PENERAPAN IPTEK SISTEM PENYIRAMAN DAN MONITORING PADA BUDIDAYA TANAMAN TOGA “TAMAN TOSABU KRAMAS” BERBASIS INTERNET OF THINGS (IoT) DI KELURAHAN KRAMAS TEMBALANG SEMARANG

Ilham Sayekti, Bambang Supriyo, Bangun Khrisna, Dadi Dadi, Kusno Utomo, Samuel Beta, Sri Kusumastuti, Tulus Pramuji, Vinda Setya Kartika, Dandy Ryan Okta Pratama, Nika Nurul Hikma

Abstract


Application of Science and Technology in Toga Plant Cultivation "Taman Tosabu Kramas" in Kramas Tembalang Village, Semarang is an initiative that aims to assist PKK women in Kramas Village in cultivating several types of medicinal plants (Toga) in a greenhouse semi-openhouse of 5 x 8 meters. The difficulty of watering plants, particularly during the dry season, and the presence of PPKM are the biggest roadblocks for PKK mothers, who lack a regular watering routine due to their busy schedules and opportunities. Through the use of this technology, this gadget was created with the Arduino Mega built-in IoT NODE MCU and the blynk application, allowing watering and plant monitoring to be done from a smartphone. A DHT11 temperature and humidity sensor, a soil moisture sensor, and a rain sensor are all included in this kit. Use the 24 Mini Sprinkler Nozzle Sprayers that are mounted on the top and sides of the green house to water it. The value of these metrics can be monitored on the smartphone's display using a pre-installed application. This instrument, in addition to being able to run automatically, may also be operated manually, meaning that it can be used at any time if necessary. The outcomes of this technology's implementation were positive, and it was able to solve the problems that PKK moms were having.


Keywords


Arduino Mega; IoT; DHT 11; Rain sensor; soil moisture sensor

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References


Charles A. Schuler, 2000, Electronics Principles and Applications 5th, Glencoe McGraw-Hill

Malvino,.Barmawi, 1996, Prinsip-Prinsip Elektronika Edisi Ketiga, Penerbit Erlangga Jakarta.

Robert L. Boylestad, Louis Nashelsky, 2013, Electronic Devices and Circuit Theory Eleventh Edition, Pearson USA.

Thomas L. Floyd, 2002, Electronic Devices 3rd, Merrill, An Inprint Of Macmillan Publishing Company New York

Armanto, Arianto Pratama, 2019, Rancang Bangun Penyiram Tanaman Otomatis Menggunakan Sesor Kelembaban Tanah Berbasis Arduino, Jurnal Teknologi Informasi Mura Vol. 11 No.02. Desember 2019

Nabil Azzaky, Anang Widiantoro, 2020, Alat Penyiram Tanaman Otomatis Berbasis Arduino menggunakan Internet Of Things (IOT), J-Eltrik, Vol. 2, No. 2, November 2020 E-ISSN: 2656-9396; P-ISSN: 2656-9388

Astriana Rahma Putri, Suroso, Nasron, 2019, Perancangan Alat Penyiram Tanaman Otomatis pada Miniatur Greenhouse Berbasis IoT, Seminar Nasional Inovasi dan Aplikasi Teknologi di Industri 2019 ISSN 2085-4218 Tema A - Penelitian 2 Februari 2019

Aviana Furi, Mohammad Iqbal, Nur Sultan Salahuddin, 2018, Prototipe Sistem Otomatis Berbasis Iot Untuk Penyiraman Dan Pemupukan Tanaman Dalam Pot, Fakultas Ilmu Komputer dan Teknologi Informasi, Prodi Sistem Komputer, Universitas Gunadarma, Jl.Margonda Raya No.100, Depok 16424 Indonesia.


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