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All Journal JTEV (Jurnal Teknik Elektro dan Vokasional TESLA: Jurnal Teknik Elektro Jurnal ABDINUS : Jurnal Pengabdian Nusantara Indonesian Journal of Electrical Engineering and Computer Science Jurnal Ilmiah Teknik Elektro
Muliady Muliady
Universitas Kristen Maranatha
Computer Science & IT Control & Systems Engineering Economics, Econometrics & Finance Education Electrical & Electronics Engineering Energy Engineering Environmental Science Industrial & Manufacturing Engineering Social Sciences

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PENGONTROLAN SUHU, KELEMBAPAN, DAN INTENSITAS CAHAYA PADA KUMBUNG JAMUR DENGAN PENDEKATAN FINITE ELEMENT DALAM PENEMPATAN SENSOR Willy Tanadi; Muliady Muliady
TESLA: Jurnal Teknik Elektro Vol 22, No 2 (2020): TESLA: Jurnal Teknik Elektro
Publisher : Universitas Tarumanagara

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.24912/tesla.v0i0.9032

Abstract

The success of harvesting white oyster mushrooms depends on the treatment especially the conditions of temperature, humidity, and light intensity in the mushroom house, the placement of sensors must be precise so it can represent the conditions inside the white oyster mushroom and proper action can be taken. Determination of the location of the sensor point is done using the Finite Element Method approach by dividing the mushroom house into small segments to help analyze the parameters of temperature, humidity, and light intensity inside. The control system uses an ON-OFF hysteresis controller mode. Temperature and humidity sensors (DHT11) are positioned respectively on the left, center, and right side of the mushroom house. Data from DHT11 measurement is processed by NodeMcu V3 microcontroller and then will activate the actuator. The interface (GUI) for monitoring is designed to use Blynk application. The controlled parameters meet the needs of white oyster mushrooms, temperatures of 20-26°C with the error 2°C, humidity 80-90% with the error 5%, and lighting 200-640lux with the error 10 lux. The control signal can keep the range of parameters maintained.ABSTRAK: Keberhasilan panen jamur Tiram Putih tergantung pada perawatan yang diterapkan terutama kondisi suhu, kelembapan, dan intensitas cahaya di dalam kumbung, penempatan sensor harus tepat sehingga sensor dapat mereprensentasikan keadaan di dalam kumbung jamur tiram putih sehingga aksi yang tepat dapat dilakukan. Penentuan letak titik sensor dilakukan dengan menggunakan pendekatan Finite Element Method yaitu membagi kumbung menjadi segment-segment kecil untuk membantu menganalisis parameter suhu, kelembapan dan intensitas cahaya di dalam kumbung jamur tiram putih. Sistem kontrolmenggunakan mode pengontrol ON-OFF hysteresis. Sensor suhu dan kelembapan (DHT11) diposisikan masing-masing pada bagian kiri, tengah, dan kanan kumbung. Data hasil pengukuran DHT11 diolah oleh mikrokontoler NodeMcu V3 yang akan mengaktifkan aktuator di dalam kumbung. Antarmuka (GUI) untuk monitoring parameter yang diamati menggunakan aplikasi Blynk. Parameter yang dikontrol dapat memenuhi kebutuhan jamur tiram putih, yaitu suhu 20-26°C dengan error 2°C, kelembapan 80-90% dengan error 5%, dan pencahayaan 200-640lux dengan error 10lux. Sinyal kontrol yang dihasilkan mampu menjaga agar range parameter yang dibutuhkan tetap terjaga.
Classification of rice plant nitrogen nutrient status using k-nearest neighbors (k-NN) with light intensity data Muliady Muliady; Lim Tien Sze; Koo Voon Chet; Suhadra Patra
Indonesian Journal of Electrical Engineering and Computer Science Vol 22, No 1: April 2021
Publisher : Institute of Advanced Engineering and Science

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.11591/ijeecs.v22.i1.pp179-186

Abstract

Crop management including the efficient use of nitrogen (N) fertilizer is important to ensure crop productivity. Human error in judging the leaf greenness when using the leaf color chart (LCC) to estimate the rice plant N nutrient status has encouraged numerous researchers to implement a machine-learning algorithm but experienced some issues in calibration and lighting. The datasets are created at 6.00-7.00AM (consistent lighting) and including light intensity, so each dataset contains RGB value and light intensity as inputs, and LCC value as a target. A system consists of a smartphone with an application that prevents user from taking an image if the light intensity is not in 2000-3500 lux, and a computer for preprocessing and classification purposes were developed. The preprocessing included cropping, splitting the rice leaf images, and calculating the average RGB values. A k-NN classifier is implemented and by using a cross-validation method is found k=5 gives the best accuracy of 97,22%. The in-site test of the system also works with an accuracy of 96.40%. 
Simulasi Karakteristik Motor BLDC UAV Erwani Merry Sartika; Muliady Muliady; Alfian Alfian
JTEV (Jurnal Teknik Elektro dan Vokasional) Vol 5, No 1.1 (2019): Edisi khusus prosiding FORTEI 2019
Publisher : Universitas Negeri Padang

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (657.705 KB) | DOI: 10.24036/jtev.v5i1.1.106120

Abstract

Pada paper ini menjelaskan karakteristik motor BLDC UAV dari model. Simulasi dibuat mewakili model dari motor BLDC UAV yang kemudian digunakan untuk melihat karakteristik dari motor. Identifikasi hasil model motor BLDC UAV digunakan untuk membandingkan dengan model hasil karakteristik motor BLDC UAV. Hasil data pengamatan menunjukkan khususnya untuk model arus armature masih cukup besar terdapat perbedaan cukup besar dibandingkan model kecepatan rotor. Diperlukan identifikasi dengan metode yang berbeda agar dihasilkan model yang lebih tepat.
Navigasi Indoor Berbasis Peta pada Robot Beroda dengan Platform Robot Operating System Tara Anggada Putra; Muliady Muliady; Daniel Setiadikarunia
Jetri : Jurnal Ilmiah Teknik Elektro Jetri, Volume 17, Nomor 2, Februari 2020
Publisher : Website

