Safitri, Aprilia Dela (2025) Implementasi IoT untuk Pemantauan serta Kontrol Greenhouse Caisim dan Pakcoy Berbasis Arduino IoT Cloud dan ESP32. Other thesis, Institut Teknologi Sepuluh Nopember.
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Abstract
Pertanian modern menghadapi tantangan besar akibat adanya perubahan iklim, alih fungsi lahan, dan keterbatasan sumber daya. Untuk dapat mengatasi masalah tersebut, diperlukan inovasi yang dapat meningkatkan efisiensi dan produktivitas pertanian. Salah satu solusi yang dapat dikembangkan adalah Smart Greenhouse berbasis Internet of Things (IoT). Solusi ini memungkinkan pemantauan dan pengendalian kondisi lingkungan secara otomatis dan real-time. Dengan demikian, penelitian ini memiliki tujuan untuk merancang dan mengimplementasikan sistem monitoring dan kontrol greenhouse caisim dan pakcoy menggunakan Arduino IoT Cloud dan ESP32. Metode penelitian yang dilakukan mencakup studi literatur, perancangan hardware, pengembangan software, serta uji coba sistem dan analisis data. Sistem ini memantau suhu, kelembapan udara, kelembapan tanah, dan intensitas cahaya menggunakan sensor DHT11, Capacitive Soil Moisture v1.2, dan LDR. Digunakan dua sistem dalam penelitian ini, yaitu smart greenhouse dan conventional greenhouse. Pada sistem smart greenhouse data yang dikirim ke Arduino IoT Cloud digunakan untuk mengontrol kipas, humidifier, sistem penyiraman, dan pencahayaan secara otomatis. Hasil menunjukkan bahwa sistem pemantauan berbasis Arduino IoT Cloud mampu memantau variabel lingkungan di dalam greenhouse secara real-time dengan akurat dan responsif. Data ditampilkan secara otomatis melalui dashboard yang dapat diakses jarak jauh melalui website maupun aplikasi mobile. Dengan kemampuan ini, sistem dapat meningkatkan efisiensi dan fleksibilitas pemantauan.
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Modern agriculture faces significant challenges due to climate change, land-use conversion, and limited resources. To address these issues, an innovations are needed to enhance agricultural efficiency and productivity. One promising solution is the development of a smart greenhouse based on the Internet of Things (IoT). This solution enables real-time monitoring and control of environmental conditions. Therefore, this study aims to design and implement a monitoring and control system for aisim and pakcoy greenhouses Arduino IoT Cloud and ESP32. The research methodology includes literature review, hardware design, software development, system testing and data analysis. The system monitors temperature, air humidity, soil moisture, and light intensity using DHT11, Capacitive Soil Moisture v1.2, and LDR sensors. Two systems are used in this study: a smart greenhouse and a conventional greenhouse. In the smart greenhouse system, data sent to the Arduino IoT Cloud is used to automatically control fans, humidifier, irrigation systems, and lighting automatically. The results show that the Arduino IoT Cloud-based monitoring system is capable of accurately and responsively monitoring environmental variables in the greenhouse in real-time. The data is automatically displayed through a dashboard accessible remotely via website or mobile application. With this capability, the system can enhance efficiency and monitoring flexibility.
| Item Type: | Thesis (Other) |
|---|---|
| Uncontrolled Keywords: | Arduino IoT Cloud, ESP32, Greenhouse, IoT, Kontrol, Pemantauan, Arduino IoT Cloud, Control, ESP32, Greenhouse, IoT, Monitoring. |
| Subjects: | Q Science Q Science > QC Physics Q Science > QC Physics > QC100.5 Measuring instruments (General) Q Science > QC Physics > QC271.8.C3 Calibration Q Science > QC Physics > QC271 Temperature measurements |
| Divisions: | Faculty of Natural Science > Physics > 45201-(S1) Undergraduate Thesis |
| Depositing User: | Aprilia Dela Safitri |
| Date Deposited: | 05 Aug 2025 01:20 |
| Last Modified: | 05 Aug 2025 01:20 |
| URI: | http://repository.its.ac.id/id/eprint/124868 |
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