Prototipe Perangkat untuk Pemantauan dan Pengendalian Berbasis Web Diiintegrasikan ke Smarthome System
Achmad Faris Nasyarudin(1), Ritzkal Ritzkal(2), Arief Goeritno(3*)
(1) Laboratorium Net-Centric Computing Universitas Ibn Khaldun Bogor
(2) Prodi Teknik Elektro, Universitas Ibn Khaldun Bogor
(3) Prodi Teknik Elektro, Universitas Ibn Khaldun Bogor
(*) Corresponding Author
Abstract
The design and construction of a device prototype for a water level measurement system in a tank and controlling a number of garden light analogies has been carried-out and the prototype can be integrated into smarthome system. Three topics are discussed in this paper, including the manufacture, programming, and performance measurement of device prototypes. The formation of prototype of the device is done through wiring integration between electronic devices, in order to obtain the hardware handshacking. Programming the prototype of device is done through the creation of algorithms and preparation of syntax, in order to obtain the software handshacking. The performance of the prototype of device is measured when integrated into the Smarthome system, in order to obtain the hardware and software handshacking. The performance of prototype of the device when monitoring in the form of information about the water level in the water tank with 3 (three) conditions, namely the criteria of "empty", "medium", and "full", while the control in the form of information about the operation of ON/OFF of the LED as an analogy to the lamp garden are done for 3 (three) positions, namely position #1, #2, and #3. The manufactured subsystem prototype can be integrated into the smarthome system when a validation test is performed. Prototype of the device for monitoring and control based-on web that can be integrated into the smarthome system.
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[1] Wagino and Arafat, “Monitoring dan Pengisian Air Tandon Otomatis Berbasis Arduino,” Technologia Jurnal Ilmiah, vol. 9, no. 3, pp. 192-196, Juli-September 2018 [Online]. Available: https://ojs.uniska-bjm.ac.id/index.php/JIT/article/view/1414/1185. [Accessed: 30-Jan-2020].
[2] C. Navaneethan and S. Meenatchi , “Water Level Monitoring using Blynk Application in IoT,” International Journal of Recent Technology and Engineering (IJRTE), vol. 8, no. 4, pp. 1676-1679, November 2019 [Online]. Available: https://www.ijrte.org/wp-content/uploads/papers/v8i4/C5358098319.pdf. [Accessed: 20-Jan-2020]
[3] I. Gunawan and T. Akbar, “Prototipe Penerapan Internet of Things (Iot) pada Monitoring Level Air Tandon Menggunakan NodeMCU ESP8266 dan Blynk,” Infotek: Jurnal Informatika dan Teknologi, vol. 3, no. 1, pp. 1-7, Januari 2020 [Online]. Available: http://e-journal.hamzanwadi.ac.id/index.php/infotek/article/download/1789/pdf_20. [Accessed: 17-Mar-2020]
[4] A.S. Aviv, A. Wardayanti, E. Budiningsih, A.K. Fimani, and B. Suhardi, “Water Level Control Sistem Otomatis Sederhana pada Tandon Air di Kawasan Perumahan,” Performa: Media Ilmiah Teknik Industri, vol. 15, no. 2, pp. 130-136, September 2016 [Online]. Available: https://jurnal.uns.ac.id/performa/article/view/9864/8780. [Accessed: 30-Jan-2020]
