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All Journal POSITRON TELKOMNIKA (Telecommunication Computing Electronics and Control) Journal of ICT Research and Applications ELKOMIKA: Jurnal Teknik Energi Elektrik, Teknik Telekomunikasi, & Teknik Elektronika JETT (Jurnal Elektro dan Telekomunikasi Terapan) TEKTRIKA - Jurnal Penelitian dan Pengembangan Telekomunikasi, Kendali, Komputer, Elektrik, dan Elektronika IJAIT (International Journal of Applied Information Technology) JMECS (Journal of Measurements, Electronics, Communications, and Systems) Charity : Jurnal Pengabdian Masyarakat Prosiding Konferensi Nasional PKM-CSR eProceedings of Engineering Jurnal INFOTEL Buletin Pos dan Telekomunikasi
Rina Pudji Astuti
Universitas Telkom
Arts Humanities 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 Materials Science & Nanotechnology Nursing Physics Public Health Social Sciences

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Sistem Pengendalian Dan Pengarahan Antena Bts Untuk Sistem Komunikasi Pemantau Sungai Citarum Aldo Alessandro Tukat; Rina Pudji Astuti; Trasma Yunita
eProceedings of Engineering Vol 8, No 2 (2021): April 2021
Publisher : eProceedings of Engineering

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Abstrak Perangkat monitoring kualitas air sungai citarum membutuhkan sistem pengiriman data secara real-time. Kecocokan arah pancaran antara antena di BTS dengan antena di perangkat monitoring sangat perlu diperhatikan, khususnya antena yang memiliki pola pancaran directional, karena penyimpangan arah pancaran antara antena TX dengan RX dapat mengakibatkan level daya terima sinyal tidak optimal dan berpengaruh ke kinerja pengiriman data real-time. Untuk mengatasi penyimpangan arah pancaran antara antena di BTS dengan antena di perangkat monitoring, maka pada antena penerima dirancang sebuah sistem pengarahan antena secara otomatis. Dengan menentukan koordinat letak objek dan ketinggian yang ingin di tracking menggunakan bantuan sensor GPS U-blox NEO-6M dan BMP 180. Kemudian setelah menentukan koordinat objek, proses selanjutnya meneruskan data latitude, longitude dan altitude yang didapat dari sensor GPS dan BMP 180 ke mikrokontroler dan akan diolah, lalu stasiun kontrol menginstruksikan penggerak untuk mencari sudut polarisasi sesuai data yang telah diterima. Hasil yang didapatkan dari pengujian sistem pengendalian dan pengarahan antena pada BTS ini menunjukan pengolahan data dari longitude, latitude dan altitude berhasil dikonversi menjadi output azimut. Blok kendali pengarahan antena berhasil melakukan tracking setiap blok Mobile Monitoring Device berpindah jarak dan koordinat posisi dengan error sudut sebesar 13.80 atau 7.6% dan jarak maksimal komunikasi antara perangkat monitoring mobile dengan kendali pengarahan antena sejauh 70 meter. Kata Kunci: Citarum, Monitoring, Real-time, BTS, Antena, Tracking Abstrak The monitoring instrument for Citarum river water quality requires a real-time data transmission system. It is important to pay attention to the compatibility of the beam direction between BTS antenna and monitoring device antenna, especially antennas with directional beam pattern. It is underlined that the deviation of the beam direction between TX and RX antennas can lead to suboptimal signal reception power levels and affect real-time data transmission performance. To overcome the deviation of beam direction between BTS antenna and monitoring device antenna, in the receiving antenna an automatic antenna alignment system is designed. It can be done by determining the coordinates of object location and the altitude of tracking using sensors of GPS U-blox NEO-6M and BMP 180. After determining the object coordinates, the next process is to forward the latitude, longitude, and altitude to the microcontroller to be processed. Then, the control station instructs moving system to find the polarization angle based on the available data. The results obtained from testing done on the controlsystem and direction of BTS antenna showed that data in from longitude, latitude and altitude have been succesfully converted into azimuth and distance outputs. The antenna alignment control block succesfully succesfully tracked every block of Mobile Monitoring Device change in distance and coordinates with an angle error of 13.80 or 7.6%. In addition, the maximum communication distance between Mobile Monitoring Device and the antenna alignment control was 70 meters. Keyword : Citarum, Alignment, Monitoring, Real-time, BTS, Antenna, Tracking
Analisis Perancangan Jaringan Backhaul Serat Optik Untuk Layanan Komunikasi Lte Penumpang Kereta Cepat Jakarta-surabaya Sub Pekalongan-cepu Joses Steven Tarigan; Erna Sri Sugesti; Rina Pudji Astuti
eProceedings of Engineering Vol 9, No 2 (2022): April 2022
Publisher : eProceedings of Engineering