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (1251.786 KB) | DOI: 10.25105/jetri.v17i2.5447

Abstract

Wheeled robots are widely used in many industrial fields. The wheeled robot needs to have implemented an autonomous navigation system to improve work efficiency. In this research, a map-based indoor navigation system is implemented on wheeled robot with Robotics Operating System (ROS) platform using Hector Mapping algorithm. The algorithm Multisensor Data Fusion using Extended Kalman Filter (EKF) which fuses Wheel Odometry data with IMU sensor data for localization, Field Dynamic A-Star algorithm for path planning, and ON-OFF controller for trajectory tracking. Field Dynamic A-Star algorithm is chosen because it solves general path planning algorithm’s main issue that limits robot’s orientation movement for every 45o (suboptimal and subnatural path). The robot has ODROID-XU4 as controller to perform map-based indoor navigation, Arduino Mega 2560 to drive motors, RPLIDAR A2 LASER rangefinder for mapping, and VEX Integrated Encoder with Sparkfun Razor 9DoF IMU for localization. The navigation system is successfully implemented on wheeled robot with ROS platform. Robot has successfully mapped indoor environment with 0.174 meter error rate, and has successfully done localization with average error rate of 0.05m on x coordinate, 0.028m on y coordinate, and 1.506o on orientation angle. Path planner is proved capable of generating path that is not limited every 45o orientation. Path planner yields 62.5% success rate in generating traversable path and the robot yields 75% success rate in following the path. Robot yields average error rate of 0.046m in moving towards target’s x coordinate, 0.072m in moving towards target’s y coordinate, and 5.163o in turning towards target’s orientation angle. Robot beroda banyak digunakan di banyak bidang industri. Pada robot beroda tersebut perlu diimplementasikan sistem navigasi autonomous untuk meningkatkan efisiensi kerja. Pada penelitian ini, sistem navigasi indoor berbasis peta diimplementasikan pada robot beroda dengan platform Robot Operating System (ROS) menggunakan algoritma Hector Mapping untuk pemetaan. Algoritma ini menggunakan Data Fusion dengan algoritma Extended Kalman Filter (EKF) yang menggabungkan data Wheel Odometry dengan data sensor IMU untuk lokalisasi, algoritma Field Dynamic A-Star untuk path planning, dan pengontrol ON-OFF untuk trajectory tracking. Algoritma Field Dynamic A-Star dipilih karena algoritma tersebut dapat mengatasi permasalahan algoritma path planning pada umumnya yang membatasi arah orientasi pergerakan robot setiap kelipatan 45o (jalur tidak optimal dan tidak natural). Robot memiliki ODROID-XU4 sebagai pengontrol utama yang bertugas untuk melakukan navigasi indoor berbasis peta, Arduino Mega 2560 untuk menggerakkan motor, LASER rangefinder RPLIDAR A2 untuk pemetaan, dan VEX Integrated Encoder serta Sparkfun Razor 9DoF IMU untuk lokalisasi. Sistem navigasi berhasil diimplementasikan pada robot beroda dengan platform ROS. Robot berhasil melakukan pemetaan lingkungan indoor dengan tingkat kesalahan rata-rata 0,174 meter serta berhasil melakukan lokalisasi dengan tingkat kesalahan rata-rata 0,05m pada koordinat x, 0,028m pada sumbu y, dan 1,506o pada sudut orientasi. Path planner terbukti menghasilkan jalur yang tidak terbatas pada kelipatan orientasi 45o. Path planner memiliki tingkat keberhasilan 62,5% dalam menghasilkan jalur yang dapat dilewati robot dan robot memiliki tingkat keberhasilan 75% dalam mengikuti jalur. Robot memiliki tingkat kesalahan rata-rata 0,046m dalam bergerak menuju koordinat x target, 0,072m dalam bergerak menuju koordinat y target, dan 5,163o dalam berputar menuju sudut orientasi target.
Pembelajaran Rangkaian Listrik dengan Aplikasi TinkerCAD Circuit pada Akademisi di Indonesia Ratnadewi Ratnadewi; Muliady Muliady; Agus Prijono; Yohana Susanthi; Tio Dewantho Sunoto; Eric Chandra; Aldi Setiawan; Rio Ananda
Jurnal ABDINUS : Jurnal Pengabdian Nusantara Vol 7 No 3 (2023): Volume 7 Nomor 3 Tahun 2023
Publisher : Universitas Nusantara PGRI Kediri

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.29407/ja.v7i3.16831

Abstract

The development of the world of education that increasingly prioritizes asynchronous learning encourages more platforms and applications to be launched online learning by combining knowledge and skills. However, there are still obstacles when students/teachers first try to use the application/platform self-taught. In order to bridge this gap, the UKM TE Study Program held a service by providing simulation and coding workshops on electrical circuits with the TinkerCAD Circuit web-based application for students and teachers in junior high schools. The main purpose of this PkM is to be a motivation and basis for participants to learn electrical circuits, and it can even be used as an online learning option in schools.
Co-Authors Agus Prijono Aldi Setiawan Alfian Alfian Daniel Setiadikarunia Eric Chandra Erwani Merry Sartika Koo Voon Chet Lim Tien Sze Ratnadewi . Rio Ananda Suhadra Patra Tara Anggada Putra Tio Dewantho Sunoto Willy Tanadi Yohana Susanthi