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JASEE Journal of Application and Science on Electrical Engineering
Published by UNIVERSITAS WIDYAGAMA MALANG
ISSN : 27213625     EISSN : 2721320X     DOI : https://doi.org/10.31328/jasee.v1i02
Core Subject : Engineering,
Control & Systems Engineering Electrical & Electronics Engineering
Teknik Elektro Fakultas Teknik Universitas Widyagama Malang mempublikasikan JASEE Journal of Application and Science on Electrical Engineering sebagai jurnal open access yang memuat tulisan ilmiah hasil review, penelitian, aplikasi dan pengembangan di bidang Teknik Elektro. Focus and Scope : Sistem pembangkit, transmisi, distribusi dan proteksi tenaga listrik, Transformator, elektronika dan kualitas daya listrik, motor-motor listrik, Sistem kendali, pengukuran dan instrumentasi elektronik, mikrokontroler, sistem tertanam berbasis arduino dan FPGA, instrumentasi medik, Pengolahan sinyal multimedia, jaringan telekomunikasi dan sensor, jaringan komputer, elektronika komunikasi, disain antena komunikasi, radio kognitif, Robotika dan aplikasi kecerdasan buatan.
Arjuna Subject : Teknik (semua kategori) - Teknik Listrik dan Elektro
Articles 63 Documents
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Mesin Penetas Telur Burung Murai Batu Dengan Monitoring Camera ESP32 Berbasis IoT Ragil Ragil Fanny Setiya Aji; Indah Sulistiyowati
JASEE Journal of Application and Science on Electrical Engineering Vol. 2 No. 02 (2021): JASEE -September
Publisher : Teknik Elektro - Fakultas Teknik - Universitas Widyagama Malang

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.31328/jasee.v2i02.173

Abstract

Burung murai batu terancam keberadaannya di alam akibat perburuan liar. Perlu upaya konservasi melalui penangkaran ex-situ. Namun penangkaran secara ex-situ menemui kendala dibandingkan dengan pengeraman secara alami karena perbedaan suhu dan kelembapan di penangkaran dengan habitat aslinya yang berakibat pada kegagalan dalam penetasan. Untuk itu diperlukan mesin penetas telur untuk membantu proses penetasan. Mesin penetas telur yang sudah ada masih dimonitoring secara manual sehingga menyita banyak wahtu dan tidak efisien. Penelitian ini bertujuan membuat mesin penetas telur burung murai batu yang termonitoring suhu, kelembapan dan visual menggunakan metode internet of things dengan platform MIT APP Inventor. Sensor DHT22 digunakan untuk pengambilan nilai suhu dan kelembapan, Camera ESP32 sebagai monitoring secara visua. Hasil pengujian mesin penetas telur burung murai batu dapat termonitoring pada smartphone secara realtime dengan delay 1,7 hingga 2,5 detik.
Monitoring Sepeda Motor Dengan Pelacak Dan Kontrol RFID Berbasis IoT Ahmad Yovi Nurulfahmi; Indah Sulistiyowati
JASEE Journal of Application and Science on Electrical Engineering Vol. 2 No. 02 (2021): JASEE -September
Publisher : Teknik Elektro - Fakultas Teknik - Universitas Widyagama Malang

