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Integrating Large Language Models as AI Tutors in Automated Programming Assessment Systems: Exploring Student Experiences and Lessons Learned


Konsep Inti
Integrating large language models like GPT-3.5-Turbo as AI tutors within automated programming assessment systems can offer timely feedback and scalability, but also faces challenges like generic responses and student concerns about learning progress inhibition.
Abstrak

This study explores the integration of a large language model, specifically OpenAI's GPT-3.5-Turbo, as an AI tutor within the Artemis automated programming assessment system (APAS). Through a combination of empirical data collection and an exploratory survey, the researchers identified two main user personas:

  1. Continuous Feedback - Iterative Ivy: Students who relied heavily on the AI tutor's feedback before submitting their final solutions to the APAS. This group used the AI tutor to guide their understanding and iteratively refine their code.

  2. Alternating Feedback - Hybrid Harry: Students who alternated between seeking AI tutor feedback and submitting their solutions to the APAS. This group adopted a more iterative, trial-and-error approach to problem-solving.

The findings highlight both advantages and challenges of the AI tutor integration. Advantages include timely feedback and scalability, but challenges include generic responses, lack of interactivity, operational dependencies, and student concerns about over-reliance and learning progress inhibition. The researchers also identified instances where the AI tutor revealed solutions or provided inaccurate feedback.

Overall, the study demonstrates the potential of large language models as AI tutors in programming education, but also underscores the need for further refinement to address the identified limitations and ensure an optimal learning experience for students.

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Statistik
The AI tutor was able to recognize and provide feedback on logical and semantic issues in student code, such as incorrect loop termination conditions. 66.6% of the AI tutor's feedback was categorized as useful, while 26.6% was not useful, including 3 instances where the solution was revealed and 4 cases of hallucinations.
Kutipan
"The AI-Tutor's responses were perceived as too generic. Students preferred more context-specific feedback pointing directly to improvement areas in the code." "Students expressed the wish for enhanced interactive capabilities with the AI-Tutor, such as the ability to ask follow-up questions after initial feedback." "Some students feared that using the AI-Tutor might lead to over-reliance which would slow down their learning progress."

Wawasan Utama Disaring Dari

by Eduard Frank... pada arxiv.org 04-04-2024

https://arxiv.org/pdf/2404.02548.pdf
AI-Tutoring in Software Engineering Education

Pertanyaan yang Lebih Dalam

How can the AI tutor's feedback be made more specific and tailored to the individual student's code and learning needs?

To enhance the specificity and tailored nature of the AI tutor's feedback, several strategies can be implemented: Contextual Prompts: Providing more detailed prompts to the AI tutor can guide it to focus on specific aspects of the code or learning objectives. By including context-specific information in the prompt, the AI can offer more relevant feedback. Code Examples: Incorporating code examples in the feedback can help students understand how to apply the suggestions in their own code. By showing concrete examples, the AI tutor can make its feedback more actionable and practical. Interactive Dialog: Allowing for interactive dialog with the AI tutor can enable students to ask follow-up questions and seek clarification on the feedback provided. This two-way communication can ensure that the feedback addresses the student's specific queries and concerns. Personalized Recommendations: Utilizing machine learning algorithms to analyze the student's coding patterns and learning preferences can help the AI tutor tailor its feedback to individual needs. By recognizing the student's strengths and weaknesses, the feedback can be more personalized and effective. Real-time Code Analysis: Implementing real-time code analysis capabilities can enable the AI tutor to provide immediate feedback on the student's code as they are writing it. This instant feedback can help students correct errors and improve their coding practices in real-time.

What are the potential drawbacks of students over-relying on the AI tutor, and how can this be mitigated to ensure they develop their own problem-solving skills?

Over-reliance on the AI tutor can lead to several drawbacks for students: Reduced Critical Thinking: If students rely too heavily on the AI tutor for solutions and guidance, they may become passive learners and lose the opportunity to develop critical thinking and problem-solving skills on their own. Limited Creativity: Depending solely on the AI tutor for feedback can stifle students' creativity and innovative thinking. They may become constrained by the suggestions provided by the AI, limiting their exploration of alternative solutions. Dependency: Students may become dependent on the AI tutor for every coding challenge, hindering their ability to work independently and tackle new problems without external assistance. To mitigate these drawbacks and ensure students develop their problem-solving skills: Encourage Independent Thinking: Encourage students to attempt solving problems on their own before seeking feedback from the AI tutor. Emphasize the importance of independent problem-solving to foster creativity and critical thinking. Use the AI Tutor as a Guide: Position the AI tutor as a guide or tool to support learning, rather than a crutch for providing all the answers. Encourage students to use the feedback as a supplement to their own problem-solving process. Provide Constructive Feedback: Offer constructive feedback on students' reliance on the AI tutor and guide them on when and how to use the tool effectively. Encourage self-assessment and reflection on their learning process. Balanced Approach: Strike a balance between utilizing the AI tutor for assistance and challenging students to think independently. Design assignments that require a mix of AI feedback and individual problem-solving to promote skill development.

How can the integration of large language models as AI tutors be expanded beyond programming education to other domains, and what unique challenges might arise in those contexts?

Expanding the integration of large language models as AI tutors beyond programming education to other domains involves several considerations and challenges: Domain-Specific Training: Large language models need to be trained on domain-specific data to provide relevant and accurate feedback in different subject areas. Customizing the training data and prompts for specific domains is essential for effective AI tutoring. Ethical and Privacy Concerns: In domains like healthcare or finance, where sensitive data is involved, ensuring data privacy and ethical use of AI tutors is crucial. Compliance with regulations and guidelines for handling confidential information is a significant challenge. Interdisciplinary Applications: Integrating AI tutors across interdisciplinary domains may require adapting the model's capabilities to understand and provide feedback on diverse topics. Ensuring the AI tutor can handle a wide range of subject matter is a key challenge. Complex Problem Solving: In domains with complex problem-solving tasks, such as engineering or scientific research, the AI tutor must be capable of offering nuanced and advanced feedback. Developing AI models that can address intricate problems is a unique challenge in these contexts. Cultural and Linguistic Variations: When expanding AI tutors to different languages and cultural contexts, ensuring the model's language proficiency and cultural sensitivity is essential. Adapting the AI tutor to diverse linguistic nuances and cultural norms presents a challenge in global applications. User Interface Design: Designing user interfaces that cater to the specific needs and preferences of users in different domains is crucial. Customizing the AI tutor's interface to align with the workflow and requirements of various fields can be a significant challenge. By addressing these challenges and tailoring the integration of large language models to the specific requirements of different domains, the application of AI tutors can be expanded effectively to enhance learning and problem-solving across diverse fields.
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