Vadivelu Ramasamy

@kce.ac.in

Professor and Department of Electronics and Communication Engineering
Karpagam College of Engineering

Vadivelu Ramasamy


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https://researchid.co/vadiveluece

EDUCATION

M. Sc., M. Tech., Ph. D.,

RESEARCH, TEACHING, or OTHER INTERESTS

Electrical and Electronic Engineering, Hardware and Architecture, Computer Networks and Communications, Engineering
10

Scopus Publications

Scopus Publications

  • Smart trolley system with intrusion of embedded system
    Aysha Farhana Saleem, Abbiyah Justin, Arul Abisheik, Ganesh Prabhu Seshadri, Thirrunavukkarasu Radhakrishnan, Vadivelu Ramasamy
    Aip Conference Proceedings, 2023
  • Retraction: 79GHz Substrate Integrated Waveguide antenna for short-range radar applications
    G Santhakumar, R Vadivelu, M Revathy Lakshmi, G J Saranya, R Subasini
    Journal of Physics Conference Series, 2021
    It is evident that radar sensing is robust technology compared to camera or LiDAR in the case of autonomous vehicles. Since, they are capable of working even under harsh weather conditions like thick fog, glaring sun, etc. The 77-81GHz frequency band for short range radar provides a global framework for automotive radar by preventing collisions, reducing traffic accidents and thus improvingvehicular safety. The proposed antenna resonates at 79GHz. Below-10dB, return loss characteristic greater than -35dB is obtained in the band of 77.5GHz to 80.4GHz (i.e., impedance bandwidth of 2.86GHz) and gain of above 8dB is achieved. Rectangular vias and complementary concentric square loops of the metamaterial structure are introduced to suppress the surface waves and to achieve the desired frequency of resonance. The feed line and the metamaterial structure are positionedaccordinglyto provide a better impedance matching. VSWR obtained is 1.04 and the antenna is linearly polarized and has a low profile. The total dimension of the antenna is 1.96×2.26×0.127mm3. The antenna structure can be used in an array for automotive radar applications.
  • Retraction: Improved Air Quality Testing Using Kalman Filter Based on IoT Data Fusion for Smart Cities
    R Vadivelu, G Santhakumar, V P Boopana, S. Dharani, S Dhivya Bharathi, D Balasubramaniam
    Journal of Physics Conference Series, 2021
    Monitoring the amount of gases in air in smart cities provides immature gas emissions, polluting concentrations and filtering are examined in this paper. Air contamination is a worry in numerous metropolitan territories and is a critical reason for respiratory issues for some individuals. Monitoring the quality of air aids in the prevention of emission of gases and also the reduction of disease caused by pollution. A System has been developed to measure the values of CO2, NH3, and CH4 gases and therefore the parameters are sent via the ESP8266 Wi-Fi module through which we can monitor the concentration of the gases by tracking the IP address via IoT and also implemented a Kalman filter which purify the polluted air.
  • Retraction: Human Body Communication on Portable Biometric Authentication
    R Vadivelu, G Santhakumar, P Kaviya, M Menaka, S Monisha, D Balasubramaniam
    Journal of Physics Conference Series, 2021
    Furthermore, since people’s proportions of biological tissues including muscle, fat, and skeleton vary, the total dielectric constants of the human body, as well as the signal propagated through the human body, can be used as a biometric characteristic to authenticate people using Redtacton. Wearable systems can be smaller since the HBC is used for both authentication and connectivity. HBC authentication is ideal for wearable devices independent of location due to the use of a transmission signal between devices.
  • Smart Irrigation System for Agriculture using Wireless Sensor Network
    G. Santhakumar, R. Vadivelu, K. Harshini, N. Gokul Krishanth, G. Haritha
    2021 7th International Conference on Advanced Computing and Communication Systems Icaccs 2021, 2021
