Control of Automatic Beverage Bottle Filling Process Using P and Team Viewer IoT
Abstract
The development of an on-line process control system in the Industry is a major requirement in the context of the efficiency of machines and improving the quality of production during the Covid-19 period. As well as in the learning system and practicum students are required to be able to study independently, and lecturers must be able to develop themselves in on-line learning methods. The on-line learning process is not just to transfer learning modules to students, but must be able to guide students in an unlimited time, whenever students need an explanation of the material provided. TeamViewer is an application that provides a solution that is used to remotely control another PC or laptop. By knowing the ID and password are provided by TeamViewer on the PC that want to remote. Then, it just entered the TeamViewer application installed on the PC. The use of this team viewer was tested against the control of the beverage bottle filling process. The result is that by using Android the process of controlling beverage bottle filling. It turns out that, it can be operated to fill beverage bottles for different size, namely by setting the data delay on the program 3.2 seconds for the 120 ml bottle size, 4.0 seconds for the 200 ml bottle size, and 5.0 seconds for the bottle size of 300 ml.
References
[2] Coman, C., Țîru, L.G., Meseșan-Schmitz, L., Stanciu, C. & Bularca, M.C. (2020) Online teaching and learning in higher education during the coronavirus pandemic: students’ perspective, Sustainability, 12 (24), 10367. https://doi.org/10.3390/su122410367.
[3] Mulya, R. Krismadinata, Jalinus, N. & Effendi, H. (2021). Practical work of digital system course based on virtual laboratory, International Journal of Online and Biomedical Engineering (IJOE), 17(8). https://doi.org/10.3991/ijoe.v17i08.23359.
[4] Almahasees, Z., Mohsen, K. & Amin, M.O. (2021). Faculty’s and students’ perceptions of online learning during COVID-19, Frontiers Education, 6:638470. https://doi:10.3389/feduc.2021.638470.
[5] Cavus, N. (2015). Distance learning and learning management systems, Procedia - Social and Behavioral Sciences, 191, 872-77. https://doi.org/10.1016/j.sbspro.2015.04.611.
[6] Thepwongsa, I., Sripa, P., Muthukumar, R., Jenwitheesuk, K., Virasiri, S. & Nonjui, P. (2021). The effects of a newly established online learning management system: the perspectives of Thai medical students in a public medical school, Heliyon, 7(10), e08182. https://doi.org/10.1016/j.heliyon.2021.e08182.
[7] Muthuprasad, T., Aiswarya, S., Aditya, K.S. & Jha, G.K. (2021). Students’ perception and preference for online education in India during COVID -19 pandemic, Social Sciences & Humanities Open, 3(1), 100101. https://doi.org/10.1016/j.ssaho.2020.100101.
[8] Coyne, L., Takemoto, J.K., Parmentier, B.L., Merritt, T. & Sharpton, R.A. (2018). Exploring virtual reality as a platform for distance team-based learning, Currents in Pharmacy Teaching and Learning, 10(10), 1384-90. https://doi.org/10.1016/j.cptl.2018.07.005.
[9] Doni, F.R. & Lesmono, I.D. (2018). Mengubah jarak dengan penerapan remote access menggunakan team viewer, Jurnal Kajian Ilmiah, 18(2), 129-136.
[10] Nurjaman, Y., Damiri, D.J. & Susanto, A. (2012). Pengembangan sistem remote access jaringan berbasis client server, Jurnal Algoritma, 9(1), 67-75.
[11] Rio, U. & Wijaya, Y.S. (2016). Pengembangan aplikasi remote access jaringan berbasis client server untuk pengontrolan pratikum laboratorium, Seminar Nasional APTIKOM, 1(1), 716-722.
[12] Yanti, Y., Munawir, M. & Zainal, Z. (2019). Implementasi protocol telnet clientless remote deskstop gateway, Jurnal Nasional Komputasi dan Teknologi Informasi (JNKTI), 2(2), 210-212.
[13] Muralidharan, J., Saran, S., Tamilkavi, G., Thivakar, S. & Vivin, M. (2021). An automatic fluid filling mechanism using delta PLC, Journal of Physics: Conference Series 1937, 012004. https://doi.org/10.1088/1742-6596/1937/1/012004.
[14] Mulyana, T., Ibrahim, R. & Rahim, E.A. (2019). Development and analysis of programmable logic controller program for defect detection prototype by CX programmer, Journal of Physics: Conference Series 1150 (January: 012035. https://doi.org/10.1088/1742-6596/1150/1/012035.
[15] Koggalage, R., Wijesinghe, A., Caldera, H. & Samarawickrama, R.R. (2021). Design and implementation of an automated multi-purpose filling and capping machine, From Innovation To Impact (FITI), 1, 1-5.
[16] Abubakar, A.N., Dhar, S.L., Tijjani, A.A. & Abdullahi, A.M. (2022). Automated liquid filling system with a robotic arm conveyor for small scale industries, Materials Today: Proceedings, 49, 3270-73. https://doi.org/10.1016/j.matpr.2020.12.923.
[17] Kiangala, K.S. & Wang, Z. (2019). An industry 4.0 approach to develop auto parameter configuration of a bottling process in a small to medium scale industry using PLC and SCADA, Procedia Manufacturing, 35, 725-30. https://doi.org/10.1016/j.promfg.2019.06.015.
[18] Payghan, S.T., Deshmukh, R.H., Magar, P.P. & Manure, V.M. (2016). Automation of bottle filling plant with industry 4.0, International Journal of Advanced Research in Electrical, Electronics and Instrumentation Engineering, 5(3), 1578-1583.
