Game Mechanics and Artificial Intelligence Personalization: A Framework for Adaptive Learning Systems

The phenomenal growth of digital learning platforms has brought new learner engagement and retention challenges to higher education. This study proposes a framework that integrates game mechanics—leveling systems, badges, and timely feedback—with artificial intelligence (AI)-driven personalization t...

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Vydané v:	Education sciences Ročník 15; číslo 3; s. 301
Hlavní autori:	Naseer, Fawad, Khan, Muhammad Nasir, Addas, Abdullah, Awais, Qasim, Ayub, Nafees
Médium:	Journal Article
Jazyk:	English
Vydavateľské údaje:	Basel MDPI AG 01.03.2025
Predmet:	Adaptive learning adaptive learning systems Adult Learning Algorithms Artificial intelligence At Risk Students Cognitive Psychology College dropouts Control Groups Customization Designers Difficulty Level Distance Education Distance learning Education Educational Environment Educational objectives Educational Psychology Electronic Learning Equipment and supplies Feedback (Response) Formative Evaluation framework development game mechanics Games Gamification Higher education Holistic Approach Individualized Instruction Influence of Technology Instructional design Instructional Materials Integrated approach Intelligent tutoring systems Learner Engagement Learning Management Systems Learning Modules Learning Motivation Lifelong Learning Literature reviews Mechanics Motivation Online instruction online learning platforms personalized learning Student Motivation Teachers Teaching Pakistan
ISSN:	2227-7102, 2227-7102
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Popis
Shrnutí:	The phenomenal growth of digital learning platforms has brought new learner engagement and retention challenges to higher education. This study proposes a framework that integrates game mechanics—leveling systems, badges, and timely feedback—with artificial intelligence (AI)-driven personalization to meet the challenges of enhanced adaptability, motivation, and learning outcomes in online environments. Key design elements were identified through literature reviews and consultations with instructional design experts, leading to the development an adaptive learning platform prototype. The prototype underwent an eight-week pilot study with 250 Prince Sattam Bin Abdulaziz University (PSAU) students randomly assigned to a control group (non-adaptive system) or an experimental group (adaptive system). Data sources included pre- and post-tests, platform engagement analytics, and learner perception surveys. The results showed that the adaptive group outperformed the control group in the post-test scores (M = 85.2, SD = 6.4 vs. M = 78.5, SD = 7.2) and motivation levels (M = 4.2, SD = 0.7 vs. M = 3.6, SD = 0.8). Additionally, 82% of the adaptive group achieved mastery-level performance compared to 64% in the control group. These findings demonstrate the potential of integrating game mechanics and AI-driven personalization to transform digital learning, offering a roadmap for scalable, data-driven adaptive platforms. Future research will address long-term retention and diverse subject applications.
Bibliografia:	ObjectType-Article-1 SourceType-Scholarly Journals-1 ObjectType-Feature-2 content type line 14
ISSN:	2227-7102 2227-7102
DOI:	10.3390/educsci15030301