A Petri Net Computational Model for Web-based Students Attendance Monitoring
Keywords:
Web based student attendance, Petri nets, computational model, monitoringAbstract
Monitoring student's attendance in classes is necessaryfor proper assessment of their understanding and performance in a course module. Attendance nzonitoring in a manual teaching ånd leanüng setting is easier than in web-based. The major reason for the inherent difficulty is that the latter provides virtual teaching and learning relationship in which students are not seen, whereas thefonner involves physical orface-to-face teaching and learning. Research and evidence showed that good attendance has a direct impact on student's success in a course module. The paper presents an overview of studentteacher relationship in an educational environment. Subsequently, a Inathematical model description using Petri nets is provided to capture web- based student attendance. The entpirical exanzple and corresponding output using Microsoft Excel justified the modeling power of Petri nets. The framework presented can be embedded into custom online academic programnte to track student attendance in course modules.
Similar Articles
- Abubakar Tahiru, Oluwasanmi M. Odeniran, Shardrack Amoako, Developing Artificial Intelligence-Powered Circular Bioeconomy Models That Transform Forestry Residues into High-Value Materials and Renewable Energy Solutions , Communication In Physical Sciences: Vol. 8 No. 4 (2022): VOLUME 8 ISSUE 4
- Olatunde Ayeomoni, Enhancing Data Provenance, Integrity, Security, and Trustworthiness in Distributed and Federated Multi-Cloud Computing Environments , Communication In Physical Sciences: Vol. 11 No. 4 (2024): VOLUME 11 ISSUE 4
- Kingsley Uchendu, Emmanuel Wilfred Okereke, Exponentiated Power Ailamujia Distribution: Properties and Applications to Time Series , Communication In Physical Sciences: Vol. 12 No. 5 (2025): VOLUME 12 ISSUE 5
- Isah Haruna, Yahaya Zakari, Umar Kabir Abdullahi, Reuben Oluwabukunmi David, Jamilu Yunusa Falgore, On the Study of Kumaraswamy Reduced Kies Distribution: Properties and Applications , Communication In Physical Sciences: Vol. 12 No. 3 (2025): VOLUME 12 ISSUE 3
- Chukwuemeka. K. Onwuamaeze, Christopher. I. Ejiofor, An Improved Defragmentation Model for Distributed Customer’s Bank Transactions , Communication In Physical Sciences: Vol. 5 No. 3 (2020): VOLUME 5 ISSUE 3
- Julius Femi Ademilua, Chinyere Carlisjery Kalu, Samira Sanni, Human Factor in Supply Chain Management: How Workers Training Impacts Supply Chain Efficiency , Communication In Physical Sciences: Vol. 9 No. 4 (2023): VOLUME 9 ISSUE 4
- Kudamnya, Ebenezer Agayina, Godwin Inieke Joshua, Ochelebe, Ibu, Okon, Emmanuel Etim , Evaluation of the Hydrochemistry and Pollution Levels in Groundwater of Njahasang, Southeast Nigeria , Communication In Physical Sciences: Vol. 12 No. 3 (2025): VOLUME 12 ISSUE 3
- Godwin Ezikanyi Okey, Yusuf Jibril, G. A. Olarinoye, Comparative Analyses amongst 3 Hybrid Controllers - MPC-HGAFSA, LQR-HGAFSA and PID-HGAFSA in a Micro Grid Power System Using MAD and RMSE as Measures of Performance Metrics , Communication In Physical Sciences: Vol. 10 No. 1 (2023): VOLUME 10 ISSUE 1
- Idayat Abubakar Salau, Aminu Suleiman Mohammed, Hussaini Garba Dikko, Type I Half-Logistic Exponentiated Kumaraswamy Distribution With Applications , Communication In Physical Sciences: Vol. 12 No. 2 (2025): VOLUME 12 ISSUE 2
- Fidelis .I. Ugwuowo, Mixed Variable Logistic Regression Model for Assessing Diagnostic Markers in Prostate Cancer , Communication In Physical Sciences: Vol. 1 No. 1 (2010): VOLUME 1 ISSUE 1
You may also start an advanced similarity search for this article.