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All Journal International Journal of Electrical and Computer Engineering Jurnal EECCIS Sistemasi: Jurnal Sistem Informasi Civil Engineering Journal Jurnal Teknik Elektro dan Komputer TRIAC Jambura Journal of Electrical and Electronics Engineering BERNAS: Jurnal Pengabdian Kepada Masyarakat Jurnal Sibermas (Sinergi Pemberdayaan Masyarakat) Indonesian Journal of Science, Technology, and Humanities Jurnal Pengabdian Pada Masyarakat Eldimas Journal Of Renewable Energy Engineering IPSSJ
Wahab Musa
Universitas Negeri Gorontalo
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Penerapan Absensi Siswa Berbasis Web Menggunakan Teknologi RFID (Radio Frequency Identification) di SMK 1 Kaidipang Kabupaten Bolaang Mongondow Utara Tansa, Salmawaty; Tolago, Ade Irawaty; Dako, Rahmat Deddy; Bonok, Zainudin; Asmara, Bambang Panji; Musa, Wahab; Salim, Sardi; Wiranto, Ifan
ELDIMAS: Jurnal Pengabdian Pada Masyarakat Vol 2 No 1 (2024): Mei - Oktober 2024
Publisher : Electrical Engineering Department Faculty of Engineering State University of Gorontalo

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.37905/ejppm.v2i1.16

Abstract

Kegiatan pengabdian masyarakat Fakultas Teknik diarahkan untuk mendukung ketercapaian indikator kinerja utama (IKU) Perguruan Tinggi. Setiap program studi dapat berinovasi untuk mengintegrasikan kegiatan pengabdian masyarakat yang akan dikonversi dengan mata kuliah yang pada kurikulum program studi. Penetapan mata kuliah yang akan dikonversikan mengacu pada Pedoman Kurikulum Universitas Negeri Gorontalo. Berdasarkan hal ini, kami mengajukan usulan kegiatan pengabdian kepada masyarakat di SMKN 1 Kaidipang Kabupaten Bolaang Mongondow Utara. Tujuan Pengabdian ini adalah untuk memberikan sosialisai penerapan absensi berbasis website menggunakan teknologi RFID (Radio Frequency Identification) kepada guru-guru wali kelas dan guru-guru mata pelajaran untuk menggantikan sistem absensi konvensional yang banyak memakan waktu dan tidak efisien. Metode kegiatan Pengabdian Masyarakat menggunakan metode sosialisasi dan demonstrasi. Langkah-langkah kegiatan adalah sosialisasi bagaimana penerapan aplikasi absensi berbasis website menggunakan teknologi RFID dan dilanjutkan dengan demonstrasi perangkat dan website kepada guru-guru di SMKN 1 Kaidipang
Rancang Bangun Sistem Pemberi Pakan Otomatis Pada Udang Vaname Berbasis Internet of Things (IoT) Menggunakan Esp8266 Firman Pakaya; Ifan Wiranto; Iskandar Z. Nasibu; Wahab Musa; Syahrir Abdussamad; Salmawaty Tansa
Indonesian Journal of Science, Technology and Humanities Vol. 3 No. 1 (2025): IJSTECH - June 2025
Publisher : PT. INOVASI TEKNOLOGI KOMPUTER

