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PROTOTYPE ALAT PEMBERSIH UDARA DARI DEBU DAN ASAP ROKOK DI RUANGAN BERBASIS LOGIKA FUZZY DENGAN SISTEM NOTIFIKASI ALARM Mentari, Ega Julia; Fitriani, Endah
Rang Teknik Journal Vol 8, No 2 (2025): Vol. 8 No. 2 Juni 2025
Publisher : Fakultas Teknik Universitas Muhammadiyah Sumatera Barat

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.31869/rtj.v8i2.6695

Abstract

The problem of air pollution is one of the negative health impacts that occur in society. The high level of population allows active smokers to increase. This is also exacerbated by the growing development of buildings which causes a reduction in green space that functions as a filter for dirty air. To keep the air clean, several efforts are made such as planting trees outdoors and using air filters for indoors. This research is made to create a design tool that will be a detector for the presence of cigarette smoke and will suction the air if smoke and dust are detected. With the use of the NodeMCU ESP8266 microcontroller as a G2y1010 dust sensor data reader, MQ-135 gas sensor and DHT 22 temperature sensor which will process inputs and produce outputs based on fuzzy logic control rules. Equipped with a room fragrance after the filtering process is complete as a complement to the comfort process in the room.In addition, an alarm notification system will also be raised as a warning if cigarette smoke is detected.Keywords: automatic system, water truck, ultrasonic sensor, infrared sensor, air filling efficiency
SISTEM PEMANTAUAN KONSUMSI AIR BERSIH BERBASIS IoT MENGGUNAKAN SENSOR ALIRAN DAN KUALITAS AIR DENGAN ARDUINO DAN BLYNK Anjani, Raisha; Fitriani, Endah
Rang Teknik Journal Vol 8, No 2 (2025): Vol. 8 No. 2 Juni 2025
Publisher : Fakultas Teknik Universitas Muhammadiyah Sumatera Barat

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.31869/rtj.v8i2.6696

Abstract

Clean water is an important aspect of the human body, around 60-70% of the total composition of other elements. The availability of drinking water of adequate quality is a primary human need to maintain health and well-being, however, there is a lot of drinking water that is not suitable for consumption according to its suitability. The supply of clean water is also starting to run low while the use of clean water is increasing. The aim of designing this monitoring system is to produce a tool that can monitor water quality. This system was created using other devices including Arduino Mega 2560, Esp32 microcontroller, turbidity sensor, TDS meter sensor, flow meter sensor, and float switch sensor and using the Internet. Things with Blynk as the notification output and LCD as the display. This system is expected to help users find out the quality of the water they use.Keywords: Clean water, ESP32, Turbidity, TDS Meter, Flow Meter
Edukasi Internet of Things (IoT) sebagai upaya pengenalan teknologi digital pada siswa SMK Wardani, Kiky Rizky Nova; Fitriani, Endah; Mukti, Aan Restu; Makmuri, M. Kumroni; Ariyadi, Tamsir
Jurnal Pengabdian Masyarakat Bangsa Vol. 3 No. 3 (2025): Mei
Publisher : Amirul Bangun Bangsa

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.59837/jpmba.v3i3.2366

Abstract

Pesatnya perkembangan teknologi di era Revolusi Industri 4.0 telah mendorong dominasi teknologi digital di berbagai sektor, termasuk pendidikan dan dunia kerja. Salah satu teknologi yang memiliki peran strategis dalam era ini adalah Internet of Things (IoT), yang memungkinkan perangkat fisik saling terhubung dan bertukar data melalui jaringan internet. Namun, pemahaman siswa SMK Negeri 1 Indralaya Selatan mengenai konsep dan penerapan IoT masih tergolong rendah. Berdasarkan survei awal dan wawancara dengan guru setempat, ditemukan bahwa sebagian besar siswa belum memahami penerapan IoT dalam konteks dunia nyata maupun industri, serta belum mendapat pembelajaran yang memadai dalam kurikulum. Kegiatan pengabdian masyarakat ini bertujuan untuk memberikan edukasi dan pengenalan dasar tentang IoT kepada siswa, agar mereka memahami konsep dan manfaat IoT serta memperoleh keterampilan praktis dalam merancang proyek sederhana berbasis IoT. Dengan demikian, kegiatan ini diharapkan dapat meningkatkan literasi teknologi dan kesiapan siswa dalam menghadapi tantangan dunia kerja yang semakin digital.
RANCANG ROBOT PEMOTONG RUMPUT OTOMATIS BERBASIS ARDUINO UNO DENGAN SISTEM KENDALI APLIKASI BLYNK Irawan, Dedi; fitriani, endah
Jurnal Ampere Vol. 6 No. 2 (2021): Jurnal Ampere
Publisher : Universitas PGRI Palembang

