Recent News

  • Unleashing the Power of Neuroscience: Paper on Person Identification March 19, 2024

    Dr-Banee-SaswatIn a remarkable academic achievement, Dr Banee Bandana Das, Assistant Professor in Department of Computer Science and Engineering and Dr. Saswat Kumar Ram, Assistant Professor in Department of Electronics and Communication Engineering, have made significant contributions to the field of biometric security. Their paper, titled “Person Identification using Autoencoder-CNN Approach with Multitask-based EEG Biometric,” has been published in the esteemed ‘Multimedia Tools and Applications journal, which is recognised as a Q1 journal with an impressive impact factor of 3.6.

    This pioneering work showcases a novel approach to person identification using electroencephalogram (EEG) data. The research leverages the power of Autoencoder-CNN models combined with multitask learning techniques to enhance the accuracy and reliability of EEG-based biometric systems.

    The publication of this paper not only underscores the high-quality research conducted at SRM University-AP but also places the institution at the forefront of innovative developments in biometric technology. It is a testament to the university’s commitment to advancing scientific knowledge and providing its faculty with a platform to impact the global research community positively.

    Abstract

    In this research paper, we propose an unsupervised framework for feature learning based on an autoencoder to learn sparse feature representations for EEG-based person identification. Autoencoder and CNN do the person identification task for signal reconstruction and recognition. Electroencephalography (EEG) based biometric system is vesting humans to recognise, identify and communicate with the outer world using brain signals for interactions. EEG-based biometrics are putting forward solutions because of their high-safety capabilities and handy transportable instruments. Motor imagery EEG (MI-EEG) is a maximum broadly centered EEG signal that exhibits a subject’s motion intentions without real actions. The Proposed framework proved to be a practical approach to managing the massive volume of EEG data and identifying the person based on their different task with resting states.

    The title of Research Paper in the Citation Format

    Person identification using autoencoder-CNN approach with multitask-based EEG biometric. Multimedia Tools Appl (2024).

    Practical implementation/social implications of the research

    1. To develop a personal identification system using MI-EEG data.
    2. This work is about an Autoencoder-CNN-based biometric system with EEG motor imagery inputs for dimensionality reduction and denoising (extracting original input from noisy data).
    3. The designed Autoencoder-CNN-based biometric architecture to model MI-EEG signals is efficient for cybersecurity applications.

    Collaborations

    1. IIITDM, Kurnool, India
    2. National Institute of Technology, Rourkela, India
    3. University of North Texas, Denton, USA

    Future Research Plan

    In the future, different deep learning and machine learning methods can be merged to explore better performance in this EEG-based security field and other signal processing areas. We will investigate the robustness deep learning architectures to design a multi-session EEG biometric system.

    Link to The Article

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  • A Pathbreaking Cross Between Medicine and Technology March 6, 2024

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    The advent of scientific research and technologies in the domain of medicine has recently taken limelight due to its immense benefit on humankind and the medical community. The expert faculty and scholars have recently published a patent, “A System and a Method for Early and Accurate Diagnosis of Cataracts” with Application no.: 202341072058 has put forth an engaging invention on utilising technology for early cataract recognition. Hearty congratulations to Prof. Siva Sankar Yellampalli, Professor, Dr Ramesh Vaddi, Associate Professor, and their Ph.D. Scholars Ms P L Lahari, Mr P Rahul Gowtham, and Mr A Vinod Kumar from the Department of Electronics and Communication Engineering for this groundbreaking achievement!

    Abstract

    Cataracts are a common eye condition in which the lens of the eye gets clouded, impairing vision. Early cataract detection is crucial for prompt treatment and vision preservation. We have classification and prediction algorithms like VGG, ResNet, DenseNet, Xception, Inception, and other object detection techniques like Yolo, Fast R-CNN, and SSD. Various pre-trained models are employed for cataract categorisation and prediction. Several attempts to detect cataracts have been made, but none have proven effective. A clinical examination by eye specialists is used to diagnose cataracts. An edge board can be used instead of a clinical examination to diagnose cataracts.

