Your search keyword '"Hariprasath Manoharan"' showing total 4 results

1. Distinctive Measurement Scheme for Security and Privacy in Internet of Things Applications Using Machine Learning Algorithms

Author

Wadee Alhalabi, Amal Al-Rasheed, Hariprasath Manoharan, Eatedal Alabdulkareem, Mai Alduailij, Mona Alduailij, and Shitharth Selvarajan

Subjects

machine learning, Computer Networks and Communications, Hardware and Architecture, Control and Systems Engineering, software defined networks (SDN), Signal Processing, security, Electrical and Electronic Engineering, privacy, Internet of Things (IoT)

Abstract

More significant data are available thanks to the present Internet of Things (IoT) application trend, which can be accessed in the future using some platforms for data storage. An external storage space is required for practical purposes whenever a data storage platform is created. However, in the IoT, certain cutting-edge storage methods have been developed that compromise the security and privacy of data transfer processes. As a result, the suggested solution creates a standard mode of security operations for storing the data with little noise. One of the most distinctive findings in the suggested methodology is the incorporation of machine learning algorithms in the formulation of analytical representations. The aforementioned integration method ensures high-level quantitative measurements of data security and privacy. Due to the transmission of large amounts of data, users are now able to assess the reliability of data transfer channels and the duration of queuing times, where each user can separate the specific data that has to be transferred. The created system is put to the test in real time using the proper metrics, and it is found that machine learning techniques improve security more effectively. Additionally, for 98 percent of the scenarios defined, the accuracy for data security and privacy is maximized, and the predicted model outperforms the current method in all of them.

Published

2023

2. A Radical Safety Measure for Identifying Environmental Changes Using Machine Learning Algorithms

Author

Pravin R. Kshirsagar, Hariprasath Manoharan, Shitharth Selvarajan, Sara A. Althubiti, Fayadh Alenezi, Gautam Srivastava, and Jerry Chun-Wei Lin

Subjects

air quality, predicting system, environment, air pollution, machine learning techniques, Computer Networks and Communications, Hardware and Architecture, Control and Systems Engineering, Signal Processing, Electrical and Electronic Engineering

Abstract

Due to air pollution, pollutants that harm humans and other species, as well as the environment and natural resources, can be detected in the atmosphere. In real-world applications, the following impurities that are caused due to smog, nicotine, bacteria, yeast, biogas, and carbon dioxide occur uninterruptedly and give rise to unavoidable pollutants. Weather, transportation, and the combustion of fossil fuels are all factors that contribute to air pollution. Uncontrolled fire in parts of grasslands and unmanaged construction projects are two factors that contribute to air pollution. The challenge of assessing contaminated air is critical. Machine learning algorithms are used to forecast the surroundings if any pollution level exceeds the corresponding limit. As a result, in the proposed method air pollution levels are predicted using a machine learning technique where a computer-aided procedure is employed in the process of developing technological aspects to estimate harmful element levels with 99.99% accuracy. Some of the models used to enhance forecasts are Mean Square Error (MSE), Coefficient of Determination Error (CDE), and R Square Error (RSE).

Published

2022

3. Deep Learning Approaches for Prognosis of Automated Skin Disease

Author

Pravin R. Kshirsagar, Hariprasath Manoharan, S. Shitharth, Abdulrhman M. Alshareef, Nabeel Albishry, and Praveen Kumar Balachandran

Subjects

integumentary system, Space and Planetary Science, Paleontology, deep learning, learning algorithms, skin disease, MobileNetV2, LSTM, General Biochemistry, Genetics and Molecular Biology, Ecology, Evolution, Behavior and Systematics

Abstract

Skin problems are among the most common ailments on Earth. Despite its popularity, assessing it is not easy because of the complexities in skin tones, hair colors, and hairstyles. Skin disorders provide a significant public health risk across the globe. They become dangerous when they enter the invasive phase. Dermatological illnesses are a significant concern for the medical community. Because of increased pollution and poor diet, the number of individuals with skin disorders is on the rise at an alarming rate. People often overlook the early signs of skin illness. The current approach for diagnosing and treating skin conditions relies on a biopsy process examined and administered by physicians. Human assessment can be avoided with a hybrid technique, thus providing hopeful findings on time. Approaches to a thorough investigation indicate that deep learning methods might be used to construct frameworks capable of identifying diverse skin conditions. Skin and non-skin tissue must be distinguished to detect skin diseases. This research developed a skin disease classification system using MobileNetV2 and LSTM. For this system, accuracy in skin disease forecasting is the primary aim while ensuring excellent efficiency in storing complete state information for exact forecasts.

Published

2022

4. IoT Based Electric Vehicle Application Using Boosting Algorithm for Smart Cities

Author

Shabana Urooj, K. Ramya, Hariprasath Manoharan, Yuvaraja Teekaraman, and Fadwa Alrowais

Subjects

Battery (electricity), Control and Optimization, business.product_category, Computer science, 020209 energy, Energy Engineering and Power Technology, 02 engineering and technology, sensors, lcsh:Technology, Automotive engineering, Field (computer science), Electric vehicle, cost, 0202 electrical engineering, electronic engineering, information engineering, Wireless, Electrical and Electronic Engineering, Engineering (miscellaneous), lcsh:T, Renewable Energy, Sustainability and the Environment, business.industry, capacity, 020208 electrical & electronic engineering, electric vehicle, Internet of Things (IoT), business, Internet of Things, Energy (miscellaneous)

Abstract

The application of Internet of Things (IoT) has been emerging as a new platform in wireless technologies primarily in the field of designing electric vehicles. To overcome all issues in existing vehicles and for protecting the environment, electric vehicles should be introduced by integrating an intellectual device called sensor all over the body of electric vehicle with less cost. Therefore, this article confers the need and importance of introducing electric vehicles with IoT based technology which monitors the battery life of electric vehicles. Since the electric vehicles are implemented with internet, an online monitoring system which is called Things Speak has been used for monitoring all the vehicles in a continuous manner (day-by-day). These online results will then be visualized in MATLAB after an effective boosting algorithm is integrated with objective function. The efficiency of proposed method is tested by visual analysis and performance results prove that the projected method on electric vehicle is improved when using IoT based technology. It is also observed that cost of implementation is lesser and capacity of electric vehicle is increased to about 74.3% after continuous monitoring with sensors.

Published

2021