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Bibliographic Details
Main Authors: Elhaimeur, Iizalaarab, Chrisochoides, Nikos
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2504.18603
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author Elhaimeur, Iizalaarab
Chrisochoides, Nikos
author_facet Elhaimeur, Iizalaarab
Chrisochoides, Nikos
contents Quantum computing education faces significant challenges due to its complexity and the limitations of current tools; this paper introduces a novel Intelligent Teaching Assistant for quantum computing education and details its evolutionary design process. The system combines a knowledge-graph-augmented architecture with two specialized Large Language Model (LLM) agents: a Teaching Agent for dynamic interaction, and a Lesson Planning Agent for lesson plan generation. The system is designed to adapt to individual student needs, with interactions meticulously tracked and stored in a knowledge graph. This graph represents student actions, learning resources, and relationships, aiming to enable reasoning about effective learning pathways. We describe the implementation of the system, highlighting the challenges encountered and the solutions implemented, including introducing a dual-agent architecture where tasks are separated, all coordinated through a central knowledge graph that maintains system awareness, and a user-facing tag system intended to mitigate LLM hallucination and improve user control. Preliminary results illustrate the system's potential to capture rich interaction data, dynamically adapt lesson plans based on student feedback via a tag system in simulation, and facilitate context-aware tutoring through the integrated knowledge graph, though systematic evaluation is required.
format Preprint
id arxiv_https___arxiv_org_abs_2504_18603
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Toward Personalizing Quantum Computing Education: An Evolutionary LLM-Powered Approach
Elhaimeur, Iizalaarab
Chrisochoides, Nikos
Computers and Society
Artificial Intelligence
Multiagent Systems
Quantum computing education faces significant challenges due to its complexity and the limitations of current tools; this paper introduces a novel Intelligent Teaching Assistant for quantum computing education and details its evolutionary design process. The system combines a knowledge-graph-augmented architecture with two specialized Large Language Model (LLM) agents: a Teaching Agent for dynamic interaction, and a Lesson Planning Agent for lesson plan generation. The system is designed to adapt to individual student needs, with interactions meticulously tracked and stored in a knowledge graph. This graph represents student actions, learning resources, and relationships, aiming to enable reasoning about effective learning pathways. We describe the implementation of the system, highlighting the challenges encountered and the solutions implemented, including introducing a dual-agent architecture where tasks are separated, all coordinated through a central knowledge graph that maintains system awareness, and a user-facing tag system intended to mitigate LLM hallucination and improve user control. Preliminary results illustrate the system's potential to capture rich interaction data, dynamically adapt lesson plans based on student feedback via a tag system in simulation, and facilitate context-aware tutoring through the integrated knowledge graph, though systematic evaluation is required.
title Toward Personalizing Quantum Computing Education: An Evolutionary LLM-Powered Approach
topic Computers and Society
Artificial Intelligence
Multiagent Systems
url https://arxiv.org/abs/2504.18603