Article Per Year (5 Year)
p-Index From 2021 - 2026
10.411
P-Index
This Author published in this journals
All Journal ComEngApp : Computer Engineering and Applications Journal Transmisi: Jurnal Ilmiah Teknik Elektro Jurnal Neutrino : jurnal fisika dan aplikasinya MATICS : Jurnal Ilmu Komputer dan Teknologi Informasi (Journal of Computer Science and Information Technology) TELKOMNIKA (Telecommunication Computing Electronics and Control) Progresiva : Jurnal Pemikiran dan Pendidikan Islam Jurnal Mahasiswa TEUB Jurnal EECCIS Sinergi Techno (Jurnal Fakultas Teknik, Universitas Muhammadiyah Purwokerto) e-Jurnal Arus Elektro Indonesia ELKOMIKA: Jurnal Teknik Energi Elektrik, Teknik Telekomunikasi, & Teknik Elektronika JAKPP : Jurnal Analisis Kebijakan & Pelayanan Publik Prosiding SI MaNIs (Seminar Nasional Integrasi Matematika dan Nilai-Nilai Islami) AL QUDS : Jurnal Studi Alquran dan Hadis Publikauma : Jurnal Administrasi Publik Universitas Medan Area Network Engineering Research Operation [NERO] Kinetik: Game Technology, Information System, Computer Network, Computing, Electronics, and Control Jurnal Pemberdayaan Masyarakat: Media Pemikiran dan Dakwah Pembangunan Al-Hayat: Journal of Islamic Education Jurnal Fokus Elektroda : Energi Listrik, Telekomunikasi, Komputer, Elektronika dan Kendali Jurnal Teknik Mesin dan Mekatronika (Journal of Mechanical Engineering and Mechatronics) Journal of Robotics and Control (JRC) Fokus Elektroda: Energi Listrik, Telekomunikasi, Komputer, Elektronika dan Kendali) Khazanah Multidisiplin International Journal of Educational Research and Social Sciences (IJERSC) Jurnal IPTEK Bagi Masyarakat Jurnal Nasional Teknik Elektro dan Teknologi Informasi Akademika : Jurnal Pemikiran Islam Acta Islamica Counsenesia: Counselling Research and Applications Best Journal of Administration and Management Innovative: Journal Of Social Science Research Religia : Jurnal Ilmu-Ilmu Keislaman Software Development Digital Business Intelligence and Computer Engineering IIJSE Al-Intaj : Jurnal Ekonomi dan Perbankan Syariah Indonesian Journal of Islamic Literature and Muslim Society Proceedings of The International Conference on Multidisciplinary Science LoroNG Seminar Nasional Riset dan Teknologi (SEMNAS RISTEK) Proceeding International Conference on Education Jurnal Tarbiyatuna
Muhammad Aziz Muslim
Jurusan Teknik Elektro Fakultas Teknik Universitas Brawijaya
Religion Aerospace Engineering Agriculture, Biological Sciences & Forestry Arts Humanities Civil Engineering, Building, Construction & Architecture Computer Science & IT Control & Systems Engineering Decision Sciences, Operations Research & Management Economics, Econometrics & Finance Education Electrical & Electronics Engineering Energy Engineering Environmental Science Industrial & Manufacturing Engineering Languange, Linguistic, Communication & Media Law, Crime, Criminology & Criminal Justice Library & Information Science Materials Science & Nanotechnology Mathematics Mechanical Engineering Neuroscience Physics Public Health Social Sciences Transportation Other

Published : 168 Documents Claim Missing Document
Claim Missing Document
Check
Articles

Found 168 Documents
Search

 9   10   11   12   13 
Perancangan Sistem Gerak Kamera Laba-laba dengan Metode Kinematika Balik Muhammad Aziz Muslim; Frido Wahyu Alifantio
Jurnal Nasional Teknik Elektro dan Teknologi Informasi Vol 8 No 2: Mei 2019
Publisher : Departemen Teknik Elektro dan Teknologi Informasi, Fakultas Teknik, Universitas Gadjah Mada

