Abstract Fuzzy logic is a paradigm for an alternative design methodology, which can be applied in developing both linear and non-linear systems for embedded control. One of successful application that can use fuzzy control is liquid level control. This control system keeps developing from time to time to replace the ordinary system which applies mechanical functions in its control in order to improve the system reliability. In order to find the best design to stabilize the liquid level, the purpose of this thesis is to design a simulation system of fuzzy logic controller for water tank level control by using simulation GUI package which in MATLAB software. The water level was controlled by using three rules of membership function which then extended to five rules for verification purpose. This thesis is focus to the software part only, by doing some modification the design will be very useful for the system relates to liquid level control that widely used in industry nowadays. For a long time, the choice and definition of the parameters of PID controller are very difficult especially in nonlinear systems. There must be a bad effect if parameters wasn’t chosen nicely but the fuzzy controller can solve this problems because it’s based on the operator’s understanding of the behavior of the process (physical and dynamical response) instead of its detailed mathematical model to conclude the rules by the experts that match desired behavior. In this thesis, the water tank system was tested by both fuzzy and PID controller to analyze the control effect and comparing them with each other. As a result of comparing, fuzzy control is superior to PID control, which indicated that the fuzzy logic controller reduced the maximum overshoot and significantly reduced the steady state error and settling time as compared with PID controller. ABSTRACT
Business Intelligence (BI) and learning analytic (LA) are drawing substantial attentions recently, and being one of the most competitive advantageous-themes areas in universities nowadays. The revolution of ICT and the vast amount of data that has been generated accordingly, makes it significant to gain the maximum benefits of these datasets, in proportion to retention, students' success as a key research topic and students’ satisfaction. And to improve individual performance, that leed to improve the overall organization's performance, increase profitability, novel insights and stronger innovations. Although BI systems have a great impact on strategic, informed and high-quality decisions based, there is a lack of evident based practical guidance, on how effectively deploying LA to improve learning outcomes and students’ success, as a big challenge in HEIs. The objective of this research, is to fill the void in literature by developing and validating a framework. The model is expected to integrates BI software solutions, LA and students’ performance. Predictive analytics is used for analyzing useful knowledge from the student learning experience, to improve learning outcomes for the students and the society. A student satisfaction survey via a questionnaire is conducted, to capture student requirements, and for well understanding of their educational needs, as well as individual learning characteristics. The understanding of quality office requirements, gathered by interviewing quality affairs dean, studying university’s documents and distributing questionnaire to academic and administrative s-taff member’s representatives, for many key regions. Researcher conducted a systematic literature review (LR), in LA field action researches, design and development LA models, universities’ BI initiatives and big data generated in HE as a big challenge. Using design and development research methods, a novel but practical model was constructed. The model is validated, deploying a real students’ dataset of “1034” undergraduate active students (students’ mean age 19.5, 65% females), studying for degree of computer science in Computer Science and Information Technology College in SUST, one of the public universities in Sudan. Starting with extracting the variables, from heterogeneous resources (student information system, students’ grading, enrollment and biography information), to populate warehouse systems, which used for performance measurement and decision support by analyzing facts produced, using Tableau BI software tool.
The findings explored that, how technology captured data of students’ performance for prediction, to identified at-risk students, for the purpose of consulting and withholding them before being drop out. Findings also investigate a profound domain knowledge about students and their context, and effectively differentiate the overall performance per college/departments per years/semester, giving implication of the retention, completion rate for graduated students and to detect defects to be corrected using and implementing effective informed decisions. Finally, a comprehensive evaluation is conducted, by surveys and interviews, determining the efficiency and influence of the proposed framework. This research identifies five main phases of this integrated framework: Data warehouse population, Data analytics, Visualization, Operational insights and assessment data phase. Each stage involves several key fundamental factors.
Elhassan, F (2021). An integrated Business Intelligence Model to Enhance Learning Processes in Higher Education Institutions. Afribary. Retrieved from https://afribary.com/works/an-integrated-business-intelligence-model-to-enhance-learning-processes-in-higher-education-institutions
Elhassan, Fawzia "An integrated Business Intelligence Model to Enhance Learning Processes in Higher Education Institutions" Afribary. Afribary, 21 May. 2021, https://afribary.com/works/an-integrated-business-intelligence-model-to-enhance-learning-processes-in-higher-education-institutions. Accessed 29 Nov. 2024.
Elhassan, Fawzia . "An integrated Business Intelligence Model to Enhance Learning Processes in Higher Education Institutions". Afribary, Afribary, 21 May. 2021. Web. 29 Nov. 2024. < https://afribary.com/works/an-integrated-business-intelligence-model-to-enhance-learning-processes-in-higher-education-institutions >.
Elhassan, Fawzia . "An integrated Business Intelligence Model to Enhance Learning Processes in Higher Education Institutions" Afribary (2021). Accessed November 29, 2024. https://afribary.com/works/an-integrated-business-intelligence-model-to-enhance-learning-processes-in-higher-education-institutions