Факультет цифрових, освітніх та соціальних технологій
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Item type:Наукова стаття, Application of intelligent digital infrastructure into the L-test implementation in the physical education of students with lower limb ambulance(2025-04-30) Blavt, Oksana; Iedynak, Hennadii; Vovk, Ihor; Naumchuk, Volodymyr; Kovalchuk, Volodymyr; Faidevych, Volodymyr; Vasyliv, VolodymyrThe purpose of the study was to determine the psychometric properties of the L-test for students with lower limb amputation implemented by intelligent digital infrastructure. Material and Methods. The experiment involved first-year students (males) with amputation of the lower left limb in the absence of acute conditions, open wounds, or complications. The theoretical and empirical research used the following methods: analysis, synthesis, systematization, generalization, measurement and mathematical statistics. Measurement was implemented using the L-test. Results. The result of our scientific search was the development of an intelligent digital infrastructure designed for the implementation of the L-test, which involved solving tasks in collecting and analyzing testing data such as test execution time, gait trajectory, maintaining balance during gait and accuracy of turning. The intelligent digital infrastructure included: Radiofrequency Identification (RFID) microcontroller with an Arduino Mega 2560 board and PC with OLED display. The development used RFID components: RFID tags located at key points of the L-test trajectory, RFID reader - which is located on the student and RFID - data processing system that accumulates and analyzes information, linking RFID elements into a single system. The signal received and processed by RFID when a student performs a test task is transmitted via radiofrequency communication to the Arduino Mega 2560 microcontroller board. The board provides the ability to process signals from RFID to calculate gait parameters when performing the L-test. To increase the efficiency of the intelligent digital infrastructure, Machine Learning algorithms and cloud data storage were implemented. Analysis of the results of the experimental study showed a «high» level of psychometric properties of the L-test for students with lower limb amputations implemented by the intelligent digital infrastructure in contrast to the results recorded by a stopwatch. Conclusions. The use of the intelligent digital infrastructure in the implementation of the L-test for students with lower limb amputations provides a high level of reliability and objectivity of the control results in real-time. The use of modern artificial intelligence technologies in the developed infrastructure allows analyzing large volumes of collected data and creating models capable of assessing the quality of test performance and identifying gait pathologies in students when performing the L-test.Item type:Наукова стаття, European Perspectives on Innovative Educational Practices in the Age of Globalization and Digitalization(Canada: University of Windsor, 2025) Martyniuk, Alla; Zabiiaka, Iryna; Shevchuk, Anastasiia; Lobanova, Svitlana; Hubina, Alla; Melnychuk, OlhaThe potential of innovative learning technologies and digitalization is a key factor in the progressive development of the academic space within the context of educational environment integration. This article aims to study the potential of innovative learning technologies in the context of globalization and the digitalization of education, based on successful European experiences. It also pays special attention to immersive digital media that involve virtual and mixed-reality possibilities. To achieve these goals, a combined approach was applied, including the analysis of existing case studies and the formation of conclusions based on secondary data analysis. This research suggests ways to integrate immersive-learning tools into practice-oriented learning. These types of tools contribute to improving the processes of learning by students, allowing them to visualize complex and abstract definitions, motivate active participation in the learning process, develop creativity and practical skills of problem-based thinking, and provide realistic experiences of solving educational tasks in practice. This article substantiates that these innovations successfully used in developed countries of the European community will allow for the effective development of the national educational system in the post-war reconstruction of Ukraine. This article establishes the need to upgrade the existing educational development strategy to delineate powers between different management institutions, create a competitive environment in the educational sector, and expand opportunities for financing state-of-the-art projects in this area. The prospects for educational development are focused on the potential of immersive learning technologies, practice-oriented education, and interactive communication tools for competence-based learning.