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136 research outputs found
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Visualizing the Impact of Cyberattacks on Web-Based Transactions on Large-Scale Data and Knowledge-Based Systems
Manual approaches rely on the abilities and knowledge of individual human administrators to detect, analyze, and interpret attacks. Intrusion Detection Systems (IDS) are systems that can automatically detect and warn the appropriate persons when an attack occurs. Despite the fact that individual attacks can be useful, they are frequently insufficient for understanding the entire attacking process, as well as the attackers\u27 talents and objectives. The attacking stage is usually merely a component of a larger infiltration process, during which attackers gather information and set up the proper conditions before launching an attack, after which they clear log records in order to conceal their footprints and disappear. In today\u27s assault scenarios, the pre-definition of cause-and-effect links between events is required, which is a tough and time-consuming task that takes considerable effort. Our technique for creating attack scenarios is based on the linking nature of web pages, and it does not require the pre-definition of cause and effect links, as demonstrated in previous work. Constructed situations are displayed in spatial and temporal coordinate systems to make viewing and analyzing them more convenient. In addition, we develop a prototype implementation of the concept, which we utilize to test a number of assault scenario scenarios
Mobile Remote Content Feed Editing in Content Management System
Mobile content editing in a content management system is the way and manner in which web or electronic content is edited, added, removed, or modified. The internet is the network of affiliated websites, while a website is an interconnection between web pages online. This work explains how the websites are created and authored using the HTML method and the various web authoring tools. It presents the reader with the benefits of using web authoring in web building.
 
IoT for Future Technology Augmentation: A Radical Approach
Known as the Internet of Things (IoT), it is a new paradigm that has transformed a traditional way of life into a high-tech way of life. Smart cities, smart homes, pollution management, energy conservation, smart transportation, and smart industries are all examples of transformations brought about by the Internet of Things. A large number of important research studies and investigations have been carried out in order to improve technology through the Internet of Things. However, there is still a slew of obstacles and issues that must be addressed before the Internet of Things can realize its full potential. These challenges and issues must be evaluated from a variety of perspectives related to the Internet of Things, including applications, challenges, enabling technologies, social and environmental implications, and so on. In this review article, the primary purpose is to present an in-depth discussion from both a technological and a sociological standpoint. The article examines the various obstacles and critical issues associated with the Internet of Things and the architecture and important application domains. Additionally, the essay brings to light the existing literature and illustrates its significance to many parts of the Internet of Things. Furthermore, the significance of big data and its analysis in relation to the Internet of Things has been highlighted. This article will assist readers and researchers in better understanding the Internet of Things (IoT) and how it might be applied in the real world
AUTOSAR Classic vs. AUTOSAR Adaptive: A Comparative Analysis in Stack Development
This study aims to clarify the advantages, disadvantages, and implications of the AUTOSAR Classic and AUTOSAR Adaptive frameworks for stack development in the automotive software engineering domain. The study\u27s primary goals are to examine the design concepts, performance traits, development processes, and implementation difficulties of the AUTOSAR Classic and AUTOSAR Adaptive frameworks. The methodology consists of a thorough literature evaluation, an analysis of market trends, a look at development workflows, and case studies highlighting implementation issues and their resolutions. The key findings show how the AUTOSAR Classic and AUTOSAR Adaptive frameworks differ in architecture, performance, resource usage, and development process. Recommendations for standardization, funding for education and training, R&D, and regulatory frameworks are among the policy implications that support the uptake and advancement of AUTOSAR technologies in automotive software engineering. This report is an invaluable resource for those involved in the automotive sector, legislators, and industry associations trying to make sense of the complicated world of stack development and mold the course of automotive software engineering
A Visitor’s Hybrid Smart Guide Control System
Modern industrial society is filled with hybrid systems. The effectiveness of a control system is now a basic requirement in any institution. In general terms, hybrid systems are reactive systems that intermix discrete and continuous control components in which the discrete part of that control system makes the decision on behaving for the whole designed system and further decides if it can allow it to switch to another set of control protocols when appropriate conditions are availed. The continuous part only functions according to a specified protocol. Hybrid systems are common models used in digital (logic) and continuous networks and devices. Digital control programs detect, control, and supervise continuous and discrete systems using differential or difference equations. This principle was utilized in our design and reported thereof. Although this work developed a different method to deal with specific problems facing students at Technical University of Mombasa. An upgrade was recommended so as to extend the control system to the eye- impaired students and visitors. Since the issue of optimal smart control systems cannot be ignored in the design of new control systems with today\u27s requirements in our learning institutions, it was concluded that further research was necessary to bring about a fully reliable and well-developed control system able to use real-time and real routes as they exist at the university ground. This work reports a hybrid control guide system designed and implemented at the Technical University of Mombasa.
 
Planar and Nonplanar Solitons in Multi-Ion Dusty Plasma
A rigorous theoretical investigation has been made on nonlinear dust-ion-acoustic (DIA) solitary waves (SWs) in a multi-ion dusty plasma system, consisting of inertial positive and negative ions, and arbitrary charged stationary dust. The dust particles have been considered as arbitrarily (either positively or negatively) charged in order to observe the effects of dust polarity on the DIA SWs. Three different approaches (K-dV (Korteweg-de Vries), mK-dV (mixed K-dV), and Gardner) have been employed to analysis the entire regime. The reductive perturbation method has been employed in all these three approaches. Using reductive perturbation method, we first derive K-dV equation which let us to analyze both types (bright and dark) of solitons, but, in a very limited region. After that mK-dV equation has been derived which let us analyze bright soliton for a large region, but cannot show the dark soliton. Finally, we have derived the Gardner equation employing the same method, through which we were able to analyze both the bright and dark solitons for a large region. We also employed the modified Gardner (mG) equation to observe the effects of nonplanar geometry as well as time evolution of SWs. It has been found that both the positive and negative solitons depend on the ion number density of the ions, dust polarity, temperature, as well as time scale. It is also shown that the properties of the nonplanar (cylindrical and spherical) DIA-GSs are significantly different from those of the one dimensional planar ones.
 
