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All Journal International Journal of Reconfigurable and Embedded Systems (IJRES)
Manjunathan Alagarsamy
K. Ramakrishnan College of Technology
Economics, Econometrics & Finance

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Machine to machine communication enabled internet of things: a review Rajagopal Sudarmani; Kanagaraj Venusamy; Sathish Sivaraman; Poongodi Jayaraman; Kannadhasan Suriyan; Manjunathan Alagarsamy
International Journal of Reconfigurable and Embedded Systems (IJRES) Vol 11, No 2: July 2022
Publisher : Institute of Advanced Engineering and Science

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.11591/ijres.v11.i2.pp126-134

Abstract

Internet of things (IoT) will be the main part in upcoming generation devices that would not simply sense and report, also will have the controlling capability. It may be a connected vehicle, connected devices, robot, a building automation system, a door lock or a thermostat, these connected machines or devices will provide greater impact on our daily lives. Control data and the operating instructions could be protected to ensure control and autonomy for our safety and security, this could be a critical task. Privacy and security are important consideration in designing the system. With the intense growth of devices or devices with facilities such as computing and communication are carried out using a profound technology known as machine to machine (M2M) communication, which is specially designed for cross‐platform integration. In many industries, smart homes, smart cities, smart agriculture, government, connected devices, security, healthcare, education, public safety, and supply chain management. Internet of things (IoT) and machine to machine communication have to be implemented in near future. Also, this paper gives an in depth view about the different M2M techniques with interconnected IoT for truly connected, smart, and sustainable world.
Development of electrocardiogram intelligent and wearable monitoring system-assisting in care Manjunathan Alagarsamy; Jemin Vijayaselvan Mariyarose; Nithya Devi Shanmugam; Joseph Michael Jerard Vedam; Mary Dallfin Bruxella Joseph; Kannadhasan Suriyan
International Journal of Reconfigurable and Embedded Systems (IJRES) Vol 12, No 1: March 2023
Publisher : Institute of Advanced Engineering and Science

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.11591/ijres.v12.i1.pp51-59

Abstract

The primary factor contributing to the high mortality rate in our country is coronary heart disease, which affects almost 50% of people from rural regions. Internet of things (IoT) contributes effectively to the development of point of care (POC) gadgets that support the medical upkeep of an expanding agricultural population. An electrocardiogram test is crucial for analysing cardiac disorders. Therefore, we must develop a POC piece of hardware to assess the health of the heart in an affordable manner and to design it for the patients without interfering with their daily regular procedure in order to monitor the patient's coronary heart disease. As a result, we must design an uninterrupted workbench, which consists of three main integrated parts. The first is a mobile Bluetooth low energy device that has 5-lead electrocardiogram (ECG) surveillance equipment and the smallest form factor. The smart phone Android application that inherits, resolves, and maps the data sent from the ECG device comes next. The patient's information and report details are then compiled on a cloud server for the doctor's future attribution needs.
Design of wideband antenna using interdigital capacitance Kannadhasan Suriyan; Kanagaraj Venusamy; Indira Priya Ponnuvel; Syed Khaja Ahmedudin Zakir; Manjunathan Alagarsamy
International Journal of Reconfigurable and Embedded Systems (IJRES) Vol 12, No 1: March 2023
Publisher : Institute of Advanced Engineering and Science

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.11591/ijres.v12.i1.pp149-156

