Development of Monitoring Tower Using Gyroscope Sensor Based on Esp32 Microcontroller


  • Al Imran Universitas Negeri Makassar
  • Muliaty Yantahin Universitas Negeri Makassar
  • Abd Muis Mappalotteng Universitas Negeri Makassar
  • Muh Arham Universitas Negeri Makassar



Monitoring, Tower, Gyroscope Sensor, Microcontroller


This research is a research and development research that aims to find out the results of the development of  tower slope monitoring tools using the  ESP32 Microcontroller-Based Sensor Gyroscope  and find out the test results of  the tool tower tilt  monitoring  using the ESP32  Microcontroller-Based Gyroscope Sensor. The development model used in this study is a prototyping model  with stages of  collecting needs, building prototypes, evaluating prototypes, coding s i stem,  testing sistem, evaluation sistem, use s istem. The data used are  interviews, questionnaires, observations and measurements. The data were analyzed using descriptive statistical analysis techniques.  Based on the results of this study,  a prototype of a tower slope monitoring  tool was produced that was used to  monitor the  slope of the tower remotely  through the telegram application. From the test results of  the tower tilt monitoring  tool using the  MPU6050 gyroscope sensor based on the  ESP32  microcontroller, it was found that the average time it takes to receive notifications if they occur  the slope is 3.21 seconds. The results of  the pecan test n there is a  difference in  the angle read at a height of 1 meter is 0.3 degrees, a height of 2 meters 0.2 degrees, a height of 3 meters 0.22 degrees, and a height of 4 meters 0.18 degrees.  The results of  the functional suitability test show that the  tool functions as designed.  The usability characteristic of the  tower slope monitoring tool gets an average  score of being included in the excellent  category.


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Abdelwahed, B. (2019). A review on building progressive collapse, survey and discussion. Case Studies in Construction Materials, 11, e00264.

Dako, R. D., & Ridwan, W. (2021). Pengujian karakteristik Functional Suitability dan Performance Efficiency tesadaptif. net. Jambura Journal of Electrical and Electronics Engineering, 3(2), 66-71.

Feng, H., Wang, K., Yue, Y., & Hu, P. (2021, May). Analysis of influence of coal mining on stability of tower on Loess Slope and deformation monitoring. In IOP Conference Series: Earth and Environmental Science (Vol. 772, No. 1, p. 012098). IOP Publishing.

Idris, A. R., Usman, U., & Suyono, W. (2021). Analisis Pengaruh Pemasangan Counterpoise pada Tower Transmisi Saluran Udara Tegangan Tinggi 70 kV Line Mandai-Pangkep. Seminar Nasional Teknik Elektro Dan Informatika (SNTEI), September, 104–109.

Keshari, S. R., Chandramohan, V. P., & Das, P. (2021). A 3D numerical study to evaluate optimum collector inclination angle of Manzanares solar updraft tower power plant. Solar Energy, 226, 455-467.

Kurniawan, A. D. (2020). Design and Implementation of Home Security Using Telegram Botfather. FIDELITY: Jurnal Teknik Elektro, 2(1), 11-15.

Made Dwi Mulyawan, dkk. (2021). Kualitas Sistem Informasi Berdasarkan ISO/IEC 25010: Literature Review. Majalah Ilmiah Teknologi Elektro, Vol. 20, No.1, Januari – Juni 2021, 15-27.

Malviya, S., & Jamle, S. (2019). Determination of Optimum Location of Rooftop Telecommunication Tower over Multistory Building under Seismic Loading. International Journal of Advanced Engineering Research and Science.

Muslih, M., Supardi, D., Multipi, E., Nyaman, Y. M., & Rismawan, A. (2018, September). Developing smart workspace based IOT with artificial intelligence using telegram chatbot. In 2018 International Conference on Computing, Engineering, and Design (ICCED) (pp. 230-234). IEEE.

Pressman, R. S. (2012). Rekayasa perangkat lunak Pendekatan Praktisi. Yogyakarta: Penerbit Andi.

Rymarczyk, J. (2020). Technologies, opportunities and challenges of the industrial revolution 4.0: theoretical considerations. Entrepreneurial business and economics review, 8(1), 185-198.

Seran, M. (2017). Analisa Struktur Tower BTS Berdasarkan Hasil Re-Verticality Menggunakan Staad Pro. Eureka: Jurnal penelitian teknik sipil dan teknik kimia, 1(1).

Setiawan, A. W., Muhammad, F., & Hidayat, A. (2020, September). Development of an web-based wearable gait recognition system using gyroscope and accelerometer sensors. In 2020 International Seminar on Application for Technology of Information and Communication (iSemantic) (pp. 370-373). IEEE.

Sugiyono, D. (2013). Metode penelitian pendidikan pendekatan kuantitatif, kualitatif dan R&D.

Syufrijal, S. (2018). Prototipe Sistem Pengukuran Jarak dan Kemiringan Otomatis Menggunakan Mikrokontroler Berbasis Internet of Things (IoT). Autocracy: Jurnal Otomasi, Kendali, dan Aplikasi Industri, 5(02), 68-72.

Tsavdaridis, K. D., Nicolaou, A., Mistry, A. D., & Efthymiou, E. (2020, October). Topology optimisation of lattice telecommunication tower and performance-based design considering wind and ice loads. In Structures (Vol. 27, pp. 2379-2399). Elsevier.

Zhang, X., Zhang, Y., Zhang, L., Qiu, G., & Wei, D. (2018). Power transmission tower monitoring with hydrostatic leveling system: measurement refinement and performance evaluation. Journal of Sensors, 2018.

Zhang, X., Manogaran, G., & Muthu, B. (2021). IoT enabled integrated system for green energy into smart cities. Sustainable Energy Technologies and Assessments, 46, 101208.




How to Cite

Imran, A., Yantahin, M. ., Mappalotteng, A. M. ., & Arham, M. (2022). Development of Monitoring Tower Using Gyroscope Sensor Based on Esp32 Microcontroller. Journal of Applied Engineering and Technological Science (JAETS), 4(1), 405–414.