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Main Authors: Ye, Tinghan, Jovine, Adam S., van Osselaer, Willem, Zhu, Qihan, Shmoys, David B.
Format: Preprint
Published: 2024
Subjects:
Online Access:https://arxiv.org/abs/2409.04959
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author Ye, Tinghan
Jovine, Adam S.
van Osselaer, Willem
Zhu, Qihan
Shmoys, David B.
author_facet Ye, Tinghan
Jovine, Adam S.
van Osselaer, Willem
Zhu, Qihan
Shmoys, David B.
contents This paper presents an integer programming-based optimization framework designed to effectively address the complex final exam scheduling challenges encountered at Cornell University. With high flexibility, the framework is specifically tailored to accommodate a variety of different constraints, including the front-loading of large courses and the exclusion of specific time slots during the exam period. By generating multiple scheduling model variants and incorporating heuristic approaches, our framework enables comprehensive comparisons of different schedules. This empowers the University Registrar to make informed decisions, considering trade-offs in terms of schedule comfort measured by different levels of exam conflicts. Our results demonstrate significant advantage over the historical lecture time-based approach, providing time and effort savings for the university administration while enhancing student and faculty satisfaction.
format Preprint
id arxiv_https___arxiv_org_abs_2409_04959
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Cornell University Uses Integer Programming to Optimize Final Exam Scheduling
Ye, Tinghan
Jovine, Adam S.
van Osselaer, Willem
Zhu, Qihan
Shmoys, David B.
Optimization and Control
This paper presents an integer programming-based optimization framework designed to effectively address the complex final exam scheduling challenges encountered at Cornell University. With high flexibility, the framework is specifically tailored to accommodate a variety of different constraints, including the front-loading of large courses and the exclusion of specific time slots during the exam period. By generating multiple scheduling model variants and incorporating heuristic approaches, our framework enables comprehensive comparisons of different schedules. This empowers the University Registrar to make informed decisions, considering trade-offs in terms of schedule comfort measured by different levels of exam conflicts. Our results demonstrate significant advantage over the historical lecture time-based approach, providing time and effort savings for the university administration while enhancing student and faculty satisfaction.
title Cornell University Uses Integer Programming to Optimize Final Exam Scheduling
topic Optimization and Control
url https://arxiv.org/abs/2409.04959