Adaptive learning, also known as adaptive teaching, uses individualized learning experiences based on a student’s in-game performance. Rather than a one-size-fits-all experience, My Reading Academy and My Math Academy gather information for each student and provide a custom learning experience that adapts as they learn.
A Personalized Mastery Learning System provides the right content at the right time for each student. The system ensures that students have a strong foundation based on the concept of Architecture of Understanding.
Here are the key functions served by the adaptive system:
- Personalized learning paths: The system recommends which game to play next by showing three options in a game hub for students to choose from. The system uses each child’s game-play performance to decide what they are ready to learn next, ensuring every student gets a customized learning path. The student performance history and the node map structure are used to make these recommendations. A node map is a network of games and their prerequisite relationships. Students move forward and backwards on this map as they gain or lose skills/knowledge.
- Dynamic scaffolding and in-game customizing: The program scaffolds to successfully complete a problem before allowing students to move on. It reduces the cognitive load of the task, allowing the student to focus on key concepts. The system also customizes datasets inside games. For example, when a student replays a game, we give them a different dataset compared to the first play-through. This helps us ensure that students don't just memorize the correct answer to pass a game.
- Initial Placement Activities: when new students start playing, we know very little about them and therefore cannot precisely recommend lessons to these students. To overcome this challenge, the system presents several placement activities to the students to conduct a quick assessment. It gathers data and places each student at the most appropriate starting point.
- Generate data: allow educators to make informed decisions.