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Fitriani, Endah
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ANDROID SEBAGAI DETEKTOR SUHU PADA MESIN PENETAS TELUR AYAM DENGAN SOLAR CELL SEBAGAI BACK UP ENERGI Fitri, Normaliaty; Fitriani, Endah
Jurnal Tekno Vol 14 No 1 (2017): Jurnal TEKNO
Publisher : Direktorat Riset dan Pengabdian pada Masyarakat Universitas Bina Darma

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Abstract

Suhu yang tepat merupakan syarat untuk mendapatkan keadaan tetas telur ayam yang baik. Alat dektektor suhu berbasis android ini berfungsi untuk memberikan indikator suhu yang terdektesi di dalam mesin Penetas Telur ayam dan alat ini juga bisa sangat membantu user untuk mengukur suhu di dalam mesin Penetas Telur ayam. Alat ini menggunakan sensor LM 35 yang berfungsi mengubah besaran fisis yang berupa suhu menjadi besaran elektrik tegangan. Rangkaian komparator op-amp sebagai penguat pada sensor LM 35 dan bluetooth HC-06 untuk mengirimkan hasil suhu yang terdektesi ke handphone android. Keberadaan  solar  cell  dapat  membantu  sebagai  back  up  energi  listrik  disaat terjadinya  pemadaman  energi  listrik  sehingga  proses  penetasan  telur  dapat  tetap dilakukan.
Design of IoT-Based Tomato Plant Growth Monitoring System in The Yard Marcheriz, Isnan Nugraha; Fitriani, Endah
Sinkron : jurnal dan penelitian teknik informatika Vol. 7 No. 2 (2023): Research Article, Volume 7 Issue 2 April, 2023
Publisher : Politeknik Ganesha Medan

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.33395/sinkron.v8i2.12226

Abstract

The development of tomato plants to produce good fruit cannot be separated from environmental factors that affect their growth and development of tomato plants. These factors include soil moisture, soil pH, temperature, or the amount of light received by tomato plants. The need for water in tomato plants is also very important for their continued growth. Monitoring the development of tomato plants in home gardens based on IoT (Internet of Things) is a monitoring system that utilizes IoT technology to collect, transmit, and analyze data about tomato plants in real-time. In this system, sensors connected to the internet network will be installed on tomato plants to measure several parameters such as soil moisture, air temperature, light intensity, and soil nutrient / pH levels in plants. The collected data will be sent to an IoT platform that will be able to analyze the data. The results of the analysis will be used to make decisions regarding plant care, such as providing water or nutrients that the plants need to grow properly. With cameras to monitor the physical development of the plants, plant height, and fruit development. With this system, communities and farmers can grow tomato plants and can monitor and control plant conditions in real-time through smartphone applications. By utilizing IoT technology, monitoring the development of tomato plants becomes more efficient and accurate. Communities and farmers can take preventive measures to avoid plant disorders and diseases before it's too late, to increase the production and quality of crops.
RANCANG BANGUN ALAT PENYIRAM VITAMIN PADA TANAMAN HIAS MENGGUNAKAN ESP32 BERBASIS INTERNET OF THINGS (IoT) Jumadil, Hanif; Ariyadi, Tamsir; Paramytha, Nina; Fitriani, Endah
Jurnal Teknik Elektro Vol 14 No 1 (2024): Jurnal Teknik Elektro
Publisher : Program Studi Teknik Elektro Fakultas Teknik Universitas Palembang