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Abstrak Kereta api merupakan salah satu moda transpotasi massal yang sangat digemari masyarakat daripada transportasi lainnya karena biaya yang relatif murah, nyaman dan sesuai waktu. Oleh sebab itu, Indonesia akan membangun sarana transportasi kereta cepat pada rute Jakarta – Surabaya dengan kecepatan 140 km/jam pada frekuensi 900 Mhz. Pada teknologi backbone optik dapat digunakan pada SDH (Synchronous Digital Hierarchy) STM-64 DWDM (Dense Wavelength Division Multiplexing), teknologi jaringan akses menggunakan XG-PON, dan teknologi core network LTE (Long Term Evolution) menggunakan EPC. Rancangan yang dibuat berupa dengan parameter delay, power link budget, Q-factor, rise-time, SNR, DAN BER dengan ketentuan standar ITU-T G.987, ITU-T G696.1 DAN 3GPP TS23.203. Parameter delay pada link terjauh downstream yaitu 2,12274208 ms, sedangkan pada sisi upstream 2,12271064 ms. Parameter terendah LPB pada sisi dowstream bernilai -24,421 dBm, Q-factor 5,8221, BER 2,99 x 10-9 , dan RTB 0,046097796 ns. Nilai parameter terendah pada link akses upstream LPB -24,896 dBm, Q-factor 5,669152517, BER 7,39 x 10-9 dan RTB 0,046097843 ns. Pada sisi backbone nilai terendah LPB -26,09, Q-factor 6,425875721, BER 6,71 x 10-11, dan RTB 0,046098000 ns. Kata Kunci: Backhaul, LTE (Long Term Evolution), XGPON (10-Gigabit Passive Optical Network), STM-64 Abstract The train is one of the most popular public transportation than other transportation. because the costs are relatively cheap, convenient and timely. Therefore, Indonesia will build fast train transportation facility on the Jakarta - Surabaya route with a speed of 140 km/hour at a frequency of 900 MHz. Optical backbone technology can be used in Synchronous Digital Hierarchy (SDH) STM-64 Dense Wavelength Division Multiplexing (DWDM), access network technology using XG-PON and LTE (Long Term Evolution) core network technology using EPC. The design is made with parameters delay, power link budget, Q-factor, rise-time, SNR, AND BER with standard provisions of ITU-T G.987, ITU-T G696.1 AND 3GPP TS23,203. Delay parameter on the farthest downstream link which is ISSN : 2355-9365 e-Proceeding of Engineering : Vol.9, No.2 April 2022 | Page 331 2.12274208 ms, while on upstream side is 2.12271064 ms. The lowest parameter of LPB on dowstream side is -24,421 dBm, Q-factor 5.8221, BER 2.99 x 10-9, and RTB 0.046097796 ns. The lowest parameter value on LPB upstream access link is -24,896 dBm, Q-factor 5.669152517, BER 7.39 x 10-9 and RTB 0.046097843 ns. On the backbone side, the lowest value is LPB -26.09, Q-factor 6.425875721, BER 6.71 x 10-11, and RTB 0.046098000 ns. Keywords: Backhaul, LTE (Long Term Evolution), XGPON (10-Gigabit Passive Optical Network), STM64
Sistem Antena Pemancar Multiple Input Miltiple Output (MIMO) 2x2 Dengan 2 Elemen Array Untuk Base Tranceiver Station (BTS) Sistem Pemantau Sungai Citarum Pada Industrial, Scientific, And Medical (ISM) Band 5725-5875 Mhz Adnan Adzhani; Rina Pudji Astuti; Trasma Yunita
eProceedings of Engineering Vol 9, No 6 (2022): Desember 2022
Publisher : eProceedings of Engineering