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (1164.268 KB)

Abstract

Spider camera (spidercam) is a camera equipped with a movement system that resembles the movement of a spider. The camera can move in a three-dimensional field by pulling and stretching the rope or cables arranged in a certain configuration. This study proposed the use of an inverse kinematic to control the movement of the camera. This method is seeking the relationship between the desired coordinates with the angle that must be moved from each motor that composes it. To move the motor, an analytically tuned PID controller is employed. Experimental results show that using the proposed system, the camera is successfully placed in accordance with the desired position with 100% accuracy. From motor response side, however, the system's performance still needs to be improved so that a smoother movement can be obtained.
Analisis Kinerja Jalan Raya Kota Malang Menggunakan Metode FCD (Floating Car Data) Mega Satya Ciptaningrum; Muhammad Aziz Muslim; Agus Naba
Jurnal Nasional Teknik Elektro dan Teknologi Informasi Vol 5 No 1: Februari 2016
Publisher : Departemen Teknik Elektro dan Teknologi Informasi, Fakultas Teknik, Universitas Gadjah Mada

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (356.651 KB)

Abstract

Congestion is one of the symptoms of inadequate road conditions and interaction between the traffic elements that affect the performance of the highway. Methods of measuring the performance of the highway have been reported in Manual Kapasitas Jalan Indonesia in 1997. Highway performance measurement parameters that can be used are speed and time delay. Floating Car Data (FCD) is a method to retrieve data such as speed and time delay quickly and efficiently. While Adaptive Neuro Fuzzy Inference System (ANFIS) can be used as a method of measuring the performance of the FCD method. In this study, the FCD method is applied to the segment of urban roads in the city of Malang by utilizing the GPS feature on a mobile device carried by the rider. The results of data recording by FCD are tested using ANFIS with two input parameters (speed and time delay) and one output (congestion level). Results of experiments using 70% training data and 30% test data are able to obtain maximum performance, with the lowest MSE is 0.43, while the calculated travel speed results of the FCD method compared with the base flow speed (based on MKJI) is 68.22% during spare time, and 43.96% during traffic jam.
RANCANG BANGUN SISTEM PERGERAKAN LINE TRACER PADA TEMPAT SAMPAH SELF PRESSING MENGGUNAKAN PENGENDALI PID Thomi Febriyan Lukhito; Muhammad Aziz Muslim; Erni Yudaningtyas
Jurnal Mahasiswa TEUB Vol. 10 No. 2 (2022)
Publisher : Jurnal Mahasiswa TEUB

Show Abstract | Download Original | Original Source | Check in Google Scholar

Abstract

ABSTRAKSalah satu permasalahan yang sering terjadi di masyarakat adalah menumpuknya sampah. Agar dapat mengatasi masalah tersebut maka diperlukan alat yang mampu membawa dan mengantarkan sampah menuju tempat pembuangan akhir. Mobilitas yang digunakan adalah Line Tracer, salah satu jenis mobilitas, agar alat dapat bergerak sesuai dengan jalur yang disediakan. Line Tracer dilengkapi dengan motor DC dan dihubungkan ke roda omni dan pembacaan sensor menggunakan photodioda serta ditambahkan sebuah pengendali yaitu pengendali PID agar dapat mempercepat pergerakan. Penentuan parameter PID dilakukan dengan menggunakan metode Ziegler-Nichols 2 dan didapatkan nilai parameter kontroler Kp = 12, Ki = 30, Kd = 1,2. Setelah dilakukan pengujian pada sistem didapatkan nilai settling time ± 0,5 detik, variabel error tidak lebih dari 20% dan penanganan error rata-rata kurang dari 1 detik.Kata Kunci: Sampah, Pengendali PID, Line Tracer.ABSTRACTProblems that often occurs in society is the overload of pile of garbage. In order to handle this problem, some device may carry and deliver garbage to the landfill is needed. Using Line Tracer as mobility, device can move according to the provided line. The Line Tracers equipped with DC motors that connected to omni wheels, using a photodiode as a sensor that read the line and PID controller as driver so device able to speed up the movement. The determination of PID parameters was carried out using the Ziegler-Nichols 2 method as the controller parameter values were Kp = 12, Ki = 30, Kd = 1.2. After testing the system, the value of settling time is ± 0.5 seconds, the error variable is less than 20% and average error handling is less than 1 second.Key Words: Trash, PID Controller, Line Tracer.
Determination of the parameters of the firefly method for PID parameters in solar panel applications Machrus Ali; Hadi Suyono; Muhammad Aziz Muslim; Muhammad Ruswandi Djalal; Yanuar Mahfudz Safarudin; Aji Akbar Firdaus
SINERGI Vol 26, No 2 (2022)
Publisher : Universitas Mercu Buana

