Although the present attendance management system, adopted by universities, determines students’ physical presence. It does not determine whether they perform physical activities. It is important to monitor students’ extracurricular physical exercise scientifically and effectively to solve the actual effect of extracurricular physical exercise attendance and exercise. Calorie management is one solution to this problem. Additionally, an extracurricular physical exercise monitoring and management system is developed to record the energy consumption of students during their physical activities. To realize the demand for the management of calories and the monitoring and analysis of the energy consumption of students through the two development of the energy consumption instrument. This plan has certain significance for solving the actual effect of extracurricular physical training.

1. [1] S. A. Emami and M. H. Emami, “Design and Implementation of an Online Precise Monitoring and Performance Analysis System for Centrifugal Pumps,” IEEE Trans. on Industrial Electronics, Vol.65, Issue 2, pp. 1636-1644, 2017.
2. [2] M. Li and H. J. Lin, “Design and Implementation of Smart Home Control Systems Based on Wireless Sensor Networks and Power Line Communications,” IEEE Trans. on Industrial Electronics, Vol.62, No.7, pp. 4430-4442, 2015.
3. [3] W. E. Lee, S. H. Yoo, and H. Bahn, “Design and Implementation of a Journaling File System for Phase-Change Memory,” IEEE Trans. on Computers, Vol.64, No.5, pp. 1349-1360, 2015.
4. [4] Z. S. Vercruysse, “Effectively training physical education teachers to implement injury preventive strategies into their PE lessons,” British J. of Sports Medicine, Vol.51, No.4, pp. 403.2-404, 2017.
5. [5] T. E. Shubert, M. L. Smith, L. Goto, et al., “Otago Exercise Program in the United States: Comparison of 2 Implementation Models,” Physical Therapy, Vol.97, No.2, p. 187, 2017.
6. [6] S. V. Biedermann, J. Fuss, J. Steinle, et al., “The hippocampus and exercise: histological correlates of MR-detected volume changes,” Brain Structure & Function, Vol.221, No.3, pp. 1353-1363, 2016.
7. [7] T. S. Carey and J. K. Freburger, “Exercise and the Prevention of Low Back Pain: Ready for Implementation,” Jama Internal Medicine, Vol.176, No.2, p. 1, 2016.
8. [8] A. Andrade and F. H. Dominski, “Indoor air quality of environments used for physical exercise and sports practice: Systematic review,” J. of Environmental Management, Vol.206, pp. 577-586, 2018.
9. [9] P. S. Souza, E. D. Gonçalves, G. S. Pedroso, et al., “Physical Exercise Attenuates Experimental Autoimmune Encephalomyelitis by Inhibiting Peripheral Immune Response and Blood-Brain Barrier Disruption,” Molecular Neurobiology, Vol.54, No.6, pp. 1-15, 2017.
10. [10] V. B. Paravidino, C. Curioni, M. F. F. Mediano, et al., “Comment on: “Effect of Exercise Training on Non-exercise Physical Activity: A Systematic Review and Meta-Analysis of Randomized Controlled Trials,” Sports Medicine, Vol.47, No.6, pp. 1-2, 2017.
11. [11] S. Fallet and J. M. Vesin, “Robust heart rate estimation using wrist-type photoplethysmographic signals during physical exercise: an approach based on adaptive filtering,” Physiological Measurement, Vol.38, No.2, pp. 155-170, 2017.