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Abstrak—Perangkat monitoring BTS sungai Citarum memerlukan sistem transmisi yang bisa mengirimkan data secara real time. Oleh karena itu dibutuhkan sistem antena yang mampu mengakomodasikan persyaratan tersebut. Untuk meningkatkan kinerja dari antena salah satunya dengan menggunakan teknik MIMO. Teknik MIMO menggunakan lebih dari satu antena baik disisi pemancar mauupun disisi penerima. Antena mikrostrip memiliki beberapa kelebihan, antara lain memiliki harga yang relatif murah untuk biaya fabrikasinya, ukurannya relatif kecil, dan hampir mampu bekerja disemua frekuensi kerja karena memiliki frekuensi yang fleksibel, menggunakan ISM Band yang bekerja pada rentang frekuensi 5725 MHz sampai 5875 MHz. Pada penelitian ini Sistem Antena Pemancar MIMO 2x2 dengan 2 elemen array patch rectangular dengan arah orientasi antena 90° (Posisi 2) yang paling sesuai dengan spesifikasi yang diinginkan dengan menghasilkan VSWR 1,0858 yang bekerja pada rentang frekuensi 5,669-5,979 GHz, bandwidth 310 MHz, dan gain 5,931 dB. Pola radiasi yang dihasilkan adalah unidirectional dan polarisasi yang dihasilkan adalah elips. Kata Kunci— MIMO, Array, Gain, Bandwidth, Polarisasi, Pola Radiasi
Sistem Antena Pemancar Mimo (2×8) Menggunakan Multi Substrat 3 Layer Dan Reflektor Pada Frekuensi 3,5 Ghz Untuk Komunikasi 5g Emerson Gabariel Ambarita; Rina Pudji Astuti; Trasma Yunita
eProceedings of Engineering Vol 8, No 2 (2021): April 2021
Publisher : eProceedings of Engineering

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Abstrak Perkembangan teknologi sistem komunikasi yang semakin meningkat setiap tahunnya memicu semakin tingginya permintaan kecepatan akses internet. Teknologi yang mampu memberikan layanan internet dengan kecepatan tinggi dan mencakup semua wilayah yaitu teknologi 5G(fifth generation). Teknologi 5G memiliki kelebihan seperti data rate yang tinggi, bandwidth yang lebar, mengurangi latency, meningkatkan kapasitas kanal dan lebih hemat energi. Antena yang digunakan dalam teknologi 5G menggunakan sistem MIMO(Multiple Input Multiple Output). Sistem MIMO berfungsi mengurangi pemantulan dan scattering gelombang serta untuk menaikkan kapasitas kanal dengan menggunakan lebih dari satu antena di penerima dan pengirim.Pada Tugas Akhir ini dilakukan perancangan antena massive MIMO di sisi pemancar dengan susunan 2x8 16 elemen yang menggunakan frekuensi 3,5 GHz. Bentuk patch yang dipilih yaitu bentuk circular . Bahan yang digunakan untuk lapisan substrat yaitu FR-4 dengan permitivitas dielektrik 4,3 dan ketebalan 1.6 mm serta bahan untuk lapisan groundplane, patch dan feedline yaitu tembaga (copper). Teknik pencatuan yang digunakan catuan microstrip linefeed.Metode yang digunakan dalam perancangan antena antara lain multi substrat 3 layer untuk meningkatkan bandwidth dan reflektor untuk meningkatkan gain.Hasil yang didapatkan adalah antena yang memiliki nilai VSWR ≤1,5 dengan polaradiasi unidireksional dengan gain ≥ 6,5 dB, bandwidth ≥ 100 MHz dan mutual coupling ≤-20 dB. Kata kunci : antena, MIMO, 5G ,gain,bandwidth, mutual coupling Abstract The development of technology communication system is increasing every year triggers the increasing high demand of speed internet access. The technology that can provide internet services at high speed and cover all the areas, namely 5G technology(fifth generation). 5G technology has the advantages such as high data rate, wide bandwidth, reducing latency, increasing channel capacity and more energy efficient. In this research done by designing the antenna MIMO at the transmitter side with the arrangement of the 2x8 16 elements using a frequency of 3.5 GHz. The shape of the patch using shape circular . The material chosen for the substrate layer that is FR-4 with dielectric permittivity 4.3 and thickness of 1.6 mm and the material for the layer groundplane, the patch and the feedline, i.e. copper (copper). Feeding techniques used ration microstrip linefeed.The methods used in the design of the antenna between the other multisubstrate 3 of the layer to improve the bandwidth and the reflector to increase the gain. The results obtained are an antenna that has a VSWR value of ≤1.5 with unidirectional polarity with a gain of ≥ 6.5 dB, bandwidth ≥ 100 MHz and mutual coupling ≤-20 dB. Keyword : antenna, MIMO, 5G, gain, bandwidth,mutual coupling
Analisis Penerapan Teknik AMC dan AMS Untuk Peningkatan Kapasitas Kanal Sistem MIMO-SOFDMA Nur Andini; Rina Pudji Astuti; A. Ali Muayyadi
JURNAL INFOTEL Vol 9 No 2 (2017): May 2017
Publisher : LPPM INSTITUT TEKNOLOGI TELKOM PURWOKERTO

