Temperature and Humidity Monitoring in Dry Land of Cayene Pepper Based on Internet of Thing (IoT)

Ida Ayu Widhiantari; Joko Sumarsono; M Abul Auni Annawawi

doi:10.23960/jtep-l.v12i1.70-81

Authors

Ida Ayu Widhiantari Program Studi Teknik Pertanian, Fakultas Teknologi Pangan dan Agroindustri, Universitas Mataram
Joko Sumarsono Program Studi Teknik Pertanian, Fakultas Teknologi Pangan dan Agroindustri, Universitas Mataram
M Abul Auni Annawawi Program Studi Teknik Pertanian, Fakultas Teknologi Pangan dan Agroindustri, Universitas Mataram

DOI:

https://doi.org/10.23960/jtep-l.v12i1.70-81

Abstract

In general, plant growth will be disrupted if the environmental temperature is not suitable, even the plants will be damaged, which can cause a decrease in quality and quantity. Problems that often occur and are difficult to avoid include temperature and humidity conditions on agricultural land. Therefore it is necessary to do handling to be able to minimize the occurrence of damage that can occur in the land caused by environmental influences. This study aims to design a temperature and humidity monitoring system based on the Internet of Things (IoT). The research was carried out by designing electronic circuits from monitoring systems, hardware, software, and testing the systems that had been made. Technology supported by the use of DHT22 sensors can read temperature and humidity data in real time. Based on the research results, it was found that the DHT22 sensor used worked with the best accuracy on day 21 with an error percentage of 0% and the worst accuracy occurred on day 31 with an error percentage of 18.5%.

Keywords: Internet of thing,Humidity,DHT22 Sensor,Air temperature.

References

Ardiansyah, A.H. (2019). Sistem Monitoring Kualitas Air dan Suhupada Kolam Ikan Berbasis IoT (Internet of Things). [Undergraduate Thesis]. Universitas Islam Majapahit, Mojokerto.

Bimanta, G.A., Prisca, C., Pradana, I.M., & Amiroh, K. (2022). Sistem pengendalian suhu ruang berbasis IoT dengan menggunakan metode KNN. Journal of Advances in Information and Industrial Technology, 4(1), 9–16.

Cahyono, B. (2003). Cabai Rawit: Teknik Budi Daya dan Analisis Usaha Tani. Yogyakarta : Kanisius, 112 pp.

Efendi, M.R., & Narji, M. (2020). Penerapan simulasi alat ukur pendeteksi kelembapan tanah menggunakan perangkat mikrokontroler Arduino Uno. JSI (Jurnal Sistem Informasi) Universitas Suryadarma, 7(2), 21–34.

Fatoni, A., Nugroho, D.D., & Irawan, A. (2015). Rancang bangun alat pembelajaran microcontroller berbasis Atmega 328 di Universitas Serang Raya. PROSISKO: Jurnal Pengembangan Riset Dan Observasi Sistem Komputer, 2(1), 10-18.

Forrest, J.R.K. (2016). Complex responses of insect phenology to climate change. Current Opinion in Insect Science, 17, 49–54.

Gunawan, R., Andhika, T., & Sandi, F.H. (2019). Sistem monitoring kelembapan tanah, suhu, ph dan penyiraman otomatis pada tanaman tomat berbasis Internet of Things. Telekontran, 7(1), 66-78. DOI: 10.34010/telekontran.v7i1.1640

Hakiki, M.I., Darusalam, U., & Nathasia, N.D. (2020). Konfigurasi Arduino IDE untuk monitoring pendeteksi suhu dan kelembapan pada ruang data center menggunakan sensor DHT11. Jurnal Media Informatika Budidarma, 4(1), 150–156.

Hidayat, D., & Sari, I. (2021). Monitoring suhu dan kelembaban berbasis Internet of Things (IoT). Jurnal Teknologi Dan Ilmu Komputer Prima (JUTIKOMP), 4(1), 525–530.

Kurniawan, A., Sulitiadi, S., & Ristiono, A. (2021). Monitoring iklim mikro pada greenhouse secara real time menggunakan internet of things (IoT) berbasis thingspeak. Jurnal Teknik Pertanian Lampung, 10(4), 468–480.