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.22441/sinergi.2022.2.016

Abstract

The optimal performance of solar panels is very important to produce maximum electrical energy. Solar panels can work optimally when equipped with a solar tracker. The solar panel tracker works by following the sun's movement. A Proportional, Integral, Derivative (PID) based control is used to optimize the performance of the solar tracker. An optimal tuning is needed to get the PID parameter. The Firefly method is an intelligent method that can be used to optimize PID parameters. Three Firefly Algorithm (FA) parameters are used in the program: Beta is used to determine firefly speed, Alpha is used for flexibility of movement, and Gamma is used for more complex constraints or problems. This Dual Axis photovoltaic tracking study uses the beta value determination, changing the Bêta value from 0.1 to 0.9. From the results of 10 models, it was found that the PID constant values were varied. On the horizontal Axis, the best results are if the Beta is given at 0.4, and the worst result is if the Beta is given at 0.8. On the vertical Axis, the best results are if the Beta is given at 0.3, and the worst result is if the Beta is given at 0.8. 
SISTEM PENGONTROLAN KELEMBABAN TANAH DENGAN KONTROL LOGIKA FUZZY BERBASIS ARDUINO UNO PADA PERANGKAT SMART GREENHOUSE UNTUK TANAMAN HIAS PURING Affan Affandi; Muhammad Aziz Muslim; Goegoes Dwi Nusantoro
Jurnal Mahasiswa TEUB Vol. 10 No. 6 (2022)
Publisher : Jurnal Mahasiswa TEUB

Show Abstract | Download Original | Original Source | Check in Google Scholar

Abstract

During the Covid-19 pandemic, caring for ornamental plants was one of the activities that many people liked, resulting in a drastic increase in demand for ornamental plants. However, the process of caring for plants that can bring out their uniqueness is very difficult. The puring plant (Codiaeum Variegatum) is an ornamental plant that is unique in its leaves, the puring plant grows in tropical climates, and requires sufficient water. The benefit of croton plants is that they can degrade the pollutants around them. To optimize the care of croton plants, a device is needed that can meet the water needs of croton plants. The research begins with designing device designs and control systems. Followed by assembling the prototype device and testing it according to the characteristics of the croton plant. Furthermore, data collection and analysis were carried out using the Mamdani method of fuzzy logic control. The fuzzy logic control will regulate the soil moisture needed by croton plants, with a setpoint of 30%RH which is the ideal humidity for croton plants. The test results show that the device can function according to the design that has been made.Keywords: Croton Plant, Fuzzy Logic Control, Mamdani Method, Soil moisture
RANCANG BANGUN SISTEM KONTROL SUHU PADA PERANGKAT SMART GREENHOUSE UNTUK TANAMAN PURING DENGAN FUZZY LOGIC METODE MAMDANI Mochammad Habib Anshory; Muhammad Aziz Muslim; Goegoes Dwi Nusantoro
Jurnal Mahasiswa TEUB Vol. 11 No. 1 (2023)
Publisher : Jurnal Mahasiswa TEUB