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.60076/ijstech.v3i1.1320

Abstract

Pemberian pakan dalam budidaya udang sangat penting untuk diperhatikan guna memperoleh hasil yang maksimal. Dengan perkembangan teknologi yang semakin pesat, pengembangan alat otomatis pemberi pakan pada udang mempermudah proses pemberian pakan dan mengurangi ketergantungan pada pemberian pakan secara manual. Penelitian ini bertujuan untuk merancang dan mengimplementasikan sistem pemberi pakan otomatis pada udang vaname berbasis Internet of Things (IoT) menggunakan ESP8266. Sistem ini tidak hanya mampu memberikan pakan secara otomatis, tetapi juga memonitor jumlah pakan yang tersedia dan mengatur waktu pemberian pakan secara real-time. Metode penelitian yang digunakan adalah metode eksperimen, dengan fokus pada perancangan perangkat keras dan integrasi perangkat lunak. Sistem terdiri dari beberapa komponen utama, seperti ESP8266 sebagai pusat kendali, sensor ultrasonik untuk mendeteksi jumlah pakan, motor servo sebagai pengatur katup pakan, RTC-DS3231 sebagai penentu waktu, relay, motor DC775 sebagai pelontar pakan, dan LCD sebagai media tampilan. Aplikasi Telegram digunakan untuk memantau dan mengontrol sistem secara jarak jauh. Hasil pengujian menunjukkan bahwa alat yang dirancang berfungsi dengan baik, mampu memberikan notifikasi jumlah sisa pakan serta waktu pemberian pakan secara otomatis melalui Telegram. Sistem ini memberikan efisiensi dalam proses pemberian pakan udang, serta kemudahan dalam pengawasan jarak jauh bagi petambak.
Design of Dual-Axis Sunflower Type Solar Tracker to Improve Solar Panel Efficiency Iti, Mohammad Rifki; Asmara, Bambang Panji; Abdussamad, Syahrir; Musa, Wahab; Bonok, Zainudin; Nadifa, Ulfatun
Jambura Journal of Electrical and Electronics Engineering Vol 7, No 2 (2025): Juli - Desember 2025
Publisher : Electrical Engineering Department Faculty of Engineering State University of Gorontalo

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.37905/jjeee.v7i2.31980

Abstract

This study aims to design and test a sunflower-type solar tracker system based on light sensors to improve energy conversion efficiency in solar panels. This system uses four LDR sensors and two servo motors controlled by a microcontroller to automatically direct the panel following the movement of the sun throughout the day. The research method used is an engineering experiment, which includes literature studies, design, implementation, and system testing in sunny and cloudy weather conditions. The test results show that in sunny conditions, the tracker system produces 15.60 Wh of energy, while the static panel is only 5.81 Wh. In cloudy conditions, the energy produced by the tracker system decreases to 0.68 Wh (a decrease of 95.61%), while the static panel only produces 0.047 Wh (a decrease of 99.19%). Overall, the tracker system shows an increase in efficiency of 34.25% compared to the static system. These findings indicate that the Sunflower Solar Tracking system is effective in increasing the efficiency of solar energy absorption, even in less than optimal lighting conditions.Penelitian ini bertujuan untuk merancang dan menguji sistem pelacak surya tipe sunflower berbasis sensor cahaya guna meningkatkan efisiensi konversi energi pada panel surya. Sistem ini menggunakan empat sensor LDR dan dua motor servo yang dikendalikan oleh mikrokontroler untuk mengarahkan panel secara otomatis mengikuti pergerakan matahari sepanjang hari. Metode penelitian yang digunakan adalah eksperimen rekayasa, yang mencakup studi literatur, perancangan, implementasi, serta pengujian sistem pada kondisi cuaca cerah dan mendung. Hasil pengujian menunjukkan bahwa pada kondisi cerah, sistem pelacak menghasilkan energi sebesar 15,60 Wh, sedangkan panel statis hanya 5,81 Wh. Pada kondisi mendung, energi yang dihasilkan oleh sistem pelacak menurun menjadi 0,68 Wh (penurunan 95,61%), sementara panel statis hanya menghasilkan 0,047 Wh (penurunan 99,19%). Secara keseluruhan, sistem pelacak menunjukkan peningkatan efisiensi sebesar 34,25% dibandingkan sistem statis. Temuan ini mengindikasikan bahwa sistem Sunflower Solar Tracking efektif dalam meningkatkan efisiensi penyerapan energi surya, bahkan pada kondisi pencahayaan yang kurang optimal.
PENGONTROLAN ENERGI PANAS DAN KELEMBABAN MENGGUNAKAN SENSOR DHT22 DAN ESP32 PADA PROSES FERMENTASI TEMPE GEMBUS Musa, Wahab; Hidayat, Ikhsan; Alam, Saiful; Asmara, Bambang Panji; Tolago, Ade Irawati
Journal Of Renewable Energy Engineering Vol. 2 No. 1 (2024): Journal Of Renewable Energy Engineering (April)
Publisher : Program Vokasi-Universitas Negeri Gorontalo

