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All Journal Program Kreativitas Mahasiswa - Karsa Cipta INTEK: Jurnal Penelitian MOTIVECTION : Journal of Mechanical, Electrical and Industrial Engineering INAJEEE (Indonesian Journal of Electrical and Electronics Engineering) JEAT : Journal of Electrical and Automation Technology Majalah Teknik Industri
Muhammad Fadli Azis
Politeknik ATI Makassar
Automotive Engineering Chemical Engineering, Chemistry & Bioengineering Civil Engineering, Building, Construction & Architecture Computer Science & IT Control & Systems Engineering Electrical & Electronics Engineering Energy Engineering Industrial & Manufacturing Engineering Mechanical Engineering Other

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INOVASI PENINGKATAN EFISIENSI PANEL SURYA BERBASIS FRESNEL SOLAR CONCENTRATOR DAN SOLAR TRACKER Saputra, Muhammad Adhijaya; Azis, Muhammad Fadli
Program Kreativitas Mahasiswa - Karsa Cipta PKM-KC 2014
Publisher : Ditlitabmas, Ditjen DIKTI, Kemdikbud RI

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (3233.438 KB)

Abstract

Indonesia is a tropical country with great potential for solar energy is about 4.5 kWh per m2. However, this potential can not be fully utilized due to the efficiency of solar panels is still very low at around 16%. Various research and development of solar panels has been done in order to get a system with higher efficiency. Starting from the development of constituent materials, the selection of topology until the latest is the change construction design of the solar panels. That is a change from fixed solar panel model (fixed solar panels) into a solar tracker. With the discovery of the suns solar panels followers, efficiency solar panels can now be increased up to 16.5%. However, the figure is too low if the solar panel want to be a solar panel power generation technologies that can be utilized by the general public. We tried to develop a solar panel system by utilizing the Fresnel lens that can concentrate sunlight intensity on the solar cell. Then, because of the position of the sun that always changes, we use a solar tracker that automatically adjust the position of the solar panels to always face the sun. So with the combination of the two technologies, solar panel can absorb maximum sunlight intensity.Keywords:Solar Panels, Solar Tracker, Fresnel Solar Concentration.
Optimizing Economic Dispatch through Web-based Applications using Lambda Iteration Algorithm for Efficient Power System Operation Muhammad Fadli Azis; Mutmainnah; Lutfi; Julianti Habibuddin
INAJEEE (Indonesian Journal of Electrical and Electronics Engineering) Vol. 6 No. 1 (2023)
Publisher : Department of Electrical Engineering, Faculty of Engineering, Universitas Negeri Surabaya

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.26740/inajeee.v6n1.p1-8

Abstract

This research presents the development of an online economic dispatch web application using the lambda iteration method. The proposed method is implemented through a systematic process of problem formulation, optimization method selection, application design, and testing. The web application is created using MATLAB Web Apps and tested using generation data from the IEEE 30 bus system. The results demonstrate that the developed web application operates effectively and fulfills the desired specifications. Users can access the application via web browsers without the need for MATLAB installation on their devices. The study concludes that the developed economic dispatch web application can serve as a valuable tool for enhancing the efficiency and effectiveness of economic dispatch processes. The application can be further optimized by incorporating more comprehensive and user-friendly features.
Automatic Mist Sprayer for Oyster Mushroom Cultivation Using Thingspeak IoT Platform and R Analytical Tool Julianti Habibuddin; Taufik Muchtar; Muhammad Fadli Azis; Muh. Rivaldi Sasmita
MOTIVECTION : Journal of Mechanical, Electrical and Industrial Engineering Vol 5 No 2 (2023): Motivection : Journal of Mechanical, Electrical and Industrial Engineering
Publisher : Indonesian Mechanical Electrical and Industrial Research Society (IMEIRS)