Lysandra, C.L., & Purnamaningsih, S.L. (2019). Respon dan hasil beberapa genotipe cabai rawit (Capsicum frutescens L.) pada naungan di bawah tegakan pohon jati (Tectona Grandis LF). Jurnal Produksi Tanaman, 7(3), 422–428

Maharani, D.M., Sutan, S.M., & Arimurti, P. (2019). Pengontrolan suhu dan kelembaban (Rh) terhadap pertumbuhan vegetatif cabai merah (Capsicum annuum L.) pada plant factory. Jurnal Keteknikan Pertanian Tropis dan Biosistem, 6(2), 120–134.

Maulidah, S., Santoso, H., Subagyo, H., & Rifqiah, Q. (2012). Dampak perubahan iklim terhadap produksi dan pendapatan usaha tani cabai rawit. SEPA Journal, 8(2), 137–144.

Nurfalach, D.R. (2010). Budidaya Tanaman Cabai Merah (Capsicum annum L.) Di UPTD perbibitan tanaman hortikultura Desa Pakopen Kecamatan Bandungan Kabupaten Semarang. [Diplome Thesis]. Fakultas Pertanian, Universitas Sebelas Maret, Surakarta.

Ouldzira, H., Mouhsen, A., Lagraini, H., Chhiba, M., Tabyaoui, A., & Amrane, S. (2019). Remote monitoring of an object using a wireless sensor network based on NODEMCU ESP8266. Indonesian Journal of Electrical Engineering and Computer Science, 16(3), 1154–1162.

Prakash, P., Sharma-Natu, P., & Ghildiyal, M.C. (2004). Effect of different temperature on starch synthase activity in excised grains of wheat cultivars. Indian J Exp Biol., 42(2), 227-230.

Prakoso, S.Y., Harnawan, A.A., Mazdadi, M.I., & Pambudi, Y. (2022). Sistem monitor suhu dan kelembaban berbasis cloud pada lahan gambut. Jurnal Fisika Flux: Jurnal Ilmiah Fisika FMIPA Universitas Lambung Mangkurat, 19(1), 60–67.

Santoso, H. (2016). Panduan Praktis Belajar Arduino untuk Pemula: Rangkaian, Source, Code Sensor, Teori Pendukung. www.elangsakti.com

Saptadi, A.H. (2014). Perbandingan akurasi pengukuran suhu dan kelembaban antara sensor DHT11 dan DHT22. Jurnal Infotel, 6(2), 49–56.

Saputro, T.H., Fatimah, I.S., & Sulistyantara, B. (2010). Studi pengaruh area perkerasan terhadap perubahan suhu udara (studi kasus area parkir Plaza Senayan, Sarinah Thamrin, dan Stasiun Gambir). Jurnal Lanskap Indonesia, 2(2), 76-82.

Silalahi, F.D., Dian, J., & Setiawan, N.D. (2021). Implementasi internet of things (IoT) dalam monitoring suhu dan kelembaban ruang produksi obat non steril menggunakan Arduino berbasis web. JUPITER (Jurnal Penelitian Ilmu dan Teknologi Komputer), 13(2), 62–68.

Sofwan, A., Wafdulloh, Y., Akbar, M.R., & Setiyono, B. (2020). Sistem pengaturan dan pemantauan suhu dan kelembapan pada ruang budidaya jamur tiram berbasis IoT (internet of things). Transmisi: Jurnal Ilmiah Teknik Elektro, 22(1), 1–5.

Sugiarti, H., & Megawarni, A. (2012). Konsistensi koefisien determinasi sebagai ukuran kesesuaian model pada regresi robust. Jurnal Matematika Sains dan Teknologi, 13(2), 65–72.

Sulistyanto, M.P.T., Nugraha, D.A., Sari, N., Karima, N., & Asrori, W. (2015). Implementasi IoT (internet of things) dalam pembelajaran di Universitas Kanjuruhan Malang. Smartics Journal, 1(1), 20–23.

Wardani, A., & Lhaksmana, K.M. (2018). Purwarupa perangkat IoT untuk smart greenhouse berbasis mikrokontroler. EProceedings of Engineering, 5(2), 3859-3875.

Wasista, S., Saraswati, D.A., Susanto, E., & others. (2019). Aplikasi Internet of Things (IOT) dengan Arduino dan Android : Membangun Smart Home Dan Smart Robot Berbasis Arduino Dan Android. Yogyakarta: Deepublish, 124 pp.

Temperature and Humidity Monitoring in Dry Land of Cayene Pepper Based on Internet of Thing (IoT)

Authors

DOI:

Abstract

References

Downloads

Published

Issue

Section

License

Developed By

Language