Show Abstract | Download Original | Original Source | Check in Google Scholar

Abstract

When Covid 19 Pandemic, Ornamental plant cultivation is one of favourite sector, thus the farmer of ornamental plant received so many demands cannot fulfil that. Beside of that, there are some kinds of ornamental plant which is hard to be treated. Croton is an ornamental plant which is hard to be treated, but become so famous in Indonesia recently. So a tool that can facilitate the plant is needed to make the plant grown optimally. The research started with designing the smart greenhouse’s design, then designing the hardware and software of the smart greenhouse. After the design is finished, smart greenhouse can be tested with the desired parameter. After it work properly, then carry out the sample data to analyse with the fuzzy logic mamdani method with 28°C as setpoint.Based on the test during the day, System has the output that is able to control the temperature, but it does not match with the setpoint that have been set. Beside of that, system take a long time to reach the steady state condition, which is 45 minutes and 42 seconds. But during the night, system can not work properly because there is no heating actuator in this system Keywords: Temperature, Smart Greenhouse, Fuzzy Logic, Croton
SISTEM PENGONTROLAN INTENSITAS CAHAYA PADA PERANGKAT SMART GREENHOUSE UNTUK TANAMAN HIAS PURING MENGGUNAKAN FUZZY LOGIC CONTROL DENGAN METODE MAMDANI Muhammad Akbar Kamal; Muhammad Aziz Muslim; Goegoes Dwi Nusantoro
Jurnal Mahasiswa TEUB Vol. 11 No. 2 (2023)
Publisher : Jurnal Mahasiswa TEUB

Show Abstract | Download Original | Original Source | Check in Google Scholar

Abstract

During the Covid-19 pandemic, the cultivation of ornamental plants became one of the activities that people liked a lot. That's because ornamental plants have a value of beauty and attractiveness, so they are usually used for decoration. However, the ways to care for ornamental plants are very diverse and have varying difficulties. The croton plant (Codiaeum Variegatum) is an ornamental plant that stands out on the leaves, the croton plant grows in 2 tropical climates and really needs sunlight. The benefits of the croton plant apart from being an ornamental plant, can also degrade the pollutants around it. With the aim of optimizing the cultivation of croton plants, a device is needed that is able to properly meet all the needs of croton plants. Testing begins with designing the control system and device design. Then proceed with making a prototype device and testing according to the characteristics of croton plants. Furthermore, data collection and data analysis were carried out using fuzzy logic control with the mamdani method. The fuzzy logic control will adjust the light intensity produced by the LED grow light. The setpoint in the test is 600 lux which is the ideal lighting for croton plants. The test results show that the LDR sensor used has an error of 0.08% with a reading error tolerance of ±2%. The sensor readings on each side of the smart greenhouse device can be said to be the same. The condition of the actuator in the power range of 70%-100% is bright, 50%-60% is dim and 0%-40% is off. The results of LED grow light lighting are in accordance with the setpoint. However, the system response can be said to be quite slow to reach the setpoint. The effect of implementing croton ornamental plants on a smart greenhouse device which was carried out for 14 days (2 weeks) resulted in a change in the initial plant height of 21.8 cm to 25.3 cm with a total growth of 3.5 cm and a more striking change in leaf color (redness) and therefore the device can function according to the design that has been made. Keywords: Light Intensity, Smart Greenhouse, Fuzzy Logic Control, Fuzzy Mamdani
KLASIFIKASI MUTU BUAH JAMBU KRISTAL BERDASARKAN BERAT DAN WARNA MENGGUNAKAN LOGIKA FUZZY MAMDANI Ruri Ridha Rajwari; Raden Arief Setyawan; Muhammad Aziz Muslim
Jurnal Mahasiswa TEUB Vol. 11 No. 4 (2023)
Publisher : Jurnal Mahasiswa TEUB