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.46574/motivection.v5i2.241

Abstract

In mushroom greenhouses at IKM Simbang Maros, watering is currently done manually using a hose and scheduled twice daily, without considering the optimal temperature and humidity for mushroom growth. This study aims to develop an automatic watering system for oyster mushroom cultivation using a DHT22 sensor to monitor temperature and humidity. The system is equipped with a NodeMCU ESP32 microcontroller and a mist sprayer, triggered by a relay to activate the water pump. An IoT platform using Thingspeak allows farmers to monitor temperature and humidity data in real-time on their smartphones. In a real case study, the device effectively maintained optimal humidity levels for mushroom growth, with the pump activating when humidity was below 85%. Data from 10 observations showed that the pump was active for 7 times. Data processing using R Studio showed the system's ability to stabilize humidity levels. The proposed system could help farmers optimize mushroom growth and reduce the labor required for manual watering.
Sistem Kontrol Lampu Secara Wireless dan Real Time Berbasis Internet of Things Muhammad Fadli Azis; Merla Madjid
Majalah Teknik Industri Vol 28 No 1 (2020): Majalah Teknik Industri Juni 2020
Publisher : Unit Penelitian dan Pengabdian Masyarakat (UPPM) Politeknik ATI Makassar

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Abstract

Penelitian ini menjelaskan tentang sistem kontrol lampu secara wireless dan real time menggunakan internet of things (IoT). Sistem ini terdiri dari perangkat keras berupa microcontroller NodeMCU, relay dan lampu, serta perangkat lunak berupa teknologi IoT berbasis platform Blynk. Pengujian dari sistem ini menggunakan smartphone android, Google Pixel 3a, sebagai perangkat untuk penginstalan aplikasi Blynk IoT platform. Adapun koneksi internet yang digunakan yaitu WiFi indihome dan paket data seluler dari kartu XL. Hasil dari pengujian sistem kontrol lampu berbasis IoT ini kemudian dibandingkan dengan sistem kontrol lampu menggunakan teknologi wireless lain, yaitu bluetooth, LAN dan Telegram. Perbandingan ini meliputi kontrol dari segi jangkauan area, kecepatan akses, dan biaya koneksi perangkat. Hasil menunjukkan bahwa lampu dapat dikontrol secara wireless dan realtime dengan menggunakan teknologi Blynk IoT. Terdapat berbagai keunggulan dengan menggunakan teknologi ini meliputi kontrol dengan jangkauan area tanpa batas selama ada akses internet, kecepatan akses yang realtime, tampilan pengguna yang menarik serta cara penggunaan yang mudah.
Design and Development of a Monitoring and Alarm System for Home Security Door Using Antares IoT Platform Djabir, St. Nurhayati; Azis, Muhammad Fadli; Amin Kurniadi
JEAT : Journal of Electrical Automation Technology Vol. 1 No. 2 (2022): JEAT : Journal of Electrical and Automation Technology
Publisher : UPPM Poltek ATI Makassar

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (318.857 KB) | DOI: 10.61844/jeat.v1i2.283

Abstract

Keamanan rumah merupakan hal yang sangat penting dan selalu diinginkan oleh setiap pemilik rumah. Salah satu permasalahan yang mengancam keamanan pemilik rumah adalah pencurian. Berbagai cara dilakukan seperti menggunakan gembok pintu rumah, namun tetap saja tetap terjadi pencurian karena gembok berhasil dibobol. Di sisi lain, perkembangan teknologi keamanan rumah saat ini semakin berkembang. Hal ini didukung dengan adanya teknologi internet of things. Melalui teknologi ini, pemilik rumah dapat memantau kondisi rumahnya kapan dan di mana saja menggunakan smartphone. Oleh karena itu, pada penelitian ini dirancang sistem monitoring dan alarm keamanan pintu menggunakan platform IoT Antares. Berdasarkan hasil pengujian sistem monitoring kondisi pintu, alat mampu bekerja dengan respon waktu rata-rata 1.6 detik. Adapun hasil pengujian sistem controlling pintu dan alarm, alat mampu bekerja dengan respon waktu rata-rata 2.3 detik.
Design and Development of a Clove Drying Device Using Timer and Solar Cell in Kolaka Utara Sidehabi, Sitti Wetenriajeng; Azis, Muhammad Fadli; Rizal, Muh Rizman
JEAT : Journal of Electrical Automation Technology Vol. 1 No. 2 (2022): JEAT : Journal of Electrical and Automation Technology
Publisher : UPPM Poltek ATI Makassar

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (260.568 KB) | DOI: 10.61844/jeat.v1i2.284