Abstract

A pair of wideband antenna serve as an impedance transformer for the proposed antenna, which consists of a dipole with periodic capacitive loading. Periodic capacitive loading is achieved at each sector by adding interlaced coupling lines. In order to create a broad impedance bandwidth, the periodic interlaced coupling lines split each arm of the dipole into five portions. Currents are dispersed on the various sections at different frequencies. The suggested antenna is an excellent choice for radar applications since it has a high gain and a low amount of cross polarisation. With the aid of innovative design methods including codirectional inclusion of interdigital capacitance, this research study proposes an interdigital capacitance for wideband (WB) applications interdigital capacitor (IDC). The suggested IDC antenna, which works between 4.70 and 11 GHz, has dimensions of 6.36x6.35x1.6 mm3. This page explores in-depth data on gain over frequency, far field patterns, and surface current distribution on antennas. The suggested antenna's feasibility is shown by simulation data that demonstrates excellent equality on return loss.
SDSFLF: fault localization framework for optical communication using software digital switching network Chitra Raju; Sudarmani Rajagopal; Kanagaraj Venusamy; Kannadhasan Suriyan; Manjunathan Alagarsamy
International Journal of Reconfigurable and Embedded Systems (IJRES) Vol 12, No 1: March 2023
Publisher : Institute of Advanced Engineering and Science

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.11591/ijres.v12.i1.pp113-124

Abstract

Optical network is an emerging technology for data communication inworldwide. The information is transmitted from the source to destination through the fiber optics. All optical network (AON) provides good transmission transparency, good expandability, large bandwidth, lower bit error rate (BER), and high processing speed. Link failure and node failure haveconsistently occurred in the traditional methods. In order to overcome the above mentioned issues, this paper proposes a robust software defined switching enabled fault localization framework (SDSFLF) to monitor the node and link failure in an AON. In this work, a novel faulty node localization (FNL) algorithm is exploited to locate the faulty node. Then, the software defined faulty link detection (SDFLD) algorithm that addresses the problem of link failure. The failures are localized in multi traffic stream (MTS) and multi agent system (MAS). Thus, the throughput is improved in SDSFLF compared than other existing methods like traditional routing and wavelength assignment (RWA), simulated annealing (SA) algorithm, attackaware RWA (A-RWA) convex, longest path first (LPF) ordering, and biggest source-destination node degree (BND) ordering. The performance of the proposed algorithm is evaluated in terms of network load, wavelength utilization, packet loss rate, and burst loss rate. Hence, proposed SDSFLF assures that high performance is achieved than other traditional techniques.
An effective gossip routing based wireless sensor network framework for forest fire detection Manjunathan Alagarsamy; Sathya Selvaraj Sinnasamy; Indhumathi Gopal; Radhika Kuppusamy; Anwar Basha Haffishthullah; Kannadhasan Suriyan
International Journal of Reconfigurable and Embedded Systems (IJRES) Vol 12, No 3: November 2023
Publisher : Institute of Advanced Engineering and Science

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.11591/ijres.v12.i3.pp392-402

Abstract

This research looks about a counsel structure that uses degree-supervised snitch to consider allocated sensor networks. Level managed snitch is a proposed process that combines evening out and invading together. This strategy reduces the number of possible messages by delivering them via the base station mechanism, hence increasing the sensor neighborhood’s presence time. The sensor district, which contains numerous sensor centers, is dynamically assigned into phases of extended clear by the use of various energy ranges at the base station. The game design divides the entire sensor neighborhood into distinct concentric zones based on distance from the base station, with the group being routed from high-capacity center to center locations within the lower-capacity zone. The transmission of information proximity of the forest fire to the base station will increase the opportunity. The primary benefit of the display is that it sends a basic event with a higher probability while also conserving the presence time of the neighborhood destiny noticing.
Co-Authors Anwar Basha Haffishthullah Chitra Raju Indhumathi Gopal Indira Priya Ponnuvel Jemin Vijayaselvan Mariyarose Joseph Michael Jerard Vedam Kanagaraj Venusamy Kanagaraj Venusamy Kannadhasan Suriyan Kannadhasan Suriyan Mary Dallfin Bruxella Joseph Nithya Devi Shanmugam Poongodi Jayaraman Radhika Kuppusamy Rajagopal Sudarmani Sathish Sivaraman Sathya Selvaraj Sinnasamy Sudarmani Rajagopal Syed Khaja Ahmedudin Zakir