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https://repositori.uma.ac.id/handle/123456789/22147| Title: | Sistem Hortikultura Cerdas untuk Bibit Sawit Menggunakan Sensor Soil Moisture dan Solar Cell Berbasis Microcontroller |
| Other Titles: | Smart Horticulture System for Palm Oil Seedlings Using Microcontroller-Based Soil Moisture Sensors and Solar Cells |
| Authors: | Almahdoni, Wahyu |
| metadata.dc.contributor.advisor: | Syah, Rahmad Muliono, Rizki |
| Keywords: | sistem penyiraman otomatis;nodemcu esp8266;telegram;automatic watering system |
| Issue Date: | 26-Apr-2023 |
| Publisher: | Universitas Medan Area |
| Series/Report no.: | NPM;178160106 |
| Abstract: | Artikel ini bertujuan untuk memberikan kemudahan pada manusia dalam melakukan perawatan berupa penyiraman pada tanaman. Pekerjaan yang di lakukan secara rutin dan teratur dapat di bantu dengan memanfaatkan teknologi sensor dan Microcontroller. Pemantauan pada tanaman dapat dilakukan dengan memanfaatkan teknologi IoT yang merupakan sebuah sistem yang memungkinkan setiap davices dapat berkomunikasi melalui jaringan internet. Masalah difokuskan pada proses perancangan prototype sistem penyiram tanaman otomatis menggunakan sensor Soil Moisture dan Solar Cell berbasis Microcontroller. Guna mendekati masalah ini dipergunakan acuan teori dari jurnal terdahulu seperti pada penelitian yang dilakuka oleh (Kafiar, E. K. Allo, 2018), pada penelitiannya yang berjudul Rancang Bangun Alat Penyiram Tanaman Otomatis Berbasis Arduino Uno R3 menggunakan sensor YL39 dan YL69. Data-data dikumpulkan dengan melakukan survey ke lahan tanaman bibit sawit milik warga desa Aek-Hitetores dan dianalisis secara kualitatif. Kajian ini menyimpulkan bahwa telah berhasil di bangun system penyiram tanaman otomatis menggunakan sensor Soil Moisture dan Solar Cell Berbasis Microcontroller yang terintegrasi dengan telegram untuk melakukan pemantauan penyiraman pada tanaman Bibit Sawit dengan hasil pengujian persentasi keseluruhan data yang di dapat yaitu sensor kelembaban dengan persentase keberhasilan 97.3% dengan kelembaban minimal 45 % hingga maksimal 90% dan persentase penerimaan data sebesar 97.3%. This article or writing aims to provide convenience to humans in carrying out maintenance in the form of watering plants. Work that is carried out routinely and regularly can be assisted by utilizing sensor technology and microcontrollers. Plant monitoring can be carried out by utilizing IoT technology, which is a system that allows each device to communicate via the internet network. The problem is focused on the process of designing a prototype automatic plant watering system using Microcontroller-based Soil Moisture sensors and Solar Cells. In order to approach this problem, theoretical references from previous journals were used as in research conducted by (Kafiar, E. K. Allo, 2018), in his research entitled Design and Build of Arduino Uno R3-Based Automatic Plant Sprinklers using YL39 and YL69 sensors. The data was collected by conducting a survey of the plantations of oil palm seeds belonging to the villagers of Aek-Hitetores and analyzed qualitatively. This study concludes that an automatic plant watering system has been successfully built using a Soil Moisture sensor and Microcontroller-Based Solar Cell that is integrated with Telegram to monitor watering on Oil Palm plants with the results of testing the percentage of all data obtained, namely the humidity sensor with a success percentage of 97.3% with a minimum humidity of 45% to a maximum of 90% and a data acceptance percentage of 97.3%. |
| Description: | 52 Halaman |
| URI: | https://repositori.uma.ac.id/handle/123456789/22147 |
| Appears in Collections: | SP - Informatic Engineering |
Files in This Item:
| File | Description | Size | Format | |
|---|---|---|---|---|
| 178160106 - Wahyu Almahdoni - Fulltext.pdf | Cover, Abstract, Chapter I, II, III, V, Bibliography | 1.13 MB | Adobe PDF | View/Open |
| 178160106 - Wahyu Almahdoni - Chapter IV.pdf Restricted Access | Chapter IV | 587.2 kB | Adobe PDF | View/Open Request a copy |
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