Abstract

Cengkeh (Syzygium aromaticum) merupakan salah satu tanaman perkebunan utama di Kolaka Utara. Tanaman ini digunakan sebagai bahan baku untuk industri rokok, farmasi, kosmetik, dan rempah-rempah makanan. Namun, sebelum diolah menjadi produk rempah, cengkeh harus dikeringkan terlebih dahulu. Proses pengeringan cengkeh secara konvensional membutuhkan waktu 4-5 hari, bahkan bisa mencapai 6-7 hari jika cuaca tidak mendukung. Oleh karena itu, dalam penelitian ini dirancang sebuah alat pengering cengkeh dengan kendali timer otomatis dan solar cell di Kolaka Utara. Hasil pengujian menunjukkan bahwa alat ini dapat mengeringkan cengkeh seberat 1000 gram dalam waktu 4 jam.
Development of DCS SCADA Module for Factory I/O Pick and Place XYZ Case Based on Siemens S7-1200 PLC and HMI Excel Link Azis, Muhammad Fadli; Lutfi, Lutfi; Amiruddin, Muh. Syaftar
INTEK: Jurnal Penelitian Vol 11 No 1 (2024): April 2024
Publisher : Politeknik Negeri Ujung Pandang

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.31963/intek.v11i1.4734

Abstract

The DCS SCADA course plays a significant role in the latest curriculum introduced at Politeknik ATI Makassar in 2022. However, the utilization of real plant instrumentation in industrial environments often proves costly. To overcome this cost barrier, this research develops a DCS SCADA module employing an industrial simulation application, namely the virtual plant Factory I/O, with a case study involving Pick and Place XYZ. This scenario entails the placement of boxes onto pallets using a three-axis robotic manipulator. The module utilizes the PLC Siemens S7-1200 as the control device and HMI Excel Link as the supervisory device. To detect the boxes and parts, two retroreflective sensors are employed, with three conveyors facilitating transportation and a robotic pick and place arm moving in three XYZ axes. Through integrated procedural testing, the system's performance evaluation demonstrates a 100% success rate (OK status).
Development of a Color-Based Image Recognition System for Robotic Sorting and Picking Sidehabi, Sitti Wetenriajeng; Azis, Muhammad Fadli; Asbar, Muhammad
INTEK: Jurnal Penelitian Vol 11 No 2 (2024): October 2024
Publisher : Politeknik Negeri Ujung Pandang

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.31963/intek.v11i2.5009

Abstract

This research presents the development of an automated object sorting and picking system using a robotic arm controlled by colour-based image recognition. The system is designed to enhance efficiency and accuracy in manufacturing processes by eliminating the need for manual sorting. A Dobot Magician robotic arm, an Arduino microcontroller, a conveyor belt, a photoelectric sensor, and a camera are integrated to achieve this goal. Colour segmentation is implemented using the HSV colour space, enabling the system to accurately classify objects based on colour. Experimental results demonstrate the system's ability to successfully sort objects of three colours in a random sequence with 100% accuracy over ten trials.
Development of a Light Intensity Monitoring System in Broiler Chicken Coops Based on Arduino IoT Cloud Habibuddin, Julianti; Azis, Muhammad Fadli; Azis, Nuritasari
INTEK: Jurnal Penelitian Vol 11 No 2 (2024): October 2024
Publisher : Politeknik Negeri Ujung Pandang

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.31963/intek.v11i2.5085

Abstract

The lighting system significantly influences the growth and productivity of broiler chickens, necessitating an efficient tool for monitoring light intensity in chicken coops. This study aims to design and develop an Arduino IoT Cloud-based light intensity monitoring system for broiler chicken coops. The system employs two BH1750 light sensors, positioned inside and outside the coop, to measure light intensity, which is then processed by an ESP32 microcontroller. The collected data is displayed on a 16x2 LCD screen and uploaded in real time to the Arduino IoT Cloud platform for remote monitoring. Testing conducted over a 6-hour period revealed that light intensity inside the coop remained stable at approximately 30 lux from 09:30 to 12:52, while the highest external light intensity reached 400 lux between 12:06 and 14:40, followed by a decrease after 14:50. These findings indicate that the system can assist farmers in timely actions, such as opening or closing coop curtains, through effective monitoring via the Arduino IoT Cloud platform.
Co-Authors Amin Kurniadi Amiruddin, Muh. Syaftar Asbar, Muhammad Azis, Nuritasari Djabir, St. Nurhayati Habibuddin, Julianti Jayawarsa, A.A. Ketut Julianti Habibuddin Julianti Habibuddin Lutfi Merla Madjid Muh. Rivaldi Sasmita Muhammad Adhijaya Saputra, Muhammad Adhijaya Mutmainnah Rizal, Muh Rizman Sitti Wetenriajeng Sidehabi Taufik Muchtar