Evaluating Performance of Utilizing Onshore Wind Turbines Specifically the Farm Turbines in Kuwait
Renewable energy is considered one of the most important and clean sources; since it does not produce any type of emission or pollution. In Kuwait, the energy of wind is existing in three main locations, which are; Ras Jal Aliyah, Bubian in addition to Subiyah, where the characteristics of wind have been evaluated in this paper based on the data generated from the meteorological measurements at 10m height. Also, different studies have been performed in this paper in order to analyze the impact of height on the parameters of wind energy, wind density, in addition to wind speed. Jal Aliyah location has been studied in this paper and the results showed that there is a proportional relation between the wind speed and power, where the maximum power is potential if the speed is equal to 29.1 m/s, and the maximum averaged flux of wind power is equal to 725.54 W/m2. Where both Bubidan Island and Ras Subiyah showed the wind direction in the North-East quadrant with speed is greater than 10 m/s. But, the higher polarized distribution of Jal Aliyah was in the north direction. Based on the obtained results, it can be concluded that this paper provides and suggests a proper design of the wind turbines for designers
Enhancing DevOps with Azure Cloud Continuous Integration and Deployment Solutions
This study addresses the critical gap in optimizing DevOps practices within Azure Cloud environments, focusing on continuous integration and deployment solutions. The primary objective is to explore advanced security practices, scalability through architectural patterns, and the integration of compliance and performance monitoring. Key findings indicate that leveraging Azure Security Center and Azure Sentinel significantly enhances data protection and regulatory compliance. Employing scalable architectures, such as microservices and serverless computing, optimizes resource usage and application performance. The integration of Azure Monitor, Log Analytics, and Application Insights ensures comprehensive monitoring, proactive issue detection, and adherence to compliance standards. These strategies collectively improve DevOps efficiency, resulting in faster and more reliable software delivery. Policy implications suggest that organizations should adopt Azure\u27s advanced tools and practices to enhance security, scalability, and compliance in their DevOps processes, ultimately driving operational excellence and continuous improvement in cloud-based applications
Advanced Java Wizardry: Delving into Cutting-Edge Concepts for Scalable and Secure Coding
The dynamic landscape of advanced Java is investigated in this essay, focusing on the essential features and techniques that propel engineers into the future of software engineering. Mastering multithreading and concurrency for best performance, as well as maximizing the potential of Java, are all topics that will be covered. An exploration of more complex notions that take Java programming to new heights is presented in this article. Learn the intricacies of web development, microservices, and secure coding techniques. This will ensure that readers understand the tools and methodologies driving the cutting edge of Java programming. Take advantage of insights designed explicitly for developers negotiating the difficulties of advanced Java and embrace innovation and scalability. This study provides developers with the information and skills to construct robust and high-performing applications. It covers subjects such as microservices architecture, reactive programming, and security best practices, among other topics. The purpose of this article is to provide a comprehensive investigation of advanced concepts that are necessary for the development of modern software
Evaluation of Improved Tef [Eragrostisteff /Zucc./Trotter] Production Technologies in Central High Lands of Ethiopia
A study was carried out to evaluate the performance of improved varieties of tef and production technologies in Becho district of Oromia, Centeral Ethiopia. Five improved tef varieties along with the local were selected and used as treatments (that is, Dega tef (T1), Guduru (T2), Kena (T3), Kora(T4),Quncho(T5) and Local (T6)) arranged in a Randomized Complete Block Design (RCBD) with six replications using six farmers’ fields. Yield and yield related parameters were analyzed using SAS statistical software version 9.0. Economic analysis/profitability, preference/acceptability, gender and nutrition and environmental suitability data recording were performed to compare treatments advantages and identify the best performing varietity/ies. All the yield and yield related components were significantly different between the varieties at 5 % probability level %) except for plant height in which there was no significant difference among varieties. Variety Dega tef gave the highest grain yield with average grain yield of 3610.6kg/ha followed by Quncho and Kora and also had about 40% yield advantage over the local variety with average grain yield of 2577.83kg/ha and had about 116.95%, 110.25% and 90.80 % yield advantage over the national, regional and zonal average yield of tef in 2016/2017 Meher season of CSA data respectively. Based on farmer’s preference analysis variety Dega tef had high acceptability (75%) followed by Quncho (73%) and Kora (70%). Guduru variety has the least in acceptability (21%). As the result from the economic analysis showed that Dega tef variety had the maximum net benefit (79,536.69birr/ha) followed by Quncho (67,106.97birr/ha) and Kora (63,746.96birr/ha). Variety Guduru had the least net benefit result of about 53,648.17birr/ha. Based on the rules of decision making and the integrated scoring set for technology validation, two of the three improved varieties meet the requirements to be recommended. Therefore, we recommend Dega tef, Quncho, and Kora varieties for Becho areas and other areas with similar agro-ecological conditions in the central highlands of Ethiopia