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.36546/jte.v14i1.1139

Abstract

Tanaman hias memiliki peran penting dalam mempercantik lingkungan di Indonesia. untuk memperindah taman, halaman rumah, atau area sekitar. Beberapa tanaman hias yang populer di Indonesia antara lain keladi, bunga kol, anthurium, dan aglonema. Namun, perawatan tanaman hias memerlukan perhatian khusus, termasuk pemberian nutrisi yang tepat. Salah satu nutrisi penting adalah vitamin. Pemberian vitamin pada tanaman hias terlupakan atau tidak teratur karena kesibukan pemilik tanaman. Penggunaan teknologi Internet of Things (IoT) menjadi solusi yang potensial dalam memastikan pemberian vitamin pada tanaman hias dilakukan secara teratur dan tepat. Oleh karena itu, penelitian ini bertujuan untuk merancang dan membangun sebuah alat penyiram vitamin pada tanaman hias berbasis IoT, sehingga perawatan tanaman hias menjadi lebih efisien. IoT sebagai infrastruktur jaringan global menghubungkan benda-benda fisik dan virtual melalui pengambilan data dan kemampuan komunikasi dengan sensor serta koneksi sebagai pengembangan layanan. Penelitian terdahulu telah menghasilkan berbagai sistem penyiraman otomatis berbasis IoT penyiraman menggunakan propeler. Alat yang dirancang dalam penelitian ini menggunakan mikrokontroller ESP32 untuk memastikan koneksi yang lebih mudah ke aplikasi Android. Pengujian alat menunjukkan bahwa sistem telah berfungsi sesuai perencanaan, dan Sensor kelembaban tanah dan ultrasonik dapat membaca data dengan baik, dan modul relay serta water pump berjalan lancar untuk penyiraman tanaman.
Sosialisasi Penyuluhan Pengenalan Bullying dan Dampaknya Pada Kalangan Remaja di SMK Negeri 1 Pemulutan Ariyadi, Tamsir; Prawira, Wanda Yudha; Irwansyah, Irwansyah; Ilham, Firgi Anto; Bintang, Muhammad Yuan; Fatoni, Fatoni; Fitriani, Endah; IS, Nina Paramytha; Darwin, Darwin; Suyanto, Suyanto; Aliya, Sabeli
Jurnal Pengabdian Masyarakat Bangsa Vol. 2 No. 5 (2024): Juli
Publisher : Amirul Bangun Bangsa

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.59837/jpmba.v2i5.1034

Abstract

Bullying menjadi sebuah isu yang mendalam dan rumit beberapa tahun terakhir. Dari kasus yang sudah terjadi sebelumnya dapat dilihat bahwa mereka yang menjadi korban dari pelaku bully  berisiko mengalami berbagai masalah mental dan fisik seperti merasa tidak aman, apabila berada di linkungan sekolah, prestasi akademik menurun dan lain sebagainya. Tidak hanya itu,  juga bisa ditemui melalui media sosial yang disebut dengan cyber. Dari sudut pandang yang berbeda jika dilihat dari pelaku bully juga mempunyai beberapa masalah di kehidupan mereka seperti masalah emosional, masalah sosial, kurangnya pemahaman dan empati, dan memiliki masalah dalam keluarga yang mungkin tidak banyak orang ketahui sehingga melampiaskan hal tersebut ke orang lain. Oleh karena itu, dalam pengabdian masyarakat ini pentingnya memberikan pemahaman  dan dampak risikonya bagi korban dan pelaku  melalui sosialisasi penyuluhan. Kegiatan pengabdian Sosialisasi penyuluhan ini dilaksanakan selama enam hari dalam dua minggu, dimulai pada tanggal 16 Oktober 2023 s/d 25 Oktober 2023 di SMK Negeri 1 Pemulutan. Metode pelaksanaan kegiatan yaitu menggunakan metode ceramah, diskusi dan tanya jawab, dari hasil pelaksanaan dinilai efektif dilihat dari mereka yang memahami dengan baik, aktif dalam berdiskusi dan tanya jawab, serta kontra terhadap perilaku.
Prototipe Penyimpanan Gabah Padi Berbasis Internet Of Think TRI REZA, ANGGA; Fitriani, Endah
Jurnal Ampere Vol. 9 No. 2 (2024): JURNAL AMPERE
Publisher : Universitas PGRI Palembang