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.20895/infotel.v9i2.186

Abstract

Kapasitas kanal adalah parameter penting sistem komunikasi nirkabel. Suatu sistem komunikasi diharapkan mampu menyediakan kapasitas kanal yang tinggi. Sistem dengan Multipe Input Multiple Output (MIMO) antenna mampu menyediakan kapasitas kanal yang tinggi. Pada penelitian ini, kinerja sistem MIMO diamati dengan penerapan Scalable Orthogonal Frequency Division Multiple Access (SOFDMA). Teknik Adaptive Modulation and Coding (AMC) serta Adaptive MIMO Switching (AMS) juga diterapkan pada sistem ini. Jumlah subcarrier yang digunakan dalam SOFDMA tersebut yaitu 128 dan 2048. Kinerja sistem yang diamati yaitu kapasitas kanal dengan variasi kecepatan pengguna. Variasi pergerakan pengguna meliputi 0 km/jam dan 120 km/jam. Kapasitas kanal sistem dengan kombinasi teknik AMC dan AMS dapat mencapai 419,5115 Mbps saat kecepatan pengguna sebesar 0 km/jam. Saat kecepatan pengguna sebesar 120 km/jam, kapasitas kanal sistem dapat mencapai 23,9820 Mbps
Optimum polarization configuration of planar circular patch MIMO antenna Rina Pudji Astuti; Eva Lucky Wijaya; Trasma Yunita; Harfan Hian Ryanu
JURNAL INFOTEL Vol 14 No 1 (2022): February 2022
Publisher : LPPM INSTITUT TEKNOLOGI TELKOM PURWOKERTO

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.20895/infotel.v14i1.748

Abstract

Multiple Input Multiple Output (MIMO) is a key technology that plays an important role in achieving the 5G requirement due to its capability to increase channel capacity. However, the increase of channel capacity is influenced by several aspects such as mutual coupling. Many methods are done to decrease the mutual coupling effect such as polarization arrangement of the MIMO antennas. This study on the polarization arrangement of a circular patch MIMO antenna at 3.5 GHz was performed. Four elements of the MIMO antenna are arranged with several polarization configurations both in Co-Polarization and Cross-Polarization. Both simulation and measurement results showed that MIMO with Co-Polarization has a slightly wider bandwidth equal to 295.25 MHz compared to Cross-Polarization with a bandwidth of 274.63 MHz, due to better return loss performed by the former. However, from the mutual coupling perspective, it is observed that MIMO with Cross-Polarization can reduce the mutual coupling from -17.6676dB into -22.462 dB compared to Co-Polarization with the same element distance.
Vegetation classification algorithm using convolutional neural network ResNet50 for vegetation mapping in Bandung district area Rina Pudji Astuti; Ema Rachmawati; Edwar Edwar; Simon Siregar; Indra Lukmana Sardi; Arfianto Fahmi; Yayan Agustian; Agus Cahya Ananda Yoga Putra; Faishal Daffa
JURNAL INFOTEL Vol 14 No 2 (2022): May 2022
Publisher : LPPM INSTITUT TEKNOLOGI TELKOM PURWOKERTO

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.20895/infotel.v14i2.756

Abstract

Bandung District is one of crop provider for West Java Province. About 31.158,22 ha is used for crop. However, some of them are not maintained well due to lack of vegetation map information. Local authority has tried to map the vegetation in their area by using free license satellite images, and aerial images from Unmanned Aerial Vehicle (UAV). Despite both images being able to provide large plantation area images, both are unable to classify the vegetation type in those images. Telkom University with Bandung Agriculture Regional Office (Dinas Pertanian Kabupaten Bandung) has conducted joint research to develop algorithm based on 50-layer residual neural network (ResNet50) to classify the vegetation type. The input is of this algorithm is primarily aerial images are captured from different type, height, and position of crops. Seven different ResNet50 configurations have been set and simulated to classify the crop images. The result is the configuration with resized images, employing triangular policy of cyclic learning rate with rate 1.10−7 – 1.10−4 comes out as the best setup with more than 95% accuracy and relatively low loss.
Bahasa Inggirs Salwa Salsabila; Rina Pudjiastuti; Levy Olivia Nur; Harfan Hian Ryanu; Bambang Setia Nugroho
JURNAL INFOTEL Vol 15 No 3 (2023): August 2023
Publisher : LPPM INSTITUT TEKNOLOGI TELKOM PURWOKERTO

