International Journal of Emerging Trends in Science and Technology https://ijetst.in/index.php/ijetst <div><strong>IJETST is an international, peer-reviewed open access journal of Current Science and Advance Technology published in English. The journal's publisher is the IGM Publication.</strong></div> <div>The Journal aims at publishing evidence-based, scientifically written articles from different disciplines of sciences and Technology. The Journal welcomes articles of general interest to audiences of Technical and Non-Technical researchers especially when they contain new information. IJETST is an online journal having full access to the research and review paper. The journal also seeks clearly written survey and review articles from experts in the field, to promote insightful understanding of the state-of-the-art and application trends</div> en-US editor@ijetst.in (Pradeep Kumar) editor@ijetst.in (Pradeep Kumar) Thu, 04 Jan 2024 12:22:51 +0000 OJS 3.2.1.4 http://blogs.law.harvard.edu/tech/rss 60 Fraud Detection Combating Mobile Money Fraud in SMS Messages Using Machine Learning https://ijetst.in/index.php/ijetst/article/view/1585 <p style="margin: 0in; text-align: justify;"><em>This paper presents a machine learning-based fraud detection model to combat the SMS based mobile money fraud. The systems use an XGBoost classifier to process SMS message content real-time and boast a high level of accuracy with predicting malicious intent. Built using Flask framework, the system allows administrators to monitor in real-time all reported alarms for specific transactions regarding fraud and keep statistical records. Future research includes improving the interpretability of models and making them both more scalable as well as robust to adversarial attacks for better fraud detection in mobile money services. </em></p> Panji Msowoya, Dr Tawarish Copyright (c) 2024 International Journal of Emerging Trends in Science and Technology https://creativecommons.org/licenses/by-nc-sa/4.0 https://ijetst.in/index.php/ijetst/article/view/1585 Mon, 29 Jul 2024 00:00:00 +0000 Adaptive Power System Load Frequency Control based on Metaphorless Optimizers https://ijetst.in/index.php/ijetst/article/view/1589 <p>This research proposes an alternative Load Flow Controller (LFC) to power systems stability studies based on the population-oriented mathematical optimizer called the PI-Rao. This approach is applied to stabilizing frequency deviations in single-area power systems and compared with a basic PI controller. The research employed a dynamic systems model for a singular area system to capture the dynamics of an LFC. The system is composed of two parts: Part 1 is the LFC optimization systems part which makes a global search for the optimal P &amp; I factors based on some prespecified frequency fluctuation. In contrast, Part 2 is the METARPHOLESS-PI part which uses a population-oriented mathematical logic. The presented optimization in (Part 1) follows classical methods inspired by evolutionary approaches to search for the optimal set of fitting parameters. The minimization of area control error (ACE) is considered an objective function involving the minimization of an Integral Time multiplied Absolute Error (ITAE). The results of simulations have shown the superiority of the proposed solution considering the loading changes of 0.02p.u to 0.1p.u and at intervals of 0.02p.u. Thus, the PI-Rao should serve as another potential solution for power systems LFC applications. The current challenges and future research directions for the existing and prospective projects of the power system operators seek microprocessor-based fault analysis solutions.</p> Dr. B. A. Wokoma, Dr. D. E. Ekeriance, Engr. E. O. Olubiyo Copyright (c) 2024 International Journal of Emerging Trends in Science and Technology https://creativecommons.org/licenses/by-nc-sa/4.0 https://ijetst.in/index.php/ijetst/article/view/1589 Tue, 29 Oct 2024 00:00:00 +0000 P ¹ NP: A Formal Proof https://ijetst.in/index.php/ijetst/article/view/1579 <p>According to the conjecture that P ¹ NP, we recall in this paper that class NP includes P, NP-intermediate and NP-complete problems (some of Co-NP and NP-hard problems also belong to NP). It is obvious that if a single problem belonging to NP is formally proved non-polynomial, then P ¹ NP no longer remains a conjecture but rather becomes a formal statement. In this purpose, we formally prove that the Graph-isomorphism problem (belonging to class NP) is non-polynomial time, which leads that P ¹ NP is a formal statement, not a conjecture.