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.31328/jasee.v2i02.174

Abstract

Kasus pencurian kendaraan bermotor khususnya sepeda motor sangat sering terjadi di sekitar kita. Kejadian pencurian dapat terjadi di rumah, tempat parkir, atau bahkan perampasan sepeda motor di tempat-tempat yang sepi. Pencurian sepeda motor dilakukan dengan memutar kunci kontak secara paksa dengan kunci letter “T”. Untuk mengantisipasi kejadian tersebut, sepeda motor perlu dilengkapi alat pengaman dan pelacak untuk mencegah terjadinya pencurian. Pada penelitian ini, telah dibuat alat pengaman kendaraan dengan menggunakan NodeMCU ESP8266. Untuk melacak posisi kendaraan digunakan modul GPS dan Camera Web server ESP32 sehingga alat ini dapat dioperasikan dari jarak jauh melalui internet. Alat ini dioperasikan dengan menggunakan smartphone yang akan menampilkan posisi kendaraan tersebut dan tampilan layar monitor untuk menampilkan pembacaan dari kamera tersebut. Dari hasil pengujian di dapatkan data bahwa alat dapat bekerja dengan maksimal. Hasil pembacaan kamera cukup membantu untuk mengetahui wajah dari pelaku. Penggunaan GPS berfungsi dengan optimal untuk menemukan titik koordinat dari sepeda motor.
The Sistem Monitoring Kualitas Air Pada Pembudidayaan Ikan Air Tawar Menggunakan ESP 32 dan ESP 8266 Rasyid, Muh Rafli; Nurhidayah; Fahmi Rustan, Muh
JASEE Journal of Application and Science on Electrical Engineering Vol. 4 No. 01 (2023): JASEE-March
Publisher : Program Studi Teknik Elektro - Fakultas Teknik - Universitas Widyagama Malang

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.31328/jasee.v4i01.264

Abstract

Indonesia is one of the countries that has natural resources in the form of abundant water; these geographical conditions can be utilized to support the growth and development of fish farming businesses in Indonesia; production results are very dependent on fish cultivation methods in freshwater fish, water quality is one of the most important factors in fish farming because it has an impact on fish quality and production, several parameters such as pH, temperature, and water turbidity are one of the influential factors in the success of freshwater fish farming. In this study, a system was built that could record water quality in fish ponds in real-time and monitor water conditions in fish ponds using several sensors, including a pH-4502C sensor to measure pH, a DS18B20 sensor to measure temperature, and a turbidity sensor to detect water turbidity. The test results obtained an accuracy of the reading value of 95.00% for pH, 97.33% for temperature, and 90.53% for turbidity. All data obtained by the sensor will be displayed on the website page as an interface, and the Telegram application will send and display Notifications of water conditions to cellphone cultivators.
Creative Thinking dalam Implementasi dan Rancang Bangun Multiple Sensors berbasis Plug-and-Play Systems with Database Baskoro, Farid; Suprianto, Bambang; Anifah, Lilik; Ekohariadi; Nurdiansyah, Aristyawan; Rochman, Miftahur
JASEE Journal of Application and Science on Electrical Engineering Vol. 4 No. 01 (2023): JASEE-March
Publisher : Program Studi Teknik Elektro - Fakultas Teknik - Universitas Widyagama Malang

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.31328/jasee.v4i01.268

Abstract

The purpose of this study is to implement creative thinking from the aspect of innovation in developing multiple sensors in plug-and-play system with a database. The method used in this study was an experiment conducted by taking a sample of 5000 data. The location of the research was carried out in the telematics laboratory at Surabaya State University building A8 with room dimensions of 9 x 10 meters. The results of this study indicate a plug-and-play process developed by a scanning process to find connected PORTs without having to do configuration, showing a comparison of the DHT11 error value with a comparator that reaches 2.057 % on the temperature value, 0.829 % on the humidity value, 1.514 % on light intensity value, 1.429% on distance value, and provides 5000 data which includes temperature, humidity, light intensity, and distance data stored in database. Data on temperature, humidity, light intensity, distance, plug-and-play systems, GUI, and databases obtained by researchers are very useful for further research that will be developed to meet smart systems.
Monitoring Suhu Pada Tanaman Seledri Berbasis Internet of Things Dengan Metode Fuzzy Sugeno Banggut, Andreas Lois Figo; Setiawan , Aries Boedi; Sumarahinsih , Andrijani
JASEE Journal of Application and Science on Electrical Engineering Vol. 4 No. 01 (2023): JASEE-March
Publisher : Program Studi Teknik Elektro - Fakultas Teknik - Universitas Widyagama Malang