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.20895/infotel.v15i3.962

Abstract

Massive MIMO Antenna Design results in a very large antenna size that hinders the design process. The arrangement of Massive MIMO Antennas which consists of many antenna elements is a challenge in the design process due to the limited capability of the simulation software and the complicated process. Thus, a scalability technique is used to predict the specification results produced by a Massive MIMO Antenna array with a certain configuration based on a simple MIMO Antenna array with a 2x2, 4x4, 8x8, 16x16 MIMO element configuration scheme, etc. exponential increments. This research will discuss the scaling process to predict the specifications of a Massive MIMO Antenna array. The designed MIMO antenna arrangement is based on the design of a rectangular antenna with a truncated corner and a circular antenna with an X slot for further design with various types of configurations that work at a frequency of 3.5 GHz.
Performance Analysis of Multiple Input Multiple Output (MIMO) Multi-Carrier Code-Division Multiple Access (MC-CDMA) Combined with Quasi-Orthogonal Space Time Block Coding (QO-STBC) in Rayleigh Fading Channel Kusumawardhani, Eka; Astuti, Rina Pudji; Adriansyah, Nachwan Mufti; Imansyah, Fitri; Putra, Leonardus Sandy Ade
POSITRON Vol 12, No 2 (2022): Vol. 12 No. 2 Edition
Publisher : Fakultas Matematika dan Ilmu Pengetahuan Alam, Univetsitas Tanjungpura

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (388.996 KB) | DOI: 10.26418/positron.v12i2.46613

Abstract

The need for a communication system with a higher data rate and mobility grows along with information and communication technology development. Combining MC-CDMA with the MIMO system and supporting the system with a good transmit diversity technique is a promising idea to provide the needed communication system, especially in high mobility conditions. MC-CDMA can support ubiquitous communications without affecting the achievable BER and is more capable of high-speed mobility. It integrates the benefit of both OFDM and CDMA. On the other hand, QO-STBC increases the bit rate without using additional bandwidth to transmit diversity in the MIMO system. So, this study proposed a system combining the MIMO MC-CDMA system with QO-STBC. The proposed system is investigated under high mobility conditions to see the system's performance. The simulation results show that our system performs better than the MC-CDMA STBC system and the QOSTBC system but not better than the MC-CDMA multilevel coding scheme. To reach the value of BER 10−3, MC-CDMA multilevel Coding requires less power, around 5 dB, than the proposed system.
Indonesia 5G Channel Model Under Foliage Effect Khoirul Anwar; Evander Christy; Rina Pudji Astuti
Buletin Pos dan Telekomunikasi Vol. 17 No. 2 (2019): Desember 2019
Publisher : Centre for Research and Development on Resources, Equipment, and Operations of Posts and I

