Kesuburan tanaman cabai sangat penting bagi keberhasilan pembudidaya dalam memproduksi Cabai. Untuk mencapai hasil panen yang maksimal petani perlu memperhatikan beberapa faktor dari lingkungan tumbuh tanaman cabai. Pengukuran yang manual untuk mengetahui kondisi lingkungan tanaman cabai tentu akan kurang efisien dari segi waktu, oleh karena itu dibutuhkannya suatu sistem yang dapat memantau tanaman cabai secara real time. Dengan memanfaatkan internet of things untuk memonitoring ekosistem pertanian dan dapat dijadikan acuan bagi para pembudidaya tanaman cabai dalam mengambil keputusan. Sistem ini di rancang agar para pembudidaya tanaman cabai dapat mengatahui informasi parameter ukur yakni kelembapan tanah, kelembapan udara, suhu, dan pH. Pengujian dilakukan dengan menyesuaikan dan membandingkan sensor Suhu dan kelembapan udara DHT11, Sensor kelembapan tanah YL-69 dan sensor pH tanah dengan alat ukur yang sudah baku dan dijual di pasaran, sehingga nilai hasi ukur sensor mendekati dengan alat-alat yang sudah sudah baku. Seteleh mendapatkan data data hasil pengukuran kemudian data data tersebut dikirim ke Web ThingSpeak Sehingga user dapat mantau data-data tersebut melalui aplikasi yang sudah di buat menggunakan MIT App Inventor di smartphone android.
Land used for residence and agriculture is a source of life, especially in Indonesia. This is because most of the sources of livelihood, especially those living at the sub-district level, are mostly engaged in agricultural activities. Therefore, land data collection is very important, starting at the sub-district level. Unfortunately, the information system that supports this does not yet exist, especially in the Sukabumi district. Hence, this study to overview and use a web-based Geographic Information System (GIS) for land mapping, especially in Sukabumi District, Indonesia. The method used in this study was to conduct interviews with land officials at the sub-district level and several communities in the area. Information system problems from potential users are then addressed by designing a web-based information system and integrating it with GIS applications. The developed information system provides menus and sub-menus adapted to the needs of potential users. So far, the information system has been accessible and can help land officials at the sub-district level and several communities in the area. This will provide the level of detailed information that local communities need in responding to information related to their lands to minimize social conflicts.
Agriculture is the main occupation in our country for many centuries. But now because of the migration of people from rural to urban areas there are barriers to agriculture. So to solve this problem we are using smart farming techniques using IOT. Smart farming is a developing concept, because the IOT Sensor is able to provide information about the agricultural sector and then act on user input. To develop this Intelligent Agricultural System, it uses the advantages of the latest technology such as Arduino, IOT and Wireless Sensor Networks. The paper aims to make use of the emerging technology namely IOT and the use of intelligent agricultural automation. Monitoring of environmental conditions is the main factor for increasing efficient crop yields. This feature includes the development of a system that can monitor temperature, humidity and is programmed via an android application.
Technological sophistication in this era is developing so rapidly, technology is increasingly facilitating human work in all fields, including in the agricultural sector, namely in automation systems that can replace human work with machine power, where this system can regulate a job automatically. The problem that often occurs is in the watering system, special plants that have a certain humidity and temperature should be treated regularly with sufficient water content every day, one of which is strawberry plants, from the results of the author's observations that strawberry plants can still grow in 50% humidity - 90% RH and at a temperature of 12 oC - 25 oC, so it should be a concern how strawberry plants can get enough water according to their needs. Of the existing problems, the author provides a solution by creating a microcontroller-based strawberry automatic plant watering system, a system created using the fuzzy mamdani logic method, this logic is used as a system of rules in the duration of watering according to the rules that have been made, this system will display a value notification soil moisture, air temperature and watering time, little, medium, long and dead on the Liquid Crystal Display (LCD).
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