This paper presents the development of Smartphone app for monitoring the heart rate, which used as a tool for life-based learning. The app featured life-based experiments for undergraduates' students through do-it-by-your-self activities. This app was developed with Firebase to create a heart rate monitoring system interface as well as a framework for life-based experiments. Also, this app had video features as learning resources. We used an experimental method to evaluate the proposed system of learning. The subjects were 30 undergraduate students who were separated into two groups. Based on our survey, student learning outcomes increased by 35 percent compared to conventional experiments.

M.P. Gagnon, P. Ngangue, J. Payne-Gagnon, M. Desmartis, "m-Health adoption by healthcare professionals: a systematic review", Journal of the American Medical Informatics Association, 2015, 52, pp. 212-220.

G. Hui, "Real-time human heart rate monitoring using a wireless sensor", International Conference on E-Health Networking, Digital Ecosystems and Technologies, 2010, pp. 15-18.

R. Marinescu, A. Nedelcu, "Smartphone application for heart rate monitoring", International Conference on E-Health and Bioengineering, 2017, pp. 141-144.

C. Li, X. Hu and L. Zhang, "The IoT-based heart disease monitoring system for pervasive healthcare service", International Conference on Knowledge-Based and Intelligent Information and Engineering Systems, 2017, pp. 2328-2334.

H. Mansor, S. S. Meskam, N. Sakinah and R. Akmeliawati, "Portable heart rate measurement for remote health monitoring system", Malaysia: International Islamic University Malaysia, 2015.

J. Turner, C. Zellner, T. Khan, and K. Yeamarthi, "Continuous heart rate monitoring using smartphone", USA: Central Michigan University, 2017, pp. 324-326.

R. Rousi, J. Leikas, "Life-based design as an extension of problem-based learning - a tool for understanding people and technology", Frontiers in Education Conference, 2015.

Mikhailovic, T. Y., & Yurievena, A. A., "Application of Problem-Based Learning Technology in Technical Education", Internationa Forum on Strategic Technology (IFOST), 2016.

S. Jaschke, "Mobile learning applications for technical vocational and engineering education", International Conference on Interactive Collaborative Learning, 2014, pp. 605 – 608.

ReStart 4.0, "Industry 4.0 and Its Impact On Education", 2018. https://restart-project.eu/industry-4-0-impact-education/ (Accessed 3 September 2019).

B. Andrea, H. Martin, S. Frantisek, T.Jiri, "Analysis of Education Requirements for Electronics Manufacturing within Concept Industry 4.0", 41st International Spring Seminar on Electronics Technology (ISSE), 2018, pp.1-5.

M. Glaucio, R. Ueliton, B. Luis, N. Walter, F. Bruna, P. Alex, V. Natasha, “Education 4.0 and 21st Century Skills: A Case Study With Robotics Activities in Classroom” VII Congresso Brasileiro de Informática na Educação, 2018, Vol. 7, pp. 715-724.

S. Khedkar, S. Thube. "Real-time databases for applications", International Research Journal of Engineering and Technology, 2017, Vol. 4, pp. 2078-2082.

M. Raluca, N. Anisor, "Smartphone Application for Heart Rate Monitoring", The 6th IEEE International Conference on E-Health and Bioengineering, 2017, pp. 141-144.

A. Christopher, G. Mohammad, N. Homer, "Development of Mobile Apps for Wireless Sensor Data Acquisition and Visualization of Biopotentials", 32nd Southern Biomedical Engineering Conference (SBEC), 2016, pp.103-107.

American Heart Association, "Know Your Target Heart Rates for Exercise, Losing Weight and Health", 2015. http://www.heart.org/en/healthy-living/fitness/fitness-basics/target-heart-rates (Accessed 4 November 2018).

G. V. Kumar, A. Bharadwaja, N. N. Sai, "Temperature and heartbeat monitoring system using IoT", International Conference on Trends in Electronics and Informatics, 2017, pp. 692-695.

Jong, GJ., Aripriharta & Horng, GJ. "The PPG Physiological Signal for Heart Rate Variability Analysis" Wireless Pers Commun 97(4), 2017, pp. 5229-5276.