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Main Authors: Dadu, Niharika, Singh, Harsh Vardhan, Banerjee, Romi
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2504.01253
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author Dadu, Niharika
Singh, Harsh Vardhan
Banerjee, Romi
author_facet Dadu, Niharika
Singh, Harsh Vardhan
Banerjee, Romi
contents The advent of large language models (LLMs) in the education sector has provided impetus to automate grading short answer questions. LLMs make evaluating short answers very efficient, thus addressing issues like staff shortage. However, in the task of Automated Short Answer Grading (ASAG), LLM responses are influenced by diverse perspectives in their training dataset, leading to inaccuracies in evaluating nuanced or partially correct answers. To address this challenge, we propose a novel framework, Grade Guard. 1. To enhance the task-based specialization of the LLMs, the temperature parameter has been fine-tuned using Root Mean Square Error (RMSE). 2. Unlike traditional approaches, LLMs in Grade Guard compute an Indecisiveness Score (IS) along with the grade to reflect uncertainty in predicted grades. 3. Introduced Confidence-Aware Loss (CAL) to generate an optimized Indecisiveness Score (IS). 4. To improve reliability, self-reflection based on the optimized IS has been introduced into the framework, enabling human re-evaluation to minimize incorrect grade assignments. Our experimentation shows that the best setting of Grade Guard outperforms traditional methods by 19.16% RMSE in Upstage Solar Pro, 23.64% RMSE in Upstage Solar Mini, 4.00% RMSE in Gemini 1.5 Flash, and 10.20% RMSE in GPT 4-o Mini. Future work includes improving interpretability by generating rationales for grades to enhance accuracy. Expanding benchmark datasets and annotating them with domain-specific nuances will enhance grading accuracy. Finally, analyzing feedback to enhance confidence in predicted grades, reduce biases, optimize grading criteria, and personalize learning while supporting multilingual grading systems will make the solution more accurate, adaptable, fair, and inclusive.
format Preprint
id arxiv_https___arxiv_org_abs_2504_01253
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Grade Guard: A Smart System for Short Answer Automated Grading
Dadu, Niharika
Singh, Harsh Vardhan
Banerjee, Romi
Computation and Language
I.2.7
The advent of large language models (LLMs) in the education sector has provided impetus to automate grading short answer questions. LLMs make evaluating short answers very efficient, thus addressing issues like staff shortage. However, in the task of Automated Short Answer Grading (ASAG), LLM responses are influenced by diverse perspectives in their training dataset, leading to inaccuracies in evaluating nuanced or partially correct answers. To address this challenge, we propose a novel framework, Grade Guard. 1. To enhance the task-based specialization of the LLMs, the temperature parameter has been fine-tuned using Root Mean Square Error (RMSE). 2. Unlike traditional approaches, LLMs in Grade Guard compute an Indecisiveness Score (IS) along with the grade to reflect uncertainty in predicted grades. 3. Introduced Confidence-Aware Loss (CAL) to generate an optimized Indecisiveness Score (IS). 4. To improve reliability, self-reflection based on the optimized IS has been introduced into the framework, enabling human re-evaluation to minimize incorrect grade assignments. Our experimentation shows that the best setting of Grade Guard outperforms traditional methods by 19.16% RMSE in Upstage Solar Pro, 23.64% RMSE in Upstage Solar Mini, 4.00% RMSE in Gemini 1.5 Flash, and 10.20% RMSE in GPT 4-o Mini. Future work includes improving interpretability by generating rationales for grades to enhance accuracy. Expanding benchmark datasets and annotating them with domain-specific nuances will enhance grading accuracy. Finally, analyzing feedback to enhance confidence in predicted grades, reduce biases, optimize grading criteria, and personalize learning while supporting multilingual grading systems will make the solution more accurate, adaptable, fair, and inclusive.
title Grade Guard: A Smart System for Short Answer Automated Grading
topic Computation and Language
I.2.7
url https://arxiv.org/abs/2504.01253