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.31851/ampere.v9i2.13142

Abstract

Proses penyimpanan gabah padi merupakan kegiatan penting dalam tahap pascapanen. Penyimpanan gabah padi sangat penting dilakukan oleh para petani untuk menjaga ketersediaan pangan untuk mengatasi masa-masa sulit seperti terjadinya kekeringan,banjir dll, yang menyebabkan para petani gagal panen. Tujuan dari penelitian ini adalah mengembangkan sebuah teknologi yang sudah di buat sebelumnya yaitu menggunakan sebuah mikrokontroller Arduino sebagai pengontrol. Modul esp 8266 merupakan sebuah mikrokontroller penghubung pada aplikasi telegram.yang kemudian menggunakan sensor DHT 22 untuk mendeteksi suhu serta kelembaban pada ruang penyimpanan gabah. Serta menggunakan sensor BMP 280 ( tekanan barometrik) untuk memonitor tekanan udara pada ruang penyimpanan. Cara kerja alat ini adalah ketika sebuah alat di nyalakan harus menunggu beberapa detik agar sistem dapat terkoneksi dengan wifi dan sebuah aplikasi telegram mengirim notifikasi connect. Ketika sensor DHT 22 mendeteksi suhu pada ruangan mencapai <32℃ maka 3 buah fan heater akan menyala dan pilot lamp (kuning) menyala.ketika suhu ruangan mencapai >32 ℃ 5 buah fan dc akan menyala dan pilot lamp (merah) menyalaTetapi semua data sensor serta output bisa diatur secara manual menggunakan aplikasi telegram yang mempermudah para petani melakukan monitoring dari jarak jauh.  
Rancang Bangun Sistem Kendali Otomasi Ketinggian Meja Dan Lampu Belajar Sesuai Ergonomi Dan Kesehatan Pengguna Junianto; Paramytha , Nina; Fitriani, Endah; Ariyadi, Tamsir
Jurnal JEETech Vol. 5 No. 2 (2024): Nomor 2 November
Publisher : Universitas Darul Ulum

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.32492/jeetech.v5i2.5207

Abstract

Ergonomic challenges are associated with study tables often ignore the user's optimal dimensions and posture. A comfortable study environment is needed to improve productivity and health. It is necessary to design and implement an automatic control system for the table height and study light intensity, utilizing ultrasonic sensors and Light Dependent Resistors (LDR) to adapt to the user's needs. Previous studies often neglect the integration of adjustable furniture with smart lighting systems, causing discomfort and inefficiency in the study environment. A new method is needed by combining a linear DC motor actuator with an L298N motor driver to facilitate table height adjustment between 70 cm and 80 cm, while using a relay module to control the brightness of the lights based on ambient light conditions. The results show that the developed system significantly improves user comfort and health, demonstrating its effectiveness in various settings, including home and workplace. The results show that ergonomic design when paired with automation, can improve user concentration and productivity. This study contributes to the field of ergonomic design by providing a practical solution that addresses table height and lighting, ultimately promoting a healthier and more efficient study environment.
PENERAPAN SENSOR GETAR DAN SENSOR SUHU UNTUK PEMANTAUAN MOTOR DC BERBASIS IOT Fayyadhah, Filzan; Fitriani, Endah; Paramitha, Nina; Purwanto, Timur Dali
Rang Teknik Journal Vol 8, No 1 (2025): Vol. 8 No. 1 Januari 2025
Publisher : Fakultas Teknik Universitas Muhammadiyah Sumatera Barat

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.31869/rtj.v8i1.6335

Abstract

DC motors (Direct Current) have become a key component in various industrial applications and electronic devices. With technological advancements, monitoring and maintenance of DC motors have become increasingly important to ensure efficient operation and prevent unexpected failures. One way to enhance DC motor monitoring is by integrating RPM and temperature sensors, which can provide crucial information regarding the motor's operational conditions. This research aims to develop a tool for detecting the condition of DC motors by comparing temperature and motor speed variables. The components used in assembling this device include an IR Obstacle Sensor, Thermocouple Sensor, ESP32 Microcontroller, I2C LCD, and Servo. The working principle of this research tool involves connecting it to a 220V power source, then switching the ON/OFF switch. Once the device receives power, the sensors and other components will be ready, indicating that they are prepared to read the pre-programmed instructions. For testing the device, first, the DC motor is activated by setting the PWM value between 0-255. Then, the thermocouple sensor and RPM sensor will read the motor's condition when the DC motor is on, which will be displayed on the LCD. If the DC motor temperature exceeds 50°C, the LED will turn ON, indicating that the motor's temperature is above 50°C and providing information on the motor's speed.Keywords: ESP32, K-Type Thermocouple, RPM, DC Motor, IoT
Design and Construction of Water Turturity Monitoring Equipment and Automatic Water Pump Tri Krisna, Rivaldo; Fitriani, Endah; Paramitha, Nina; Ariyandi, Tamsir
Fidelity : Jurnal Teknik Elektro Vol 7 No 1 (2025): Edition for January 2025
Publisher : Universitas Nusa Putra

