PENGONTROLAN SISTEM PENYIRAM TANAMAN MINT JARAK JAUH MENGGUNAKAN THINGSBOARD

  • Haris Yuana Universitas Islam Balitar
  • Kurnia Paranita Kartika Riyanti Universitas Islam Balitar
Keywords: Thingsboard, Tanaman Mint, Node MCU,, Sensor YL 69

Abstract

Tanaman mint memiliki banyak manfaat dalam kehidupan sehari-hari mulai dari penambah aroma dan rasa pada makanan dan minuman, obat, parfum, kosmetik hingga dijadikan obat antibakteri, antivirus dan fungi. Mint merupakan tumbuhan herbal yang berasal dari daerah subtropis yang jika ditanam didaerah tropik akan tumbuh melata dan tidak berbunga, sehingga untuk dibudidayakan didaerah tropis seperti di Indonesia menggunakan cara vegetatif yaitu stek batang. Hal ini memunculkan permasalahan yakni pertumbuhan tunas yang dirasa memakan waktu cukup lama, perawatan yang harus teratur, dan perlunya penambahan nutrisi untuk mendukung pertumbuhan batang dan tunas daun. Penelitian ini bertujuan membangun system kendali jarak jauh perawatan terpadu pada budidaya tanaman mint. Sistem terintegrasi yang dibangun meliputi pemberian nutrisi air kelapa muda dengan dosis 10 mililiter yang di alirkan pada permukaan stek batang tanaman mint. Sistem lain yang dibangun adalah penyiraman secara otomatis dilakukan pada media tanah tanaman mint berdasarkan kondisi kelembaban tanah yang dikirimkan ke pengguna melalui Thingsboard. Setelah dilakukan pengujian diperoleh hasil bahwa detektor dapat bekerja dengan baik dalam pembacaan waktu pengaktifan pompa nutrisi dan pompa penyiram. Pengujian delay pemberian nutrisi terdapat selisih waktu sebesar 5 ms, Secara keseluruhan alat yang dibuat cukup memadai untuk membantu pekerjaan petani dalam membudidayakan bibit tanaman mint, mulai dari proses penyiraman stek batang hingga proses pemberian nutrisi untuk mempercepat dan meningkatkan pertumbuhan tunas daun.

 Kata Kunci: Thingsboard, Tanaman Mint, Node MCU, Sensor YL 69

 Abstract

 Mint has many benefits in everyday life, from enhancing aroma and taste to food and beverages, medicine, perfume, cosmetics to being used as antibacterial, antiviral and fungal drugs. Mint is an herbal plant originating from subtropical areas which if planted in tropical areas will grow sloping and does not flower, so that it is cultivated in tropical areas such as in Indonesia using vegetative methods, namely stem cuttings. This raises problems, namely shoot growth which is considered to take a long time, maintenance that must be regular, and the need for additional nutrition to support the growth of stems and leaf shoots. This study aims to build a remote control system for integrated care in mint cultivation. The integrated system built includes the provision of nutrition for young coconut water at a dose of 10 milliliters which is flowed on the surface of the mint plant stem cuttings. Another system built is automatic watering carried out on mint plant soil media based on soil moisture conditions which are sent to users via Thingsboard. After testing, the results show that the detector can work well in reading the activation time of the nutrient pump and sprinkler pump. In the test of delay in providing nutrition, there is a time difference of 5 ms. Overall, the tools made are adequate to help the work of farmers in cultivating mint plant seeds, starting from the watering process of stem cuttings to the process of providing nutrients to accelerate and increase leaf shoot growth

Keywords: Thingsboard, Tanaman Mint, Node MCU, Sensor YL 69

Downloads

Download data is not yet available.

Author Biography

Kurnia Paranita Kartika Riyanti, Universitas Islam Balitar

[1]        S. Das, S. Ganguly, S. Ghosh, R. Sarker, and D. Sengupta, “A bluetooth based sophisticated home automation system using smartphone,” 2016 Int. Conf. Intell. Control. Power Instrumentation, ICICPI 2016, vol. 7, no. 1, pp. 236–240, 2017, doi: 10.1109/ICICPI.2016.7859709.

[2]        Y. Amri and M. Andri Setiawan, “Improving Smart Home Concept with the Internet of Things Concept Using RaspberryPi and NodeMCU,” doi: 10.1088/1757-899X/325/1/012021.