    In India, development foresees a fundamental half for food production movement. Company enterprise in our country is relying on a destructive storm that is not a pleasant source of water. As a consequence, the water structure is used in the commercial world. Bush gets aquatic irrigation in Irrigation structure, which is based on world type. The nursery built mostly current husbandry adventures area unit the new would like taking all things along components of business enterprise in Bharat. during this advancement, the wetness and leaf soundness of plants area unit all controlled. as a result of the variable measuring system conditions these conditions each therefore typically might move by and huge in mammoth house, that makes implausibly arduous to stay up the consistency in any respect the spots within the house very. it's seen that startlingly Associate in Nursing humanoid phonephone management the Irrigation structure, that might offer the operating environments of maintaining uniform natural conditions area unit projected. the elemental goal of this paper is to make up a pointy distant device affiliation (WSN) for Associate in Nursing farming climate. Checking developing climate for various parts, as an example, soil wetness, Leaf Health and diligence close totally different parts are often of importance. A customary technique to manage live these parts during a common climate projected individual very taking evaluations and checking them at totally different occasions. This paper researches a faraway seeing framework utilizing RF part. These focuses conduct information remotely to a focal employee, what accumulates the knowledge, vittles it and can agree to it to be examined by then showed unsteady and may besides be enraptured off the punter versatile.
  • Retraction Notice: Smart Irrigation System for Agriculture using Wireless Sensor Network (2021 7th International Conference on Advanced Computing and Communication Systems (ICACCS) DOI: 10.1109/ICACCS51430.2021.9441859)
    G. Santhakumar, R. Vadivelu, K. Harshini, N. Gokul Krishanth, G. Haritha
    2021 7th International Conference on Advanced Computing and Communication Systems Icaccs 2021, 2021
    In India, development foresees a fundamental half for food production movement. Company enterprise in our country is relying on a destructive storm that is not a pleasant source of water. As a consequence, the water structure is used in the commercial world. Bush gets aquatic irrigation in Irrigation structure, which is based on world type. The nursery built mostly current husbandry adventures area unit the new would like taking all things along components of business enterprise in Bharat. during this advancement, the wetness and leaf soundness of plants area unit all controlled. as a result of the variable measuring system conditions these conditions each therefore typically might move by and huge in mammoth house, that makes implausibly arduous to stay up the consistency in any respect the spots within the house very. it’s seen that startlingly Associate in Nursing humanoid phonephone management the Irrigation structure, that might offer the operating environments of maintaining uniform natural conditions area unit projected. the elemental goal of this paper is to make up a pointy distant device affiliation (WSN) for Associate in Nursing farming climate. Checking developing climate for various parts, as an example, soil wetness, Leaf Health and diligence close totally different parts are often of importance. A customary technique to manage live these parts during a common climate projected individual very taking evaluations and checking them at totally different occasions. This paper researches a faraway seeing framework utilizing RF part. These focuses conduct information remotely to a focal employee, what accumulates the knowledge, vittles it and can agree to it to be examined by then showed unsteady and may besides be enraptured off the punter versatile.
  • Design of Substrate-Integrated-Waveguide Antenna for Automotive Short Range Radar Application
    G. Santhakumar, R. Vadivelu, M. Revathy Lakshmi, G.J. Saranya, R. Subasini
    2021 7th International Conference on Advanced Computing and Communication Systems Icaccs 2021, 2021
    The proposed antenna operates at mm-Wave frequency, 77-81GHz frequency band which supports the Short-Range Radar (SRR). The design consists of a substrate sandwiched between two PEC layers. The substrate material used is silicon with a thickness of 0.2mm. The radiating element patch has a single complementary circular split ring resonator (CSRR) at its center and the feedline is slightly shifted from the center of patch for a better impedance matching. The SIW plated-through-holes (PTH) which is rectangular, is introduced on three edges of the square patch to suppress the surface waves. The simulated results obtain a s11 below -10dB at 78GHz and gain of above 5dB.
  • A flexible microstrip antenna for health monitoring application in wireless body area network
    International Journal of Scientific and Technology Research, 2020
  • Matched filter based spectrum sensing for cognitive radio at low signal to noise ratio
    Journal of Theoretical and Applied Information Technology, 2014
  • Implementation of modified time - Smoothing algorithms and its comparative analysis in Spectrum Sensing
    European Journal of Scientific Research, 2012