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.56190/jree.v2i1.33

Abstract

The fermentation process of tempe embus with conventional methods is highly dependent on weather conditions and requires heat energy (temperature) 25°C - 35°C within 36 - 48 hours. This research aims to stabilize the heat energy and reduce the fermentation process time to get quality tempeh production results in a short time. The research method used is the experimental method by making an automatic temperature and humidity controller and testing its performance. This tool works using the DHT22 sensor and ESP32 microcontroller as the control center. Temperature automation is done with two conditions that are used to regulate lights and fans. If the fermentation temperature is lower than the setpoint, the lower light and upper light turn on, if the temperature rises, the upper light turns off and the fan turns on, to keep the temperature within the pre-set setpoint value. This research shows that the temperature and humidity control device operates stably in the temperature range of 32°C to 35°C. At these temperature conditions, the fermentation process runs stably. At that temperature condition, the fermentation process of tempe embus lasts 16 hours, with testing of color, taste, and smell for the best quality category Tempe.
Automatic AC Current Controller as Input Adapter Power Supply Laptop Based on ESP32 Kiayi, Muchlis Alfajrin; Musa, Wahab; Nasibu, Iskandar Zulkarnain
Sistemasi: Jurnal Sistem Informasi Vol 13, No 4 (2024): Sistemasi: Jurnal Sistem Informasi
Publisher : Program Studi Sistem Informasi Fakultas Teknik dan Ilmu Komputer

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.32520/stmsi.v13i4.4233

Abstract

Frequently, laptop users forget to disconnect or connect the power supply adapter when the battery needs to be charged or fully charged due to they are too focused on using the laptop. This condition can cause problem with laptop batteries and one of which is overcharging. Thus, keeping the laptop battery healthy is advantageous and one of them is to make it last longer. In addition, when the battery is faulty, the replacement of it also requires a lot of money. To deal with this condition, it is necessary to have a design tool that can automatically cut off the AC voltage on the laptop power supply adapter which will be equipped with software. This current research employed development research method and aimed to create a tool comprising hardware and software that could cut off the AC voltage to the laptop power supply adapter automatically based on the laptop battery percentage status.
Rancang Bangun Sistem Pengontrol dan Monitoring pH Air Hidroponik Menggunakan Aplikasi Blynk Devi, Devita Gude; Musa, Wahab; Abdussamad, Syahrir
Jambura Journal of Electrical and Electronics Engineering Vol 6, No 1 (2024): Januari-Juni 2024
Publisher : Electrical Engineering Department Faculty of Engineering State University of Gorontalo

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.37905/jjeee.v6i1.20827

Abstract

Dalam praktik budidaya hidroponik, pengaturan keseimbangan pH air menjadi aspek penting dalam memastikan pertumbuhan dan produktivitas tanaman mencapai level terbaik. Oleh karena itu, tujuan dari penelitian ini adalah untuk merancang dan membangun sebuah sistem yang dapat mengontrol dan memantau pH air dalam tanaman hidroponik, menggunakan metode penelitian Research and Development (RD) dengan menggunakan aplikasi Blynk berbasis ESP32. Dalam tahap perancangan, peneliti menggunakan sensor pH air 4502C untuk mengukur tingkat pH air dalam sistem hidroponik. Mikrokontroler ESP32 bertugas sebagai penghubung antara sensor dan aplikasi Blynk yang dijalankan pada perangkat seluler. Hasil dari eksperimen ini menunjukkan bahwa sistem monitoring dan pengontrolan pH air pada hidroponik menggunakan aplikasi Blynk berbasis ESP32 dan sensor pH air 4502C berhasil secara akurat dan responsif memantau dan mengontrol tingkat pH air. Dengan demikian, Sistem ini efisien dalam menjaga keseimbangan pH air dalam hidroponik guna mendukung pertumbuhan tanaman yang optimal.In hydroponic cultivation practices, regulating the pH balance of water is an important aspect in ensuring plant growth and productivity reaches the best level. Therefore, the aim of this research is to design and build a system that can control and monitor the pH of water in hydroponic plants, using Research and Development (RD) research methods using the ESP32-based Blynk application. In the design stage, researchers used a 4502C water pH sensor to measure the pH level of water in a hydroponic system. The ESP32 microcontroller serves as a link between the sensor and the Blynk application running on the mobile device. The results of this experiment show that the water pH monitoring and control system in hydroponics using the ESP32-based Blynk application and the 4502C water pH sensor succeeded in accurately and responsively monitoring and controlling water pH levels. Thus, this system is efficient in maintaining the pH balance of water in hydroponics to support optimal plant growth. 
Development of a Land and Building Tax Monitoring Module in the North Isimu Village Information System Risaji, Indra; Dako, Amirudin Yunus; Dako, Rahmat Dedi R.; Musa, Wahab; Bonok, Zainudin; Abdussamad, Syahrir
Jambura Journal of Electrical and Electronics Engineering Vol 6, No 2 (2024): Juli - Desember 2024
Publisher : Electrical Engineering Department Faculty of Engineering State University of Gorontalo

