Understanding student interactions in capstone courses to improve learning experiences
link https://doi.org/10.1145/3017680.3017716account_box Neyem, Hugo Andrésaccount_box Diaz Mosquera, Juan Diegoaccount_box Muñoz Gama, Jorgeaccount_box Navon Cohen, Jaime
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Project-based courses can provide valuable learning experiences for computing majors as well as for faculty and community partners. However, proper coordination between students, stakeholders and the academic team is very difficult to achieve. We present an integral study consisting of a twofold approach. First, we propose a proven capstone course framework implementation in conjunction with an educational software tool to support and ensure proper fulfillment of most academic and engineering needs. Second, we propose an approach for mining process data from the information generated by this tool as a way of understanding these courses and improving software engineering education. Moreover, we propose visualizations, metrics and algorithms using Process Mining to provide an insight into practices and procedures followed during various phases of a software development life cycle. We mine the event logs produced by the educational software tool and derive aspects such as cooperative behaviors in a team, component and student entropy, process compliance and verification. The proposed visualizations and metrics (learning analytics) provide a multi-faceted view to the academic team serving as a tool for feedback on development process and quality by students
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| Autor | Neyem, Hugo Andrés Diaz Mosquera, Juan Diego Muñoz Gama, Jorge Navon Cohen, Jaime |
| Título | Understanding student interactions in capstone courses to improve learning experiences |
| Revista | Proceedings of the Conference on Integrating Technology into Computer Science Education, ITiCSE |
| Página inicio | 423 |
| Página final | 428 |
| Fecha de publicación | 2017 |
| Resumen | Project-based courses can provide valuable learning experiences for computing majors as well as for faculty and community partners. However, proper coordination between students, stakeholders and the academic team is very difficult to achieve. We present an integral study consisting of a twofold approach. First, we propose a proven capstone course framework implementation in conjunction with an educational software tool to support and ensure proper fulfillment of most academic and engineering needs. Second, we propose an approach for mining process data from the information generated by this tool as a way of understanding these courses and improving software engineering education. Moreover, we propose visualizations, metrics and algorithms using Process Mining to provide an insight into practices and procedures followed during various phases of a software development life cycle. We mine the event logs produced by the educational software tool and derive aspects such as cooperative behaviors in a team, component and student entropy, process compliance and verification. The proposed visualizations and metrics (learning analytics) provide a multi-faceted view to the academic team serving as a tool for feedback on development process and quality by students |
| Derechos | acceso restringido |
| DOI | 10.1145/3017680.3017716 |
| Enlace | |
| Id de publicación en Converis | 1 |
| Id de publicación en Scopus | SCOPUS_ID:2-s2.0-85018251417 |
| Id de publicación en WoS | WOS:000468494200077 |
| Temática | Ingeniería |
| Tipo de documento | comunicación de congreso |