Show Abstract | Download Original | Original Source | Check in Google Scholar

Abstract

Crystal guava is a new guava variety that was developed in Taiwan in 1991, then developed in Indonesia in 2009 until now. The advantages of crystal guava lie in its size, taste, and color. In the commercialization of crystal guava fruit, a certain standard is used as a guarantee of crystal guava fruit quality. The quality grade of crystal guava fruit is determined based on severalparameters, including fruit weight and color. Generally, the process of sorting crystal guava fruit is done by utilizing human labor. To sort crystal guava fruit in large quantities, several workers are needed so that all crystal guava fruit can be sorted. The number of workers also affects the speed of the sorting process. In addition, although there are the same standard criteria, the sortingprocess with human labor will be more subjective according to each worker's assessment. Workers' mental and physical conditions, such as fatigue, lack of focus, or others, can affect workers' assessments. Therefore, a decision-2 making system is needed that can work consistently in determining the grade of crystal guava fruit accurately and objectively according to standard criteria with a uniform assessment point of view. In an effort to help run the crystal guava fruit sorting process, a crystal guava fruit quality classification system based on weight and color using mamdani fuzzy logic was developed. Based on the test results, it shows that the applied mamdani fuzzy logic algorithm is able to classify the quality of crystal guava fruit with an accuracy value of 96%. Keywords : Crystal Guava, Quality, Classification, Fuzzy Mamdani
DETEKSI TINGKAT KEMATANGAN BERDASARKA WARNA BUAH JAMBU KRISTAL MENGGUNAKAN IMAGE PROCESSING n/a Angellica; Raden Arief Setyawan; Muhammad Aziz Muslim
Jurnal Mahasiswa TEUB Vol. 11 No. 4 (2023)
Publisher : Jurnal Mahasiswa TEUB

Show Abstract | Download Original | Original Source | Check in Google Scholar

Abstract

Crystal guava is a new guava variety that was developed in Taiwan in 1991, then developed in Indonesia in 2009 until now. Crystal guava is unique in terms of its texture and general shape. The advantages of crystal guava lie in its size, taste, and color. Fruit ripeness is usually determined by several parameters, including textural characteristics, fruit color and aroma, and others. Color is one of the parameters in crystal guava fruit ripeness. In determining the ripeness of crystal guava fruit based on color manually with the human visual eye, it has several disadvantages. Some of them are requiring more labor to sort the fruit, the assessment of ripeness by humans which is subjective and inconsistent in the point of view of vision between one assessor and another, and mental and physical workers such as fatigue, lack of focus and others can also affect the detection of the level of ripeness of crystal guava fruit. This tool was developed in order to help detect the level of ripeness of crystal guava fruit based on color moreconsistently according to the needs of crystal guava fruit farmers and the fatigue and lack of focus of workers can be avoided. Based on the test results show that the camera used is able to detect edges with a kernel size matrix value of 21x21. The camera can also detect the color hue of crystal guava fruit with the threshold value of canny edge detection is 40 and the threshold2 value is 150. Based on the test results it can also be concluded that the system has been tested with an accuracy value of detecting the level of ripeness based on the color hue of the crystal guava fruit of 96% and has an error of 4% of 100 samples of crystal guavafruit tested. Keywords : Crystal guava, Hue, Ripeness Level, Edge detect
IDENTIFIKASI AROMA MINT BERDASARKAN FREKUENSI SINYAL SENSOR PIEZOELEKTRIK 12 CHANNEL MENGGUNAKAN CONVOLUTIONAL NEURAL NETWORK (CNN) Cahaya Trinala Kinanti; Adharul Muttaqin; Muhammad Aziz Muslim
Jurnal Mahasiswa TEUB Vol. 11 No. 5 (2023)
Publisher : Jurnal Mahasiswa TEUB