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.17933/bpostel.2019.170201

Abstract

Abstract The performance of communications is determined by the channel, therefore knowledge of channel model of a country is important. This paper proposes (i) the fifth telecommunication generation (5G) Indonesia channel model and (ii) a framework to derive the channel model of any locations in Indonesia. We consider operating frequency of 3.3 GHz with bandwidth of 40 MHz with real-field parameters of several cities in Indonesia. We also present a theoretical outage performance evaluated for the proposed Indonesia 5G channel model validated by block error rate (BLER) performances of cyclic-prefix orthogonal frequency division multiplexing (CP-OFDM) numerology zero with 5G complex binary phase shift keying (C-BPSK) and Polar coding scheme. Sub-optimal Polar codes are used in this research, where better performances are expected in the future. We found that the Indonesia 5G channel model has 17 paths for the case of without foliage effect and has less than 15 paths for the case of with foliage effect. The results show that foliage attenuation causes performance degradations indicated by smaller number of paths and worse theoretical outage performances. The obtained outage performances from the proposed Indonesia 5G channel model in this paper are expected to be a reference for 5G implementations in Indonesia. Abstrak Kinerja sistem komunikasi ditentukan oleh kanal, sehingga pengetahuan model kanal suatu negara menjadi penting. Makalah ini mengusulkan (i) model kanal telekomunikasi generasi ke-lima (5G) Indonesia dan (ii) kerangka kerja untuk menghitung model kanal di lokasi lain di Indonesia. Model kanal dalam makalah ini diciptakan untuk bandwidth 40 MHz pada frekuensi 3,3 GHz dengan parameter riil lapangan. Makalah ini juga menampilkan teori outage performance yang diperoleh dari model kanal 5G Indonesia, kemudian memvalidasi teori outage performance tersebut menggunakan block error rate (BLER) pada cyclic-prefix orthogonal frequency division multiplexing (CP-OFDM) numerology zero dengan complex binary phase shift keying (C-BPSK) standard 5G dan Polar coding. Semua hasil numerik diperoleh dari simulasi komputer menggunakan parameter riil lapangan untuk alam Indonesia. Makalah ini menemukan bahwa kanal 5G Indonesia dapat dimodelkan power delay profile (PDP) dengan 17 path untuk kanal tanpa efek dedaunan dan kurang dari 15 path untuk kanal dengan dedaunan. Hasil tersebut menunjukkan bahwa redaman daun menyebabkan penurunan kinerja, yang ditandai dengan penurunan jumlah path dan memburuknya outage performance. Kurva outage performance yang diperoleh dari model kanal 5G Indonesia diharapkan menjadi referensi untuk implementasi sistem 5G di Indonesia dalam pengembangan 5G di Indonesia secara optimal, terutama untuk lokasi yang memiliki dedaunan lebat.
Co-Authors A. Ali Muayyadi A. Ali Muayyadi Adit Kurniawan Adnan Adzhani Afief Dias Pambudi Agus Cahya Ananda Yoga Putra Agus Pratondo Ahmad Ardianto Ahmad Hambali, Ahmad Aldo Alessandro Tukat Alfrina Dyah Purnamasari Ali Muayyadi Aloysius Adya Pramudita Anastasia Clara Andriyan B. Suksmono Annisa , Nurul Arfianto Fahmi Argymnasthiar Ramadhana Balthazar Isra Bambang Setia Nugroh Bambang Setia Nugroho Bayu Aziz Jayawardana Bhaskara Narottama Brian Pamukti Budi Prasetya Budi Prasetya Budi Syihabuddin Citra Dewi Anggraeni Dadang Gunawan Denny Darlis Desti Madya Saputri Dharu Arseno DHONI PUTRA SETIAWAN Dwiyanto Dwiyanto, Dwiyanto Dziqru Akbar Edwar EDWAR EDWAR Ema Rachmawati Emerson Gabariel Ambarita Endah Setyowati Erna Sri Sugesti Ersyach Irham Sunny Eva Lucky Wijaya Evander Christy Faishal Daffa Fitri Imansyah Furry Rachmawati Gasi Dhias Hafizha, Syahna Harfan Hian Ryanu Herlina, Lisye Hurianti Vidyaningtyas Indra Lukmana Sardi Jamal, Muh. Arham Joses Steven Tarigan Kevin, Raymondus Khoirul Anwar Kurniadi, Akhdan Kurniawan Nur Ramdhani Kusuma, Muhamad Mardanu Kusumawardhani, Eka Levy Olivia Nur Linda Meylani Luh Putu Ayu Sri Aryaningrum Lurina, Manda Manda Lurina Masna, Haris Azmil Maulani, Azka Muhamad Asvial Muhamad Mardanu Kusuma Muhammad Yaser Nabila Amalia Azzahra Nachwan Mufti Adriansyah Nanda Aldira Fakhri Ni'Matul 'Abdah Adhiya Fakhriy Nia Soniyanti Nina Karlina Nur Andini Obed Rhesa Ludwiniananda Pakpahan, Yolanda Jessica Patricius Evander Christy Predarico, Boby Putra, Leonardus Sandy Ade Raihan Santoso Rayhan Nauvaldi Rheza Rivaldi Hi Hukum Rifky, Muhammad Rizal, Mochammad Fahru Rizky Lazardy Sina Rizwan Jufri Nst Saddam Nusantara Sukoco Salwa Salsabila Sandria Abhiseka Simon Siregar Siren Seven Sugihartono Sugihartono Sugondo Hadiyoso Sutari, Wiyono Syahfwan A , Andi Muh Tomy Irawan Uke Kurniawan Usman Yaumil Chairiani Yayan Agustian Yoga Julian Yoga Sukma Mahendra Yudi Tri Jayadi YUNITA, TRASMA Yusuf Sugiyarto YUYUN SITI ROHMAH