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.37905/jjeee.v6i2.25038

Abstract

The information system is a tool to facilitate the potential and resource management in a village. However, due to the current development of the information system in Isimu Utara Village, there are some unavailable and inaccessible features in the system, one of which is the monitoring feature for land and building tax payments. Thus, the researcher is concerned with developing new features in the village information system as one of the alternatives to overcome the problem. This research aimed to develop a land and building tax monitoring module that could be integrated into existing systems. This research implemented the Extreme Programming (XP) method because it had fast and iterative development stages for each part and was aligned with the main goals and targets of development. The result showed that the monitoring module was integrated successfully and became one of the main menus in the village information system. The result of the Unit Test and Acceptance Test also showed that the program has run well.
Rancang Bangun Prototipe Pengatur Beban Pintar Skala Prioritas Berbasis Mikrokontroler Paki, Alis; Yusuf, Taufiq Ismail; Nasibu, Iskandar Zulkarnain; Musa, Wahab; Dako, Amirudin Yunus
Jambura Journal of Electrical and Electronics Engineering Vol 5, No 1 (2023): Januari - Juni 2023
Publisher : Electrical Engineering Department Faculty of Engineering State University of Gorontalo

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.37905/jjeee.v5i1.12969

Abstract

Penggunaan energi listrik telah menjadi hal yang mutlak, seiring dengan berkembangnya perangkat elektronik. Namun dalam penggunaan energi listrik sering menimbulkan masalah seperti terjadi pemutusan  arus listrik pada seluruh beban oleh pemutus sirkuit akibat beban lebih. Permasalahan tersebut sering terjadi pada penggunaan energi listrik skala rumah tinggal yang memiliki kapasitas daya maksimal 450 watt. Penelitian ini bertujuan untuk merealisasikan hardware dan software prototipe pengatur beban pintar, serta dilakukan pengujian untuk mengetahui keakuratan alat dalam pengukuran dan unjuk kerja alat dalam memproteksi beban. Dalam penelitian ini menggunakan metode eksperimen yang didalamnya terdapat beberapa langkah diantaranya adalah perancangan perangkat keras dan perangkat lunak, serta pengujian alat. Berdasarkan hasil pengujian yang di lakukan, hasil perhitungan persentase eror antara pengukuran alat rancangan dengan alat ukur berstandarisasi untuk beban resistif yaitu total daya beban sebesar 2,10%, tegangan kerja beban sebesar 0,44%, total arus beban sebesar 2,36%, dan total cos phi beban sebesar 0%. Sedangkan untuk beban induktif yaitu total daya beban sebesar 0,38%, tegangan kerja beban sebesar 0%, total arus beban sebesar 0%, dan total cos phi beban sebesar 1,03%. Adapun alat rancangan bekerja sesuai fungsinya dengan memutuskan beban yang bukan prioritas jika terjadi beban lebih dalam pemakaian energi listrik.The use of electrical energy has become an absolute necessity, along with the development of electronic devices. However, the use of electrical energy often causes problems such as a disconnection of electric current in the entire load by a circuit breaker due to overload. These problems often occur in the use of residential-scale electrical energy, which has a maximum power capacity of 450 watts. This study aimed to realize the prototype hardware and software for smart load control, as well as testing to determine the accuracy of the tool in measuring and the performance of the tool in protecting the load. It applied an experimental method in which there were several steps, including the design of hardware and software, as well as tool testing. Based on the results of the tests carried out, the results of the calculation of the percentage error between the measurement of the design tool and standardized measuring instruments for resistive loads, i.e., the total load power of 2.10%, working voltage load of 0.44%, total load current of 2.36%, and the total cos phi load of 0%. As for the inductive load, the total load power was 0.38%, the load working voltage was 0%, the total load current was 0%, and the total cos phi load was 1.03%. The design tool worked according to its function by deciding which load was not a priority if there was an overload in the use of electrical energy.
Rancang Bangun Model Alat Pengering Indoor Otomatis Hasil Pertanian Berbasis Arduino Uno Laba, Ahmad; Musa, Wahab; Abdussamad, Syahrir
Jambura Journal of Electrical and Electronics Engineering Vol 6, No 1 (2024): Januari-Juni 2024
Publisher : Electrical Engineering Department Faculty of Engineering State University of Gorontalo