Show Abstract | Download Original | Original Source | Check in Google Scholar

Abstract

This research aims to identify mint aroma based on multisensor signal frequency using CNN-1D model. The data collected by Solih Okur at Botanical Institute of Karlsruhe Institute of Technology (KIT), Germany. There are 6 types of mint aroma and the frequency signal data is taken using piezoelectric sensors with 12 types of QCM sensors using various layering materials The data that has been obtained then goes through a pre-processing stage to remove outliers and then followed by dividing the data into training data, validation data, and test data. The training process was conducted using the Keras Tensorflow framework with a CNN-1D architecture model. There are 3 stages of testing performed, testing system modeling performance by changing architecture and parameters, testing system identification performance, and testing the system using noise data. The model with the best results was obtained with accuracy up to 98% with prediction time 2s. This finding shows that scent identification technology using multisensor and CNN-1D can identify mint aroma effectively and efficiently. Keywords: Multisensor, Convolutional Neural Network (CNN), CNN-1D, Scent Identification, Signal Identification.
Co-Authors , Muhammad Isa Indrawan A. Zaky Balya Anggara Abdul Hafis Achnafian Rafif Zufaryansyah Ade Barlian Tandiono Adharul Muttaqin Adistya, Rama Affan Affandi Agung Teguh Wibowo Almais Agus Naba Ahmad Doniarsyah Zen Ahmad Fathan Halim Ahmad Riza Abdullah Aidil Pandu Ibnu Yogiantare Akhmad Salmi Firsyari Akhmad Zaini, Akhmad Akhmad Zainuri Alebarez, Niko Ali Reza Alifantio, Frido Wahyu Alifantio, Frido Wahyu Andhyka Vireza Anindya Dwi Risdhayanti Ardiansyah, Rizky Arif Reza Dwi Kurniawan Arif, Abdul Hafid Arrosyidin, M. Ichsan Tsabbit Atmaja, Okky Wahyuardhi Avian, Cries Ayatullah, Mohamad Dimyati Bagus Fatkhurrozi Baharuddin Bambang Siswojo Bambang Siswojo Bambang Siswojo Bambang Siswojo Cahaya Trinala Kinanti Cahyaningrum, Dwi Candra Sabdana Nugroho Chaidir Iswanaji Ciptaningrum, Mega Satya Danang Aditya Nugraha Danang Indra Permana Davin Wirawan Saputra Dicacara, Marina Didik R. Santoso Dimas Budi Prasetyo Dimas Wahyu Wibowo Dion Putra Pribadi Dominico Savio Ken Rama Adityo Donni Frans Pasman, Donni Frans Dwi Mukti Bagus Wijayanto Edi Kurniawan Edward, Ronald Erni Yudaningtyas Erni Yudaningtyas F., Ahmad Salmi Faizal Beni Akbar Faridzky Adhi Baskara Fikri Abdillah Fiqih, Muhammad Amir Firda Ardyani Firdaus, Aji Akbar Firdaus, Reza Kemal Firdausi, Reza Firman Nursaniansyah Frans W. P. Napitupulu Frido Wahyu Alifantio Gerdy Pranaya Alfinal Hasni Ghozal Prihandoko Gladi Buana Goegoes Dwi Nusantoro Goegoes Dwi Nusantoro Goegoes Dwi Nusantoro Gumilang Saptha Pamega Gunawan Wibisono Hadi Suyono Hadi Suyono Hanafi, Syafiq Mahmadah Hari Santoso Hari Santoso Haris Setyawan Harry Soekotjo Dachlan Harsanto, Naufal Zuhdi Hartono, Rafendra Ariwardana Haryoko, Andy Herman Tolle Hidayah, Muslihatul Hikmah