https://journals.scholarpublishing.org/index.php/TMLAI/issue/feedTransactions on Engineering and Computing Sciences2024-07-07T08:16:22+01:00Thomas Harveytecs@scholarpublishing.orgOpen Journal Systems<p>Transactions on Engineering and Computing Sciences is peer-reviewed open access online journal that provides a medium of the rapid publication of original research papers, review articles, book reviews and short communications covering all areas of machine learning and artificial Intelligence. The journal publishes state-of-the-art research reports and critical evaluations of applications, techniques and algorithms in Engineering Management, Cloud Systems, Electrical Engineering, Industrial Networks and Intelligent Systems, Mechanical Civil and Chemiical Engineering, Internet of Things, Mathematical Modeling, Robotics Research, Engineering informatics, Computer Science, Computer Hardware/Software, Robotics and application, Embedded Systems, Data Base Management & Information Retrievals, Geographical Information Systems/ Global Navigation Satellite Systems, Fuzzy Systems, Web and Internet computing, Machine learning, Artificial intelligence, Cognitive science, Software engineering, Database systems, Soft computing, Optimization and modelling and related application areas.</p>https://journals.scholarpublishing.org/index.php/TMLAI/article/view/17242A Genetic Algorithm with a Trust Model Function for Detecting Sinkhole and Wormhole Nodes in Wireless Sensor Networks2024-06-26T17:09:16+01:00Rafiw Seiduasalifu@cktutas.edu.ghAbdul-Mumin Selanwiah Salifuasalifu@cktutas.edu.ghJohnbosco A. K. Ansuuraasalifu@cktutas.edu.gh<p>This study delved into wireless sensor networks, comprising numerous nodes with limited energy, computation, and transmission capabilities. Wireless sensor networks face security challenges due to their vulnerability to capture and compromise in insecure environments. Malicious nodes exploit communication's wireless nature, engaging in sinkhole and wormhole attacks. To address this, we propose a genetic strategy utilising a trust-based formula as a fitness function to evaluate sensor node reliability. Nodes progressing beyond a trust threshold criterion are identified, isolating malicious nodes responsible for attacks. Implemented in MATLAB 2018a, our approach effectively identifies and isolates such nodes, as demonstrated by the results.</p>2024-07-24T00:00:00+01:00Copyright (c) 2024 Rafiw Seidu, Abdul-Mumin Selanwiah Salifu, Johnbosco A. K. Ansuurahttps://journals.scholarpublishing.org/index.php/TMLAI/article/view/17255Vehicle Monitoring and Tracking System2024-06-30T03:04:11+01:00Adnan Shaoutshaout@umich.eduHisham Gaberhgaber@umich.edu<p><span class="s14">In this paper we present a vehicle monitoring and tracking system. Previous systems focus solely on either theft detection or car/driver monitoring. In this paper we provide an integrated solution that provide both theft detection, tracking and driver behavior monitoring. Our system performs well in detecting theft attempts through </span><span class="s14">RFID</span><span class="s14"> and tracking location by </span><span class="s14">GPS</span><span class="s14">. It also monitors the driver behavior using </span><span class="s14">OBD</span><span class="s14"> reader. Combining both features in one system has great advantages like cost efficiency, space saving and the possibility of adding new features.</span></p>2024-07-13T00:00:00+01:00Copyright (c) 2024 Adnan Shaout, Hisham Gaberhttps://journals.scholarpublishing.org/index.php/TMLAI/article/view/16870Machine Learning Based Hybrid State-of-Charge Estimation and Other Battery Parameter Prediction of Commercial EV-Batteries2024-04-18T15:48:52+01:00Tarik Hawsawitarik90.ou@gmail.comMohamed Zohdytarik90.ou@gmail.com<p>Electrical Vehicles (EVs) are gaining huge attention from researchers due to their importance in environmental sustainability. Accurate and precise EV State-of-Charge (SoC) estimation is the primary challenge for commercial E V Batteries. To address the issue, the researchers have proposed many methods. However, there are a few drawbacks in the existing methods which can be resolved using hybridization of the variants of existing methods. In the previously reported work, the Kalman filter was used for the SoC estimation of EV batteries, which is suitable for linear systems. In most practical cases, the SoC of the EV-Batteries system shows nonlinear behavior. Although, there are many other methods, e.g., Extended Kalman and Modified Extended Kalman reported by the researchers but there are some other drawbacks with the existing methods. To resolve the issues, the multi-variable optimization approach can be used to improve the accuracy of the SoC. The present work uses the hybridization of machine learning method to predict and estimate the SoC for commercial EV batteries. Machine learning methods precisely tunes the parameters and optimizes the estimation process by iteratively searching for the optimal solution within a defined parameter space. The performance of the proposed method is analyzed using Jupyter Notebook Platform (Scikit Learn Library). The results prove the superiority of the proposed method.</p>2024-07-24T00:00:00+01:00Copyright (c) 2024 Tarik Hawsawi, Mohamed Zohdy