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.31851/ampere.v6i2.7140

Abstract

Mowing the grass using manual tools requires more costs and a lot of energy, and also risks fatal accidents for the operator. To overcome this problem, an automatic lawn mower robot that can be controlled via a smart phone is needed, so that its use is more efficient and can reduce costs, lower costs and reduce the risk of work accidents. In the design of the lawn mower robot using the Arduino Uno Microcontroller, NodeMcu as a liaison between the cellphone and Arduino, the Brushless Motor is used for the blades of the lawn mower, the Infrared Sensor is used to detect the density of the grass and to control the speed level of the brushless motor, then the Servo to adjust the height or short. when mowing the grass, Battery as Power Source, and Blynk App as control and control via smartphone. The results of this research robot lawn mower can be implemented to clean the yard and surrounding areas. 
Prototype of Electric Power Monitoring System and Load Control in Residential Houses Using IoT-Based ESP8266 Herdika, Dika; Fitriani, Endah
Jurnal Ampere Vol. 7 No. 2 (2022): JURNAL AMPERE
Publisher : Universitas PGRI Palembang

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.31851/ampere.v7i2.9214

Abstract

The use of the Internet of Think (IoT) for a system that can monitor the use of load and electrical power in a residential house will be very necessary. This is because homeowners who often go out and leave their homes with loads that are still active, for example, house lights that are always turned on will be a waste of electrical energy. The purpose of making this article is to create a system that can control electricity use automatically using the Internet Of Think (IoT) and monitor the electricity data in real time, calculate the amount of current, voltage, and power in an entire load. Calculating the comparison of sensor and manual values by looking at the percentage of errors on the sensor, and analyzing whether the sensor is suitable for use or not. The systems used are: Pzem 004t as an overall reader of electrical power, LDR sensor as light input to turn on the lights automatically when it is dark, and nodemcu esp8266 as input/output process and sends data to the internet via a wifi network which will be monitored through the application. Blynk Iot 2.0 ABSTRAKPenggunaan Internet of Think (IoT) untuk sistem yang dapat memonitoring penggunaan beban dan daya listrik   pada sebuah rumah tinggal akan sangat diperlukan. Hal tersebut karena pemilik rumah yang sering berpergian keluar dan meninggalkan rumahnya dengan beban yang masih aktif contohnya lampu rumah yang selalu dihidupkan akan menjadi pemborosan energi listrik tersebut. Tujuan dari pembuatan artikel ini adalah yaitu membuat sistem yang dapat mengontrol penggunaan listrik secara otomatis menggunakan Internet Of Think (IoT) serta memonitoring data listrik tersebut secara realtime, menghitung jumlah arus, tegangan, dan daya pada suatu keseluruhan beban yang ada. Menghitung perbandingan nilai sensor dan manual dengan cara melihat persentase kesalahan pada sensor tersebut, dan menganalisa pada sensor tersebut layak digunakan atau tidak. Adapun sistem yang digunakan yaitu: Pzem 004t sebagai pembaca keseluruhan daya listrik, sensor LDR sebagai input cahaya untuk menghidupkan lampu secara otomatis ketika hari sudah gelap, dan nodemcu esp8266 sebagai proses input/ouput dan pengirim data ke internet melalui jaringan wifi yang akan dimonitoring lewat aplikasi Blynk Iot 2.0.
Smart Home Menggunakan PLC Outseal Berbasis Internet Of Things NANDO, ARDI MARTIA; FITRIANI, ENDAH
Jurnal Ampere Vol. 8 No. 1 (2023): JURNAL AMPERE
Publisher : Universitas PGRI Palembang