[3]        M. Q. Aldossari and A. Sidorova, “Consumer Acceptance of Internet of Things (IoT): Smart Home Context,” J. Comput. Inf. Syst., vol. 60, no. 6, pp. 507–517, Nov. 2020, doi: 10.1080/08874417.2018.1543000.

[4]        M. Alaa, A. A. Zaidan, B. B. Zaidan, M. Talal, and M. L. M. Kiah, “A review of smart home applications based on Internet of Things,” Journal of Network and Computer Applications, vol. 97. Academic Press, pp. 48–65, Nov. 01, 2017, doi: 10.1016/j.jnca.2017.08.017.

[5]        B. Pandya, M. Mehta, and N. Jain, “Android Based Home Automation System Using Bluetooth & Voice Command,” 2016. Accessed: Jan. 20, 2021. [Online]. Available: www.irjet.net.

[6]        “Sederet Manfaat Daun Peppermint, Lancarkan Pencernaan hingga Cegah Kanker : OkezoneLifestyle.” https://lifestyle.okezone.com/read/2017/12/20/481/1833301/sederet-manfaat-daun-peppermint-lancarkan-pencernaan-hingga-cegah-kanker (accessed Jan. 20, 2021).

[7]        D. Wilcher, Learn Electronics with Arduino. 2012.

[8]        M. Handajaningsih dan Toni Wibisono Jurusan Budidaya Pertanian Universitas Bengkulu Jln Raya Kandang Limun Bengkulu, “Pertumbuhan dan Pembungaan Krisan dengan Pemberian Abu Janjang Kelapa Sawit Sebagai Sumber Kalium Growth and Flowering of Chrysantaemum under the Application of Palm Bunch Ash as Potassium Source,” J. Akta Agrosia, vol. 12, no. 1.

[9]        M. Salman Ibnu Chaer, S. H. Abdullah, and A. Priyati, “Aplikasi mikrokontroler arduino pada sistem irigasi tetes untuk tanaman sawi (Brassica juncea) Application of Arduino Microcontroller on Drip Irrigation System for Mustard Plant (Brassica juncea),” Sep. 2016. Accessed: Jan. 20, 2021. [Online]. Available: http://www.jrpb.unram.ac.id/index.php/jrpb/article/view/28.

[10]      J. J. Purdum, Beginning C for Arduino: Learn C programming for the Arduino. 2015.

 

References

[6] N. Amir, “jurnal penelitian dan evaluasi pendidikan,” j. Penelit. Dan eval. Pendidik., vol. 16, no. 1, pp. 246–267, 2012, doi: https://doi.org/10.21831/pep.v16i1.1120.
[7] M. Fahmi, t. R. Butir, and f. Tsukamoto, “dan fuzzy tsukamoto pada computerized adaptive test,” vol. 2, pp. 38–45, 2020.
[8] W. Winarno, “hasil pengujian software computerized adaptive testing (cat) mata pelajaran pendidikan agama islam (pai) dalam membuat rekam medik pembelajaran (rmp) untuk mendiagnosis kemampuan siswa di sekolah,” inferensi, vol. 6, no. 2, p. 183, 2012, doi: 10.18326/infsl3.v6i2.183-204.
[9] R. Rukli and s. Hartati, “penerapan sistim pendukung keputusan dalam sistem pengujian computerized adaptive testing,” ijccs (indonesian j. Comput. Cybern. Syst., vol. 5, no. 3, p. 71, 2011, doi: 10.22146/ijccs.5215.
[10] D. Kusumawati and a. D. Cahyani, “penerapan metode fuzzy item response theory pada e-learning computerized adaptive test,” j. Simantec, vol. 4 issn 208, no. 2, p. 94, 2014.
Published
2020-12-30
How to Cite
Yuana, H., & Kartika Riyanti, K. P. (2020). PENGONTROLAN SISTEM PENYIRAM TANAMAN MINT JARAK JAUH MENGGUNAKAN THINGSBOARD . SEMASTER: Seminar Nasional Teknologi Informasi & Ilmu Komputer, 1(1), 149-156. https://doi.org/10.31849/semaster.v1i1.6087
Abstract viewed = 437 times
PDF downloaded = 345 times