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.31328/jasee.v4i01.269

Abstract

In the process of plant growth is influenced by many factors one of which is the weather climate. Many crop failures occur due to unstable weather. One of them is the celery plant because it is susceptible to weather. Therefore an automatic temperature monitoring system is designed that can be monitored from a smartphone using a fuzzy Sugeno method. Starting from reading the DHT11 sensor which is then processed by ESP32 which then sends the data to the smartphone via the Inventor App, then ESP32 gives commands to the output which then works based on the conditions that occur from the results of sensor readings with PWM fuzzy sugeno. The parameter being monitored is the temperature of the celery plant. The reading results will be displayed on App Inventor as an Internet of Things (IoT) support system
Kursi Roda Otomatis Line Follower Dikontrol menggunakan Android Berbasis (Internet Of Things) IoT Kurniawan, Simplisius Yekri; Setiawan, Aries Boedi; Dirgantara , Wahyu
JASEE Journal of Application and Science on Electrical Engineering Vol. 4 No. 01 (2023): JASEE-March
Publisher : Program Studi Teknik Elektro - Fakultas Teknik - Universitas Widyagama Malang

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.31328/jasee.v4i01.272

Abstract

A wheelchair is a mobility aid for people who have special needs, one of which is a disability. Usually this wheelchair is in the form of a manual wheelchair, which requires the help of another person to push the wheelchair. However, as time and technology have progressed, many studies have designed wheelchairs to be electric so that users will find it easier. This study aims to make new innovations so that users do not have difficulty using a wheelchair by controlling the wheelchair using a smartphone so that users are more comfortable. The components we use are a 12 v power windod motor as the ESP32 wheel drive for microcontrollers, line sensors to read ultrasonic sensor paths for detecting obstacles and the blynk application for monitoring the wheelchair thoroughly. the designer for IoT on this wheelchair can carry a large load of 80 kg with a distance of 20m and for how to control this wheelchair depends on the network
Rancang Bangun Instrumen Pengukur Tinggi Gelombang Permukaan Laut Menggunakan Sensor IMU GY955 Widyo Astomo, Reynanda Bagus; Kurniawati , Indah; Mahmudah , Aida; Sya’ronni
JASEE Journal of Application and Science on Electrical Engineering Vol. 4 No. 01 (2023): JASEE-March
Publisher : Program Studi Teknik Elektro - Fakultas Teknik - Universitas Widyagama Malang

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.31328/jasee.v4i01.277

Abstract

Ocean waves are an up and down movement of sea water that occurs due to several factors such as wind, sun and moon gravity, volcanic eruptions or earthquakes at sea, moving ships, and so on. Information about the structure of sea water waves off the coast is very useful for human activities related to the sea such as fishing, shipping, and other activities. Based on this, it is necessary to have a tool that can monitor the height of the tides and low tides. The purpose of making this device is to determine the characteristics of sea water waves directly (real time) in order to determine the right time to sail off it was found that there is a difference in the maximum wave height reading of ±8 cm and an average difference of ±5 cm. While the difference in readings of wave crests has a maximum difference of ±7 cm and an average difference of ±4 cm.
Rancang Bangun Smart Office berbasis Aplikasi Blynk menggunakan Microcontroler ESP32 Alfian, Riski; Rukslin; Raikhani, Agus; Ali, Machrus
JASEE Journal of Application and Science on Electrical Engineering Vol. 6 No. 1 (2025): JASEE-March
Publisher : Program Studi Teknik Elektro - Fakultas Teknik - Universitas Widyagama Malang