    We created a method for real-time cataract recognition using the present pre-trained weights of the object detection model YoLoV5. We employ pre-trained YoLo V5 weights for model training, testing, and validation. Connect the Jetson Nano board and Lenovo HD USB camera to the CPU, which serves as the CPU. The monitor is used for programming, and the output is presented on the monitor owing to the board communicating with the camera. The result shows the image with an eye labelling box that tells if the eye is normal or cataract.

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  • A Novel IRS-relay Network for ITS with Nakagami-m Fading Channels December 7, 2023

    sunil-chinnadurai

    The Department of Electronics and Communication Engineering is proud to announce the publication of a research paper by Dr Sunil Chinnadurai, Assistant Professor and Research scholar Shaik Rajak titled “Novel Energy Efficient IRS-relay Network for ITS with Nakagami-m Fading Channels” in the Q1 journal ICT Express, having an Impact Factor of 5.4. The paper focused on developing an energy-efficient network for ITS that utilises Nakagami-m fading channels to improve communication reliability and efficiency.

    In this work, the research duo introduced a cooperative system involving relay technology and an IRS (Intelligent Reflective Surface) with passive elements. Evaluating energy efficiency and achievable rates, they found that the cooperative relay-IRS system outperformed individual relay and IRS setups. The study also compared multi-IRS setups, highlighting their effectiveness in reducing power consumption and deployment costs for improved ITS development.

    Abstract

    The research paper investigates the performance of energy efficiency (EE) for Intelligent Transportation Systems (ITS) using a cooperative IRS-relay network. The proposed cooperative IRS-relay-aided ITS network integrates an IRS block with a number of passive reflective elements to improve EE. The research analyses the ITS in terms of EE and achievable rate under Nakagami-m fading channel conditions. The research aims to reduce power consumption over long distances and operate the system faster and safer.

    Practical implementation/ social implications of the research

    The proposed cooperative IRS-relay network for Intelligent Transportation Systems (ITS) has practical implications for improving energy efficiency and achieving higher data rates in ITS networks. Integrating an IRS block with passive reflective elements in the relay model enhances the coverage area and reduces power consumption in ITS. The research highlights the significance of cooperative IRS-relay and multi-IRS-aided networks in the development of ITS, which can contribute to safer and faster transportation.

    sunil-research-ece

    Dr Chinnadurai and Mr Rajak Future will continue to work on their research focusing on optimizing the design of the cooperative IRS-relay network for ITS to improve energy efficiency and achievable data rates further in real-world scenarios.

    Link to the article

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  • Prof. Naik Expounds on the Future of Biomedical Imaging November 2, 2023

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    The Department of Electronics and Communication Engineering hosted an Invited Talk on “Dynamic Shape-based Biomedical Tomographic Reconstruction Algorithms” by Prof. Naren Naik, IIT Kanpur on October 30, 2023. Prof. Naren Naik, a well-acclaimed researcher and specialist in tomography reconstruction algorithms discussed extensively on tomographic problem definition and formulation, shape reconstructions, shape-tomography based on radial basis functions (RBF), and the diagnosis of early-stage cancer using tomography. He also explored replacing nuclear medicine modalities with optical fluorescence methods, especially in applications like early cancer detection and metabolic imaging. Additionally, the presentation delved into nonlinear-reconstruction frameworks for fluorescence optical tomography.

    Faculty, Research scholars and BTech students from various departments participated in this insightful session. The event was organised by Assistant Professor, Dr V Sateeshkrishna Dhuli of the Department of Electronics and Communication Engineering, SRM University-AP.

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  • SRM University-AP Shines at FUSIONX-2023 October 9, 2023

    The second-year BTech team of SRM University-AP achieved remarkable success at the prestigious National Level Technical Competition FUSIONX-2023. The two-day event was held at S R Gudlavelluru Engineering College (SRGEC), where our team’s exceptional skills and knowledge earned them well-deserved laurels. It is a testament to our students and faculty’s hard work and dedication!

    Three of our students, Mr Sri Sai Manikanta, Mr Ashwanth, and Mr Ajit Kumar, were victorious in the Drone Extreme Challenge and received a cash prize of Rs. 2500. This technical event was held on September 14 and 15, 2023, and was organised by the Department of the Internet of Things (IoT) at SRGEC in collaboration with the Drone Club, ISF and ADYUGA EdTech Solutions.

    Hearty congratulations to the champions on this noteworthy accomplishment!

     

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