Endraswati, Hikmah Ibtihal, Moch Fahulul Ika Kustanti Intan Febriana Ira Ningrum Resmawa, Ira Ningrum Irtania Mariska Arafanie Isa Indrawan, Muhammad Izzahilmanisa, n/a Julianto, Yogi Raditya Kamila, Farahdina Intan KATNI KATNI, KATNI Khanza, Aryaputra Pandya Kriswandana, Basyuni Kukuh Nur Aji Lalu Irjan Atmanegara Luga Felix M Fariz Fauzi M. Rony Hidayatullah Machrus Ali Mahameru Bayu Bajra Marhumah Marhumah Maulana, Eka Mega Satya Ciptaningrum Meilan Sarbaini Siregar Melis Melis, Melis Moch Dhofir, Moch Moch. Hannats Hanafi Ichsan Moch. Rusli Mochamad Adityo Rachmadi Mochammad Habib Anshory Moechammad Sarosa Mohammad Mufti Fajar Mokhammad Hasyim Asy'ari Muamar Syahidan Mudjirahardjo, Panca Muhamad Ameer Hakim Muhammad Akbar Kamal Muhammad Aswin Muhammad Dzikrullah Suratin, Muhammad Dzikrullah Muhammad Fadhil Rajabi Muhammad Fahmi Illmi Muhammad Furqan, Muhammad Muhammad Ghazaly Silveraldi Firdaus Muhammad Hanif Murtadlo Muhammad Izaaz Rozan Muhammad Khudori Muhammad Muqorrobin Muhammad Praditya Romansyah Muhammad Rinaldy Dwi Putra Muhammad Rizki Setiawan Muhammad Rony Hidayatullah Muhammad Ruswandi Djalal Muhammad Shidqi Barin Muhammad Xavier Yusa Raffyan Zachary Muhammad Yudi Prawira Muhammad, Fadhil Mukotip Mulia, Anandar Muthi, Ibnu Mutolifi, Agus N., Goegoes Dwi n/a Angellica n/a Purwanto n/a Retnowati Nabil Fauzan Nagara, Alun Darma Najib Kailani Nanang Sulistiyanto Nugraha, Danang Aditya Nur Hasanah, Rini Nur Sabilillah, Muhammad Rifqi Nurwati, Tri Nusantoro, Goegoes Dwi Panji Peksi Branjangan Permatasari, Alissa Dyah Ayu Persada, Tachta Pandu Prastyowati, Ratna Pribadi, Dion Putra Purwanto Purwanto Putra, Muhammad Aidil Putri, Dian Wahyuni Karna R., Akhbar Prachaessardhi Raden Arief Setyawan Raditya Wiradhana Rahmadwati Rahmadwati Rahmadwati Rahmadwati, n/a Rahmadwati, n/a Rahman, Alif Rasyadan Izzatur Rahmat Ardiansyah Ramadhan, Muchamad Rizal Ramadhan, Rizal Furqan Ramadhan, Valdy Fajri Ramli, Isni Radifa Rezki El Arif Ridho Herasmara Rif'an, Mochammad Rini Nur Hasanah Riyan Hidayatullah Riza Aliyan, Lalu Rochmanto, Raditya Artha Rofi’i, Hammam ROHMAN, ANGGORO DWI NUR Rohman, Muhammad Ariefur Rohmatillah, Mahdin Rosyada, Syeilla Amrina Rudito Prayogo Ruri Ridha Rajwari Rusli, Mochammad Sahiron, Sahiron Saputra, Achmad Dwi Saragih, Jhosua Capricorn Septianzah, Kevin Shamsul Hadi Shanty Puspitasari Shiang-Hwua Yu Sidik Nurcahyo Siswojo, Bambang SITI DRIVOKA SULISTYANINGRUM Siti Fatimatus Zahro Sri Sumarni Subono, Subono Sudianto, Achmad Imam Surawan, Surawan Syafriyadi Nor Syahroni Wahyu Iriananda, Syahroni Wahyu Syam, Abdul Rahman Teuku M. Faikar Firaz Thomi Febriyan Lukhito Tri Nurwati Vajri, Mohammad Vaavan Vicky Pramana Putra Wahyu Gusti Habibi Waru Djuriatno Waskita, Reza Indera Wia Siisgo Alnakulla Wijono Wijono Yana, Ade Amruchly Yanuar Mahfudz Safarudin Yudaingtyas, Erni Yudha Nur Wahyu Darmawan Yudo Jati Wicaksono Yuliani, Niniek Yunadi, Ahmad Yusril Fatahilmi Yusron Nur Aziz Yusuf, Syaifulloh Zainuddin, Nurkhamimi Zainul Abidin Zartika, Putri Ayu Zuhair, Alvin