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.52005/fidelity.v7i1.278

Abstract

The ever-increasing need for clean water requires innovation in water quality management and monitoring. This research aims to design and develop a water turbidity monitoring tool and an automatic water pump based on the Internet of Things (IoT) using the ESP32 microcontroller. The main objectives of this research include implementing ESP32 as the main controller, developing a system that can detect and monitor water turbidity levels in real-time using a turbidity sensor. The research results show that the designed tool is able to work well, with a measurement error rate of less than 5%, which shows high accuracy. The turbidity sensor and ultrasonic sensor work optimally, able to determine whether the water is clear or cloudy, and control the water pump automatically. The water pump will stop if the water level exceeds 32 cm or the water turbidity value exceeds 20 NTU. This system successfully meets the initial research objectives, offering an efficient and reliable solution for water quality management.
RANCANG BANGUN PROTOTYPE SISTEM PROTEKSI MOTOR DC BERBASIS MIKROKONTROLER DENGAN NOTIFIKASI TELEGRAM Al Baihaqqi, Difa; Paramytha, Nina; Fitriani, Endah; Ariyadi, Tamsir
JURNAL ILMIAH INFORMATIKA Vol 13 No 01 (2025): Jurnal Ilmiah Informatika (JIF)
Publisher : LPPM Universitas Putera Batam

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.33884/jif.v13i01.9940

Abstract

CTP / CTCP machine which is a machine used in the printing industry that functions to make printing plates. CTP (Computer to Plate) CTCP (Computer to Conventional Plate). Continuous usage of this machine may cause the vacuum blower motor to overheat and shut off, which could impede the creation of printing plates and ultimately halt output. The performance of the machine can be enhanced by using protective system technology on the vacuum blower motor. By using microcontroller Node MCU ESP 8266 as control system, using a DS18B20 as temperature sensor, two fan as cooler, PZEM 017t as voltage and current monitoring motor, LCD 16x2 as display showing the values of current, voltage, DC motor temperature, DC motor speed control, and telegram to monitoring system realtime. The research’s output is a prototype that uses a DC motor as vacuum blower motor for monitoring and cooler if the DC motor temperature reaches a certain point, it will automatically notify the user via a chatbot (Telegram). So that when used with the plate printing machine, it can subsequently aid in improving output results.
Reminders and Management of Medication for Diabetes Patients Based on the Internet of Things Binanto, Dicken Lambayu; Sulaiman; Paramitha, Nina; Fitriani, Endah
Fidelity : Jurnal Teknik Elektro Vol 7 No 1 (2025): Edition for January 2025
Publisher : Universitas Nusa Putra

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.52005/fidelity.v7i1.287

Abstract

Innovative technology solutions are developed to help patients manage their medication more effectively. Diabetes is a chronic disease that requires regular monitoring of blood sugar levels and proper regulation of medication consumption. This system is designed to assist diabetics in remembering when to take their medication and to ensure the correct dosage in accordance with the doctor’s recommendations. It utilizes an IoT device connected to a mobile application or web-based platform, allowing users to receive notifications at predetermined times. Additionally, the system includes patient condition monitoring features, such as blood sugar level tracking synchronized with measurement devices. The collected data is transmitted in real-time to the application, enabling both patients and medical personnel to monitor treatment progress and make necessary adjustments. Through the integration of IoT, this system not only enhances patient adherence to medication schedules but also provides better analysis of medication effectiveness and potential risks, thereby minimizing negligence in medication consumption. The implementation of this technology has the potential to significantly improve the quality of life for individuals with diabetes.
Co-Authors Aan Restu Mukti, Aan Restu Al Baihaqqi, Difa Anjani, Raisha Ariyandi, Tamsir Bagus Setiawan Binanto, Dicken Lambayu Bintang, Muhammad Yuan Darwin Darwin dedi irawan Efansyah, Teguh Fatoni, Fatoni Fayyadhah, Filzan Fitri, Normaliaty Herdika, Dika Ilham, Firgi Anto Irwansyah Irwansyah IS, Nina Paramytha Jumadil, Hanif Junianto Makmuri, M. Kumroni Mandala, Mas Ade Marcheriz, Isnan Nugraha Mentari, Ega Julia NANDO, ARDI MARTIA Paramitha, Nina Paramytha , Nina Paramytha, Nina Prawira, Wanda Yudha Purwanto, Timur Dali Sabeli Aliya Sulaiman Suyanto Suyanto Tamsir Ariyadi Tri Krisna, Rivaldo TRI REZA, ANGGA wardani, kiky rizky nova