</p> Ali Mahdoum Copyright (c) 2024 International Journal of Emerging Trends in Science and Technology https://creativecommons.org/licenses/by-nc-sa/4.0 https://ijetst.in/index.php/ijetst/article/view/1579 Tue, 07 May 2024 00:00:00 +0000 A Pandemic Predictive Model with Convolutional Neural Networks and Deep Reinforcement Learning using Simulated Partial Differential Equations Data. https://ijetst.in/index.php/ijetst/article/view/1578 <p style="font-weight: 400;">Detecting the spread of pandemics will greatly reduce human and economic loss. Existing Epidemiological models used for coronavirus disease 2019 (COVID-19) prediction models are too slow and fail to capture epidemic development thoroughly. This research presents a Physics-based Machine Learning Architecture (PMLA) to improve the processing speed and accuracy of epidemic forecasting governed by susceptible–exposed–infected–recovered–deceased (SEIRD) model equations. The dynamics of the epidemic were extracted using Convolutional Neural Networks (CNN) and Deep Reinforcement Learning (Deep RL) from data simulated with Partial Differential Equations (PDEs). The PMLA accuracy is measured using mean squared error. The PMLA prediction model enhances the ability of health authorities to predict the spread of COVID-19 in real time efficiently and effectively.</p> <p style="font-weight: 400;">&nbsp;</p> <p style="font-weight: 400;"><strong>Keywords:</strong> COVID-19, Convolutional Neural Networks, Deep Reinforcement Learning, Partial Differential Equations, Machine learning, Finite Element Method.</p> Sai Nethra Betgeri, Shashank Reddy Vadyala Copyright (c) 2024 International Journal of Emerging Trends in Science and Technology https://creativecommons.org/licenses/by-nc-sa/4.0 https://ijetst.in/index.php/ijetst/article/view/1578 Thu, 29 Feb 2024 00:00:00 +0000 Forecasting Population demographics in Lilongwe city: Leveraging Prophet and Time series analysis Techniques https://ijetst.in/index.php/ijetst/article/view/1577 <p>Population demographics provides grounds for forecasting due to complex nature of various editions of population figures. The accurate prediction of population demographics is pivotal for urban planning, resource allocation, and the development of effective policies. In this paper, we utilize historical demographic data collected over time to forecast future demographic trends, enabling informed decision-making by local authorities and urban planners. The study begins by gathering and preprocessing a comprehensive dataset that encompasses various demographic variables, such as age, gender, income, education level, and occupation, among others. We employ Prophet, a robust forecasting tool, with diverse time series analysis methods. It examines historical demographic data, refining models using Prophet’s flexibility and traditional time series techniques like ARIMA and exponential smoothing. By leveraging Prophet and time series analysis, this paper aims to offer accurate forecasts of population dynamics, age structures and migration trends, providing valuable insights for urban planning and policy formulation.</p> <p><strong>Keywords</strong>: population demographics, ARIMA, prophet, time series analysis.</p> <p> </p> Destiny Mwafulirwa, Dr Tawarish Copyright (c) 2024 International Journal of Emerging Trends in Science and Technology https://creativecommons.org/licenses/by-nc-sa/4.0 https://ijetst.in/index.php/ijetst/article/view/1577 Sun, 04 Feb 2024 00:00:00 +0000 Empirical Study of the Relationship between Capital Formation and Saving in Rwanda: An Econometric Approach https://ijetst.in/index.php/ijetst/article/view/1576 <p><em>The objective of this study was to investigate the empirical relationship between capital formation and saving in the case of Rwanda. The empirical literature review reveals that saving has a positive effect on capital formation. Results of the research obtained using the Ordinary Least Square method show that in Rwanda there is positive correlation between capital formation and saving. Saving is used to finance investments useful for the development of the country.</em></p> <p><em>In the equation formulated, endogenous variable was capital formation while exogenous variables wer<strong>e </strong>saving, foreign direct investments and money supply. It has been demonstrated that coefficient of saving is positive. In Rwanda, an increase 1% of saving ends at an increase of gross capital formation of 1.271241</em><em>%</em><strong><em>.</em></strong><em> A</em><em>nalyses done end at results that estimated coefficients are statistically significant at 5% margin of error i.e. 95% level of confidence. The relative probability for LSAV is less than 0.5. R-squared is </em><em>0.980003. </em><em>This goes to mean that exogenous variables selected explain Gross Capital Formation at 98% and the model if fitted. Therefore, the government of Rwanda should make supplementary effort to encourage saving in the country so to boost the economy through more investment in order to meet its major objective, i.e the economic and social development.</em></p> Ngabo Yisonga Matabaro Roch Copyright (c) 2024 https://creativecommons.org/licenses/by-nc-sa/4.0 https://ijetst.in/index.php/ijetst/article/view/1576 Thu, 04 Jan 2024 00:00:00 +0000