PERFORMANCE ANALYSIS OF IOT-BASED SOIL TEMPERATURE AND MOISTURE MONITORING IN AUTOMATIC SPINNING CHILI IN THE GREEN HOUSE
Keywords:
Watering, temperature, Monitoring, QoS, Thinger.io, Chili PlantsAbstract
Chili plants really need to be considered both in terms of planting or watering, but they really need a place that has good soil levels and an ambient temperature that is not too hot or cold. If these plants can be watered automatically, it is likely that the quality of the plants will be good and will get good results. This study aims to design an automatic watering device that will be monitored remotely so that soil moisture is maintained. Where this final project has designed an automatic watering device and keeps the temperature inside the Green House automatically based on IoT and a monitoring system based on several prototypes controlled by Arduino mega2560 and NodeMCU ESP8266 as a data sending tool and connecting to Thinger.io which functions to display data, the pump will active to water the plants when the sensor value reading is above or more than 70% and the pump will stop when the sensor reading value is below or more than 50%, then the fan will turn on when the temperature value inside the green house is more than 28 degrees Celsius and the fan will turn off when the temperature value inside the green house is less than 28 degrees Celsius. The Soil Mousture sensor functions as a reader of the humidity value in chili plants and the DHT11 sensor as a reader of the temperature value in the Green House. Based on the TIPHON standard, QoS testing of monitoring system communications is included in the good category, for throughput testing the index value is 4, packet loss index value is 4, delay index value is 1, and jitter index value is 1.References
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[2] D. Setiadi dan M. N. A. Muhaemin, “PENERAPAN INTERNET OF THINGS (IoT) PADA SISTEM MONITORING IRIGASI (SMART IRIGASI),†vol. 3, no. 2, hlm. 8, 2018.
[3] Arafat, S.Kom, M.Kom, "SISTEM PENGAMANAN PINTU RUMAH BERBASIS Internet Of Things (IoT) Dengan ESP8266", "Technologia" Vol 7, No.4, Oktober-Desember 2016.
[4] M. Khusain, “PERANCANGAN ALAT MONITORING DAN PENYIRAMAN OTOMATIS TANAMAN CABAI HIDROPONIK SISTEM FERTIGASI BERBASIS ANDROID,†hlm. 7.
[5] M. Hayaty dan A. R. Mutmainah, “IoT-Based electricity usage monitoring and controlling system using Wemos and Blynk application,†Jurnal Teknologi dan Sistem Komputer, vol. 7, no. 4, hlm. 161–165, Okt 2019, doi: 10.14710/jtsiskom.7.4.2019.161-165.
[6] S. Sawidin, Y. R. Putung, A. P. Waroh, T. Marsela, dan Y. H. Sorongan, “Kontrol dan Monitoring Sistem Smart Home Menggunakan Web Thinger.io Berbasis IoT,†2021.
[7] M. Taufik, “ANALISIS PENDAPATAN USAHA TANI DAN PENANGANAN PASCAPANEN CABAI MERAH,†2011.
[8] C. Sepwanti, M. Rahmawati, dan E. Kesumawati, “PENGARUH VARIETAS DAN DOSIS KOMPOS YANG DIPERKAYA Trichoderma harzianum TERHADAP PERTUMBUHAN DAN HASIL TANAMAN CABAI MERAH (Capsicum annuum L.),†2016.
[9] U. Azmi dan M. Syaryadhi, “Penerapan Wireless Sensor Network Berbasis ESP8266 untuk Pemantauan dan Proses Budidaya Tanaman Cabai Merahâ€.
[10] “JURNAL_ILMIAH_MODEL_PENGUKUR_KELEMBABAN_TANAH_UNTUK_TAMAN_CABAI-with-cover-page-v2.pdf.â€
[11] N. F. Winaji, I. D. Wijaya, dan E. N. Hamdana, “Rancang Bangun Sistem Monitoring dan Controlling pada Budidaya Jamur Tiram Berbasis IoT (Internet Of Things),†2020.
[12] Universitas Hamzanwadi, I. Gunawan, T. Akbar, Universitas Hamzanwadi, M. Giyandhi Ilham, dan Universitas Hamzanwadi, “Prototipe Penerapan Internet Of Things (Iot) Pada Monitoring Level Air Tandon Menggunakan Nodemcu Esp8266 Dan Blynk,†JIT, vol. 3, no. 1, hlm. 1–7, Feb 2020, doi: 10.29408/jit.v3i1.1789.
[13] E. Adriantantri dan J. Dedy irawan, “IMPLEMENTASI IoT PADA REMOTE MONITORING DAN CONTROLLING GREEN HOUSE,†mnemonic, vol. 1, no. 1, hlm. 56–60, Des 2019, doi: 10.36040/mnemonic.v1i1.22.
[14] L. N. Hermawan dan A. Kusumaningtias, “RANCANG BANGUN SISTEM PEMANTAUAN KESUBURAN TANAMAN INDOOR BERBASIS IOT (INTERNET OF THINGS),†vol. 4, 2019.
[15] Tri Visenno dan Nifty Fath "MONITORING SISTEM KELEMBAPAN TANAH PADA TANAMAN TOMAT BERBASIS IOT (Internet Of Things)", Teknik Elektro, Universitas Budi Luhur, Jakarta, Indonesia.
[16] D. Anggreyani, “RANCANG BANGUN SISTEM MONITORING KELEMBABAN TANAH, SUHU DAN PENYIRAMAN OTOMATIS PADA TANAMAN TOMAT BERBASIS INTERNET OF THINGSâ€.
[17] K. K. Patel, S. M. Patel, dan P. Scholar, “Internet of Things-IOT: Definition, Characteristics, Architecture, Enabling Technologies, Application & Future Challenges,†2016.
[18] I. C. Febriyantoro, “PERBANDINGAN QoS MANAJEMEN BANDWIDTH METODE HIERARCHIAL TOKEN BUCKET DENGAN PER CONECTION QUEUEâ€.
[19] S. Ahdan, O. Firmanto, dan S. Ramadona, “Rancang Bangun dan Analisis QoS (Quality of Service) Menggunakan Metode HTB (Hierarchical Token Bucket) pada RT/RW Net Perumahan Prasanti 2,†JTI, vol. 12, no. 2, hlm. 49, Jul 2018, doi: 10.33365/jti.v12i2.89.
[20] R. Hanipah dan H. Dhika, “Analisa Pencegahan Aktivitas Ilegal Didalam Jaringan Dengan Wireshark,†Doubleclick, vol. 4, no. 1, hlm. 11, Agu 2020, doi: 10.25273/doubleclick.v4i1.5668.
[21] R. F. Isnanto, N. Syafitri, H. Ubaya, J. P.-I. Km, dan O. Ilir, “Smart Farming: Thinger.io Sebagai Web Monitoring Kondisi Tanah dengan Menerapkan Konsep Internet of Thingsâ€.
[22] J. Arifin, L. N. Zulita, dan H. Hermawansyah, “PERANCANGAN MUROTTAL OTOMATIS MENGGUNAKAN MIKROKONTROLLER ARDUINO MEGA 2560,†J. n.a Infotama, vol. 12, no. 1, Feb 2016, doi: 10.37676/jmi.v12i1.276.
[23] I. Oktariawan, “Jurnal FEMA, Volume 1, Nomor 2, April 2013,†vol. 1, 201
Published
2023-05-17
Issue
Section
Prodi Teknik Elektro
