estimation related vehicular applications. Finally, a double-slope curve-fitted analytical model for ACF is proposed as a generalisation to the linear piecewise model. The proposed model and its Doppler spectrum are found to be in agreement with the analytical results for fixed-to-fixed (F2F) channels with moving scatterers and matches perfectly with the measured data. “Our research has explained a framework for simulating time-variant channel impulse response (CIR) for mmWave I2I channels with moving scatterers using Doppler spread information – which provides means to study the various characteristics of an I2I channel even without carrying out any expensive channel sounding campaign”, said Dr Ghosh.

    Dr Ghosh and his collaborators are currently exploring further challenges in communication between vehicles (V2V) in the same frequency range (60 GHz).

    To know more about the paper, please visit- https://www.sciencedirect.com/science/article/abs/pii/S2214209620300590?dgcid=coauthor

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