FRISCILIA PERMATA YUDIKA SINAGA
DIPLOMA - Teknik Elektronika
|Asal Perguruan Tinggi||Universitas Negeri Yogyakarta|
|Nama Prodi||Teknik Elektronika|
|Judul Karya Tulis||SAS (SMART AGRI SYSTEM) : SISTEM CERDAS PENGONTROL KELEMBABAN TANAH PADA LAHAN PERTANIAN DENGAN LOGIKA FUZZY BERBASIS IOT (INTERNET OF THINGS) MELALUI SMARTPHONE ANDROID UNTUK MEWUJUDKAN INDONESIA SEBAGAI LUMBUNG PANGAN DUNIA|
|Topik Karya Tulis||Teknologi Informasi dan Komunikasi|
|Bidang Karya Tulis||IPA|
|Ringkasan KTI||SAS (SMART AGRI SYSTEM) : SMART
SYSTEM OF SOIL HUMID CONTROL BASED ON INTERNET OF THINGS THROUGH ANDROID
SMARTPHONES TO CREATE INDONESIA AS A WORLD FOOD BARN|
Indonesia, with 56.5 million hectares of land in 2013, is one of the world’s top countries in the field of agriculture. It has a great potential in the agricultural field as one of its contributors to GDP is the agricultural sector, which was as much as 14% in 2007. However, it is shown in the study conducted by Bank of Indonesia in 2007 that 40% of the poor in Indonesia are, in fact, dominated by those who work in the sectors of agriculture, plantation, and fishery.
One of the causes of the problem is technology. The development of technology accompanied with the emergence of various sophisticated communication tools, for example a smartphone, causes a change in the life style of the Indonesian people. Unfortunately, however, they are unable to utilize the technological advancement maximally.
A smartphone is a smart telephone equipped with various sophisticated features to access the internet, play online games, check emails, edit and write a document. Indonesia is a country with the fourth largest smartphone users in the world after China, India, and America. Unfortunately, the smartphones in Indonesia are used only for less useful things, such as playing online games or accessing forbidden sites.
In the agricultural field, the plants’s growth is influenced by not only the weather, but also by the nutrient content of the soil, fertilization process, and adequate water supply. An adequate amount of water is an important factor of the plants’ growth since water affects the moisture of the soil. Without enough water the productivity of the land is not maximum.
The moisture of the soil is an important parameter for various processes of hydrology, biology, and biogeochemistry. The information of the soil moisture is needed by many parties, both the government and the private sectors in charge of weather and climate, irragation scheduling, and harvest estimation.
Based on the above discussion on the importance of controlling the soil moisture precisely, a tool which can control the soil moisture automatically needs to be designed. The tool is expected to be able to water the plants according to the required soil moisture.
Designing the Smart Agri System (SAS) starts with the installment of the sensors of soil moisture and temperature. Those sensors are programmed in such a way that they can work in accordance with the expected soil moisture. When the sensors are ON, there is a reaction in the android smartphone installed with the application of SAS in the form of notification. In the application the users can see the moisture level in the land through sensor reading and rechecking by giving a certain response. For example, when the water level is inadequate, the sensor will be ON and automatically send the notification to the android through application so the users will respond. After that the response will return to the sensor and the tool installed in the land will work automatically. SAS has been tried out by comparing the output value in the fuzzy method of the simulation using MATLAB with Microsoft Visual Studio and having only a slight difference, ±0.21 seconds with the percentage of 0.97%. The result shows that SAS is feasible because the result of the whole test shows that SAS works in accordance with the test parameter.
The method used in developing the tool is Analysis-Design-Development-Implementation-Evaluation (ADDIE). The method developed by Reiser and Mollenda appeared in 1990s. It is used due to the fact that the method reflects the practicality of engineering which makes the quality of the system maintenance as its development is structured and controlled.
This tool is expected to facilitate the farmers and people in Indonesia to control the soil moisture in the farming areas by using Android, widen the people’s knowledge of the Internet of Things (ToT) and bring Indonesia to the more advanced globalisation era to realize Indonesia as the world’s food barn by introducing sophisticated and smart tools in controlling something.
|1||Juara 1||Lomba ESSAY Nasional dengan Tema “Kontribusi Pemuda Dalam Membangun Indonesia Unggul Dan Berdaya"||2018||Nasional||Lihat|
|2||Juara 1||Lomba Menulis Esai dalam acara TERATION “Literature Competition” 2018||2018||Nasional||Lihat|
|3||Juara 1||Lomba Esai Nasional “Peran Mahasiswa dalam Menjawab Problematika Bangsa”||2018||Nasional||Lihat|
|4||Juara 2||Lomba Menulis Essai Nusantara 2018||2018||Nasional||Lihat|
|5||Juara 1||Lomba Cerpen Nasional 2018 dengan tema “Mewujudkan Generasi Muda Yang Unggul"||2018||Nasional||Lihat|
|6||Juara 2||Lomba Penulisan Cerpen Tingkat Nasional 2018||2018||Nasional||Lihat|
|7||Juara 1||Lomba Penulisan Esai Mahasiswa Se – DIY dan Jawa Tengah 2018||2018||Propinsi||Lihat|
|8||Juara Harapan II||Lomba Essai Nasional Leadership Talk, Rumah Kepemimpinan Medan 2018||2018||Nasional||Lihat|
|9||The Honorable Mention Award||Lomba PKM Nasional VI Tahun 2018||2018||Nasional||Lihat|
|10||Finalis||Lomba Karya Tulis Ilmiah Nasional KIST3||2018||Nasional||Lihat|