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All Journal Teknologika RISTEC : Research in Information Systems and Technology
Minarto Minarto
STT Wastukancana
Computer Science & IT Decision Sciences, Operations Research & Management Industrial & Manufacturing Engineering Mechanical Engineering Other

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RANCANG BANGUN TEMPAT SAMPAH PINTAR (SMARTBIN) Minarto Minarto; Lise Sri Andar Muni; Candra Dewi Lestari; Teguh Iman Hermanto
Jurnal Teknologika Vol 11 No 2 (2021): Jurnal Teknologika
Publisher : Sekolah Tinggi Teknologi Wastukancana

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (418.738 KB) | DOI: 10.51132/teknologika.v11i2.137

Abstract

Semakin meningkatnya jumlah penduduk di suatu wilayah, maka semakin banyak pula sampah yang akan dihasilkan. Jika kita mendengar kotak sampah yang penuh dan didiamkan maka pasti terlintas dibenak kita masalah berupa sekumpulan dari berbagai macam benda yang telah di buang dan sejenisnya yang akan menimbulkan bau busuk dan berbagai macam penyakit seperti gatal-gatal, diare, flu, DBD, dan lain-lain Masalah sampah bukanlah hal yang baru bagi kota-kota besar. Dari permasalahan tersebut penulis melakukan penelitian untuk dapat merancang dan membangun tempat sampah pintar (Smartbin) dengan notifikasi menggunakan metode pengembangan prototype. Adapun beberapa komponen yang digunakan yaitu NodeMCU, motor servo, sensor ultrasonic, modul GPS, speaker, modul mp3 dan lain-lain. Hasil dari penelitian ini adalah perangkat tempat sampah pintar (Smartbin) dengan notifikasi yang dapat memudahkan dalam membuang sampah, dimana tempat sampah akan terbuka secara otomatis ketika sampah akan dibuang. Selain itu juga memudahkan pihak dinas lingkungan hidup dalam mendapatkan informasi ketika tempat sampah sudah terisi penuh yang akan mengirimkan notifikasi melalui telegram. Kata kunci: Tempat Sampah, Prototype, NodeMCU, Motor Servo, Ultrasonic
Design Of Sunlight, Humidity, And Temperature Measurement Systems With Data Acquisition For Iot-Based Solar Panel Placement Satrio Widianto Utomo; Minarto Minarto; Ismi Kaniawulan
RISTEC : Research in Information Systems and Technology Vol 4, No 1 (2023): Riset Sistem dan Teknologi Informasi
Publisher : Institut Pendidikan Indonesia

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.31980/ristec.v4i1.3227

Abstract

The Internet of Things (IoT) is a concept aimed at expanding the benefits of continuous internet connectivity. IoT can be utilized for monitoring the intensity of light, temperature, and air humidity in the surroundings to determine suitable locations for the placement of solar panels. Solar panels are made of semiconductor materials capable of converting solar energy into electricity. The primary issue with using solar panels is that the power output they produce depends on the intensity of light captured by the solar panel. Additionally, the temperature and air humidity around the solar panel also influence its performance. The objective of this research is to create a system for measuring the intensity of sunlight, humidity, and temperature for the placement of IoT-based solar panels using LDR and DHT 11 sensors. The development of this system involves the use of the Prototyping Method. The device's design incorporates the NodeMCU ESP32 microcontroller, and monitoring is conducted through a smartphone using the Blynk application. The LDR and DHT 11 sensors are connected to the NodeMCU ESP32's GPIO as data receivers. A WiFi network is used to transmit intensity of light, temperature, and humidity data from the NodeMCU ESP32 to the smartphone, where it is displayed through the Blynk application. This research is beneficial for identifying the most suitable locations for solar panel placement. Keywords : IOT, Solar panel, Monitoring, NodeMCU ESP32, Blynk
Co-Authors Candra Dewi Lestari Ismi Kaniawulan, Ismi Lise Sri Andar Muni Satrio Widianto Utomo Teguh Iman Hermanto