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Deep knowledge tracing and cognitive load estimation for personalized learning path generation using neural network architecture

Tong Chunyan, Changhong Ren

2025Scientific Reports13 citationsDOIOpen Access PDF

Abstract

This paper presents a novel approach for personalized learning path generation by integrating deep knowledge tracing and cognitive load estimation within a unified framework. We propose a dual-stream neural network architecture that simultaneously models students' knowledge states and cognitive load levels to optimize learning trajectories. The knowledge state tracking module employs a bidirectional Transformer with graph attention mechanisms to capture complex relationships between knowledge components, while the cognitive load estimation module utilizes multimodal data analysis to dynamically assess mental effort during learning activities. A dual-objective optimization algorithm balances knowledge acquisition with cognitive load management to generate paths that maintain optimal challenge levels. Experimental evaluations across multiple educational domains demonstrate that our approach outperforms existing methods in prediction accuracy (87.5%), path quality (4.4/5), and learning efficiency (24.6% improvement). The implemented system supports real-time adaptation based on performance and cognitive state, resulting in reduced frustration, higher engagement, and improved knowledge retention. This research contributes to both theoretical understanding of learning processes and practical implementation of next-generation adaptive educational technologies.

Topics & Concepts

Computer scienceDeep learningTracingArchitectureEstimationArtificial intelligenceArtificial neural networkCognitionCognitive architectureCognitive loadPath (computing)Machine learningNeuroscienceComputer networkBiologyArtVisual artsEconomicsOperating systemManagementIntelligent Tutoring Systems and Adaptive LearningOnline Learning and AnalyticsAI-based Problem Solving and Planning