https://mail.solidstatetechnology.us/index.php/JSST <table style="width: 100%;"> <tbody> <tr> <td width="30%"><img src="/images/book_cover/book_cover.jpeg" width="376" height="493"></td> <td style="padding: 1px 0 0 10px; text-align: left;" width="70%"> <h1><span style="color: #992c2c;"><strong>Solid State Technology</strong></span></h1> <p style="text-align: justify;"><strong>Institutional Subscription</strong>: Educational institutions can email us to <strong><span style="color: #992c2c;">subscription@solidstatetechnology.us</span></strong> Kindly note that government institutions or organizations from under develop countries can apply for free subscription. We also provides financial and educational support to such institutions.<br><strong>Refereed Publication</strong>: Referred Journal<br><strong>Review Process</strong>: Double Blind<br><strong>Publication Fee</strong>: Free<br><strong>Media Type(s)</strong>: Online<br><strong>Language</strong>: Text in English; Summaries in English<br><strong>Subscription Price</strong>: Contact Journal Management for Subscription<br><strong>Circulation</strong>: 6854 Unspecified<br><strong>Subject Area(Focused But Not Limited to)</strong>: Materials Science: Materials Chemistry Engineering: Electrical and Electronic Engineering Materials Science: Electronic, Optical and Magnetic Materials Physics and Astronomy: Condensed Matter Physics Special Features: Includes Advertising, Abstracts, Charts, Illustrations, Statistics<br><strong>Contact Email</strong>: editor@solidstatetechnology.us<br><strong>Document Availability</strong>: Open Access Online<br><strong>Reprints Available</strong>: Yes, Contact Publisher<br><strong>Back Issues Available</strong>: Only to Subscribers<br><strong>Abstracting and Indexing</strong>: Google Scholar; SCOPUS; Ei Compendex</p> </td> </tr> </tbody> </table> <p><img style="width: 380px !important; height: 380px !important;" src="/images/img/1.jpeg">&nbsp;&nbsp;<img style="width: 380px !important; height: 380px !important;" src="/images/img/5.jpeg"></p> <p><img src="/images/img/3.jpeg" width="880" height="293"></p> <p><img src="/images/img/4.jpeg" width="878" height="306"></p> en-US Solid State Technology https://mail.solidstatetechnology.us/index.php/JSST/article/view/11458 <p>DDoS assaults threaten computer networks and systems. These attacks flood the targeted system with traffic from many sources, disrupting service. Cyber security now requires real-time attack detection.. The current approach of detecting DDoS attacks is plagued by the issue of elevated&nbsp;percentages of false positives. Moreover, the classifiers employed in the current methodologies may lack the capability to comprehend&nbsp;the intricate patterns of the DDoS assault flow, resulting in diminished accuracy. This paper presents a refined method for identifying DDoS assaults by utilizing a classifier based on ensemble learning and&nbsp;a hybrid machine learning model. The ensemble-based Voting Classifier has the capability to combine many machine learning algorithms (SVC, Logistic Regression, Random Forest, and Naïve Bayes)&nbsp;in order to enhance classification accuracy. This&nbsp;makes it a superior choice for detecting DDoS attacks compared to a single machine learning-based classifier. The challenge&nbsp;of detecting&nbsp;Denial of Service (DoS) attacks in extensive sets of network traffic data&nbsp;is addressed by employing an ensemble of classifiers, known as the Hybrid method, which is designed to survive network attacks. The aim of this study is to construct a collection of classifiers that outperforms individual classifiers in terms of accuracy. The classifiers used in this experiment include SVC, Logistic Regression, Random Forest, and Naive Bayes. The suggested approach is compared against single classifiers using the metrics of accuracy,&nbsp;precision, recall, and&nbsp;F-measure. Outcome. The tests were conducted using Python 3.7.4 in Jupyter Notebook. The studies utilized the&nbsp;publicly available NSL-KDD dataset, which consists of network traffic data. The dataset was segmented into two classes: attack and regular network&nbsp;behavior traffic. The conducted experiments have confirmed the efficacy of the proposed methodology. The&nbsp;suggested Hybrid ML Model for network threats identification surpasses the performance of individual classifiers as well as the Ensemble Based Classifier. The Hybrid ML model&nbsp;attained a detection accuracy of 98.41%, whilst the Ensemble learning Method achieved a detection accuracy of 97%. The results imply that the proposed method has&nbsp;greater efficacy in terms of accuracy when compared to other individual classifiers such as SVM, Naïve Bayes, and Logistic regression and&nbsp;ensemble learning. In order to improve the analysis of network traffic attacks, investigations will be carried out on genuine big data&nbsp;sets.</p> Gottapu Sankara Rao Copyright (c) 2024 2024-05-29 2024-05-29 67 1 01 15 https://mail.solidstatetechnology.us/index.php/JSST/article/view/11466 <p>The current research aims to estimate the features of the amputated metabolic natural distribution, which is considered one of the educational distributions derived from the metaphysical distribution after cutting (amputation) the negative part of the surface sub -curve for the naturally mired distribution, in two ways the greatest possibility and the way of determination and then estimate the use of the average meter of the IMSE error box for the purpose of the purpose The comparison between the preference of these methods, as Simulation results show that the method is the best for prediction. amputated twisted features is the best because it has the lowest value for the average of the Gamblian error square.</p> Suhair Saad Fadel Copyright (c) 2024 2024-05-29 2024-05-29 67 1 16 29