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.31328/jasee.v6i1.02

Abstract

Internet of Things (IOT) is a concept or program where an object has the ability to transmit or send data over a network without the help of computer devices and humans. The development of the Internet of Things (IOT) is currently taking place rapidly and has been applied in various sectors, including government, business, and industry. By utilizing this technology, management and monitoring of electrical equipment in a building can be done in an integrated manner through Internet connectivity. This allows us to prevent excessive use and reduce electricity consumption in rooms that are not being used. The 1st floor building of the engineering faculty has many lights and fans. Not infrequently, negligence often occurs in turning off and on the lights and fans. This study aims to control the lights in the engineering faculty building on the 1st floor using the IOT system through the Blynk application, to provide convenience for people who will control the lights in the engineering faculty building and can be turned off remotely if there is negligence when turning off the lights can be turned off remotely using a smartphone. The results of this study use the ESP32 type microcontroller and the Blynk application to control the lights and fans. The results can work well. The bypass switch for controlling the lights and fans is used when there is a disruption to the Internet network.
Sistem Informasi Peringatan Dini Polusi Udara Berbasis Telegram dengan Mikrokontrol ESP32-Cam Pakage, Matan; Rianto, Agus
JASEE Journal of Application and Science on Electrical Engineering Vol. 6 No. 1 (2025): JASEE-March
Publisher : Program Studi Teknik Elektro - Fakultas Teknik - Universitas Widyagama Malang

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.31328/jasee.v6i1.01

Abstract

Internet of things (IOT) is a concept or program where an object has the ability to transmit or send data over a network without the help of computer devices and humans. The development of the internet of things (IOT) is currently taking place rapidly and has been applied in various sectors, including government, business, and industry. By utilizing this technology, management and monitoring of electrical equipment in a building can be done in an integrated manner through internet connectivity. This allows us to prevent excessive use and reduce electricity consumption in rooms that are not being used. The 1st floor building of the engineering faculty has many lights and fans. Not infrequently, negligence often occurs in turning off and on the lights and fans. This study aims to control the lights in the engineering faculty building on the 1st floor using the IOT system through the Blynk application, to provide convenience for people who will control the lights in the engineering faculty building and can be turned off remotely if there is negligence when turning off the lights can be turned off remotely using a smartphone. The results of this study use the ESP 32 type microcontroller and the Blynk application to control the lights and fans. The results can work well. The bypass switch for controlling the lights and fans is used when there is a disruption to the internet network.
RANCANG BANGUN SISTEM KONTROL DAN MONITORING KEAMANAN RUMAH DENGAN NODEMCU ESP32 BERBASIS IOT Saefatu, Fredwin; Ir. Gigih priyandoko, MT. Ph.D; Dedi Usman Effendy, ST. MT
JASEE Journal of Application and Science on Electrical Engineering Vol. 6 No. 1 (2025): JASEE-March
Publisher : Program Studi Teknik Elektro - Fakultas Teknik - Universitas Widyagama Malang

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.31328/jasee.v6i1.03

Abstract

In the modern era, the Internet of Things (IoT) technology has brought about a significant revolution in the technological landscape, particularly in the realm of home security [1]. As the incidents of home accidents such as gas leaks, smoke-related fires, and theft cases continue to rise [2], it becomes imperative to mitigate these risks through the development of IoT-based control and monitoring systems for home electronic security devices. This research designs and constructs an IoT-based home security system to address the aforementioned risks. The system employs various sensors including DHT11 (temperature), MQ-4 (smoke and gas), KY026 (flame), PIR (motion), and MC38 (door/window status), all interconnected with the NodeMCU ESP32 microcontroller. The outcomes from these sensors are displayed on an LCD I2C screen, the Blynk application, and also sent via email. Sensor integration triggers preventive actions, such as activating a fan when the temperature exceeds 27°C, initiating emergency lighting in case of gas levels surpassing 500, and activating a water pump when flames are detected. The PIR sensor connects to an ESP32 CAM that captures and emails images upon motion detection. Testing demonstrates the sensors' reliable reception of inputs and their high sensitivity, while the NodeMCU ESP32 microcontroller effectively transmits data to Blynk and email, controls electronic devices, and presents information on the LCD I2C screen. The Blynk application and email successfully receive data within varying ranges of 1m, 350m, 800m, 1.3km, and 2.7km. This research culminates in a functional prototype that successfully implements IoT concepts for real-time monitoring and control of home security devices. As such, this study offers a positive contribution towards raising awareness about home security and furnishes an intelligent solution for mitigating accident and theft risks.

Page 6 of 7 | Total Record : 63

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