[5] W. Widiasih and H. Murnawan, “Rancang Bangun Unit Pengendali Ketinggian Air Dalam Tandon,” Jurnal Teknik Industri HEURISTIC, vol. 13, no. 2, pp.124-135, Oktober 2016 [Online]. Available: http://jurnal.untag-sby.ac.id/index.php/HEURISTIC/article/download/880/79. [Accessed: 21-Nov-2019]
[6] A. Goeritno, F. Hendrian, and Ritzkal, “Pengendalian Lampu Pijar pada Analogi Instalasi Listrik Fase-Tiga melalui Smartphone Berbasis Android Berbantuan Jaringan Wi-Fi,” Jurnal Ilmiah SETRUM, vol. 8, no. 2, pp. 274-286, Desember 2019 [Online]. Available: http://jurnal.untirta.ac.id/index.php/jis/article/download/6977/pdf_62. [Accessed: 30-Jan-2020]
[7] E. Dainow, Understanding Computers, Smartphones and the Internet, 1st ed. Toronto, CA: CreateSpace, 2018.[8] A. Goeritno, B.A. Prakoso, and B.A. Prakosa, “Kinerja Sistem Kontrol Berbasis Mikrokontroler Untuk Pemantauan Sejumlah Parameter Fisis pada Analogi Smart Green House,” Prosiding Simposium Nasional Rekayasa Aplikasi Perancangan dan Industri (RAPI XV) 2016, Fakultas Teknik, Universitas Muhammadiyah Surakarta, 7th December 2016, pp. 70-76 [Online]. Available: https://publikasiilmiah.ums.ac.id/bitstream/handle/11617/8172/B49_Arief%20Goeritno.pdf?sequence=1&isAll owed=y. [Accessed: 30-Jan-2020]
[9] M.T. Sholehati and A. Goeritno, “Sistem Minimum Berbasis Mikrokontroler ATmega2560 sebagai Sistem Pengaman pada Analogi Lemari Penyimpanan Brankas,” Jurnal Rekayasa Elektrika, vol. 14, no. 3, pp. 158-166, Desember 2018 [Online]. Available: http://www.jurnal.unsyiah.ac.id/JRE/article/download/11649/pdf. [Accessed: 30-Jan-2020]
[10] A. Goeritno, Ritzkal, and A. Johan, “Kinerja Prototipe Sistem Elektronis Berbasis Mikrokontroler Arduino Uno R3 Untuk Pemantauan Analogi Instalasi Listrik,” Jurnal Ilmiah SETRUM, vol. 5, no. 2, pp. 94-99, Desember 2016 [Online]. Available: http://jurnal.untirta.ac.id/index.php/jis/article/download/971/772. [Accessed: 20-Jan-2020]
[11] R. Saputra, P.F. Ariyani, and N. Juliasari, “Sistem Monitoring Stok Tangki Air Memanfaatkan Sensor Ultrasonik dan Mikrokontroler Arduino Mega pada Depot Air Minum,” Jurnal BIT: Budi Luhur Information Technology, vol. 15, no. 1, pp. 1-8, 2018. https://journal.budiluhur.ac.id/index.php/bit/article/download/678/559. [Accessed: 20-Jan-2020]
[12] M. Banzi and M. Shiloh, Make: Getting Started with Arduino: the Open Source Electronics Prototyping Platform, 3rd Edition. Sebastopol, CA: Maker Media, 2015.
[13] F. Masykur and F. Prasetiyowati, “Aplikasi Rumah Pintar (Smart Home) Pengendali Peralatan Elektronik Rumah Tangga Berbasis Web,” Jurnal Teknologi Informasi dan Ilmu Komputer, vol. 3, no. 1, pp. 51-58, Maret 2016 [Online]. Available: http://jtiik.ub.ac.id/index.php/jtiik/article/download/156/pdf. [Accessed: 20-Jan-2020]
[14] Y-L. Hsu, P-H. Chou, H-C. Chang, S-L. Lin, S-C. Yang, H-Y. Su, C-C. Chang, Y-S. Cheng, and Y-C. Kuo, “Design and Implementation of a Smart Home System Using Multisensor Data Fusion Technology,” Sensors, vol. 17, no. 07, pp. 1-21, 2017 [Online]. Available: https://res.mdpi.com/d_attachment/sensors/sensors-17-01631/article_deploy/sensors-17-01631.pdf. [Accessed: 20-Jan-2020]
DOI: https://doi.org/10.22146/ijeis.58316
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