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.31851/ampere.v8i1.9314

Abstract

Smart Home is actually a technology-based home. Smart Home technology is increasingly being developed after the discovery of Internet Of Things (IoT) Technology, where home appliances such as lights, fans, televisions, and fences can be controlled remotely. The purpose of this research is to develop a smart home technology that has been made before, by using the Outseal PLC as a controller, the ESP 8266 module as a liaison to the Blynk application, then using a photocell sensor, and a PIR sensor. The way this tool works is when the photocell sensor detects a room that lacks light, the lights will turn on automatically, and turn off automatically when the room gets enough light, and the function of the PIR sensor is to turn on the fan automatically when it detects movement of people entering the room. However the lights and fans can be controlled manually and controlled remotely using the Blynk App. From the results of the tests that have been carried out, the blynk application designed to control the opening and closing of the gate can work well. The PIR sensor works up to a distance of 20 meters, while the lack of light in the room can be detected by the photocell sensor
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.  
Design of an IoT-Based Dam Sluice Control and Water Level Monitoring System Efansyah, Teguh; Paramitha, Nina; Fitriani, Endah; Ariyadi, 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.v7i1.292

Abstract

The management of water resources in dams relies heavily on reliable control and monitoring systems to prevent disasters such as floods and droughts. This research aims to design and build an automatic control system for dam sluice gates and real-time water level monitoring based on the Internet of Things (IoT). This system uses ultrasonic sensors to measure water levels, microcontrollers as control centers, and servo motors to automatically adjust the sluice gate opening and closing based on a predetermined height threshold. Water level data is sent and displayed in real-time through an IoT platform so that it can be accessed by users via smartphones or computers\cite{alfariski2022automatic}. The test results show that the system is able to monitor the water level with good accuracy and control the floodgates responsively according to actual conditions in the field. Thus, this system is expected to improve the efficiency of dam management and provide early information for disaster mitigation
Ideal Baby Height And Weight Monitoring Design Setiawan, Bagus; Ariyadi, Tamsir; Fitriani, Endah; Paramitha, Nina
PROtek : Jurnal Ilmiah Teknik Elektro Vol 12, No 3 (2025): Protek : Jurnal Ilmiah Teknik Elektro
Publisher : Program Studi Teknik Elektro Universitas Khairun

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.33387/protk.v12i3.9705

Abstract

Growth and development of infants are crucial aspects that need to be regularly monitored, with height and weight serving as key indicators of nutritional status. This study aims to design and develop a technology-based system to automatically monitor the height and weight of infants using ultrasonic sensors and load cells. The system is designed to provide accurate, practical, and continuous real-time measurements, integrating technologies such as ESP32, LCD, and Blynk application. Test results demonstrate that the system achieves high accuracy with an error percentage below 1%, along with optimal performance of the ultrasonic sensor (distance up to 80 cm) and load cell (weight up to 10 kg). Among the 6 samples tested, 2 infants were categorized as undernourished, 4 as normal. This system is expected to simplify the monitoring of infant nutritional status, support early detection of health issues, and contribute to improved growth quality
RANCANGAN ANTENA RECEIVER AUTOMATIC DEPENDENT SURVEILLANCE BROADCAST (ADSB) FREKUENSI 1090 MHZ MENGGUNAKAN ARDUINO UNO BERBASIS RTL-SDR R820T DAN LOW NOISE AMPLIFIER Fitriani, Endah; Mandala, Mas Ade
Jurnal Tekno Vol. 20 No. 2 (2023): jurnal Tekno
Publisher : Direktorat Riset dan Pengabdian pada Masyarakat Universitas Bina Darma

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.33557/jtekno.v20i2.2127

Abstract

With ADS-B technology, it is the aircraft that continuously broadcasts data to the receiver system at the airport. Previously, all airports used radar, which worked the opposite way to the ADS-B technology, namely the radar at the airport which detects airplanes. One of the problems in the development of ADS-B technology is how to monitor and monitor aircraft with equipment technology that can be purchased in Indonesia at low prices, considering that ADS-B equipment in Indonesia is generally purchased abroad at very expensive prices. Therefore, the author will design an ADS-B Receiver Antenna which is designed with an aircraft transponder broadcast frequency of 1090 Mhz and adds a Low Noise Amplifier to reduce noise and maximize the 1090 Mhz frequency reception range. The ADS-B antenna design can receive a reply frequency of 1090 Mhz from the aircraft's transponder and change the received data to then provide information about the aircraft's target using the Virtual Radar application Display on a PC. In addition, this design can also display 1090 MHz Frequency and Antenna Temperature on a 16x2 LCD (light crystal display) using Arduino Uno and IC LM35.