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.37905/jjeee.v6i1.21554

Abstract

Proses pengeringan merupakan hal penting dalam penanganan bahan pertanian pasca panen, akan tetapi proses pengeringan yang dilakukan para petani di Gorontalo khususnya di Gororontalo Utara masih menggunakan metode pengeringan manual yang masih bergantung pada intensitas cahaya matahari dan masih membutuhkan waktu yang lama untuk proses pengeringannya. Hal ini yang membuat peneliti megambil inisiatif untuk merancang model alat pengering indoor otomatis hasil pertanian berbasis arduino uno yang bertujuan untuk mempercepat proses pengeringan dan tidak bergantung pada intensitas cahaya matahari. Metode yang digunakan dalam penelitian ini adalah metode eksperimen dimana peneliti membuat model alat pengering otomatis dan melakukan percobaan menggunakan jagung, gabah dan kedelai terhadap kerja alat yang dibuat. Alat ini bekerja di kontrol langsung oleh arduino yang menerima sinyal dari sensor DHT11 sebagai moniroring suhu dan soil moisture sensor sebagai monitoring kadar air yang terkandung pada bahan hasil pertanian.  Alat ini dapat mengeringkan bahan pertanian biji-bijian 2 sampai 3 jam tergantung jumlah kadar air yang terkandung dalam produk bahan pertanian. Hasil penelitian menunjukan bahwa alat yang dibuat sudah berhasil dan sudah bekerja sesuai dengan perancangan yang direncanakan.The drying process is important in handling post-harvest agricultural materials, however the drying process carried out by farmers in Gorontalo, especially in North Gororntalo, still uses manual drying methods which still depend on the intensity of sunlight and still require a long time for the drying process. This is what made researchers take the initiative to design a model of an automatic indoor dryer for agricultural products based on Arduino Uno which aims to speed up the drying process and does not depend on the intensity of sunlight. The method used in this research is an experimental method where the researcher makes a model of an automatic drying tool and carries out experiments using corn, grain and soybeans on the working of the tool made. This tool works under direct control by Arduino which receives signals from the DHT11 sensor for temperature monitoring and the soil moisture sensor for monitoring the water content contained in agricultural produce. This tool can dry grain agricultural materials for 2 to 3 hours depending on the amount of water content contained in the agricultural product. The research results show that the tool created has been successful and has worked according to the planned design. 
Web Application Design for Service Quality Analysis with SERVQUAL method Febriansyah, Moh Fajar; Dako, Rahmat Deddy Rianto; Lahay, Idham Halid; Dako, Amirudin Yunus; Nasibu, Iskandar Zulkarnain; Musa, Wahab
Jambura Journal of Electrical and Electronics Engineering Vol 7, No 1 (2025): Januari - Juni 2025
Publisher : Electrical Engineering Department Faculty of Engineering State University of Gorontalo

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.37905/jjeee.v7i1.28597

Abstract

Quality measurement consists of three stages: data collection, data testing, and data processing. In general, each of these stages requires a significant amount of time. The process starts with the data collection stage, which may involve questionnaires. Distributing, completing, and collecting questionnaires will take a considerable amount of time. Similarly, the second stage, data testing, is carried out to validate whether the data obtained in the previous stage is accurate or not. The third stage will only take place once the data from the first two stages is deemed valid. Data processing itself also requires a significant amount of time because the data must be entered individually. Based on this issue, a system is needed that can integrate all three stages to expedite the overall process. The objective of this research is to design a web-based service quality measurement application that can integrate all three stages simultaneously. The data processing stage in this research uses the Service Quality method, also known as the SERVQUAL method. The application design is carried out using the Systems Development Life Cycle (SDLC) development method with the prototype model. Application testing is conducted using three stages: alpha testing, beta testing, and usability testing. Alpha testing refers to internal testing of the application. Beta testing, using the black-box method, resulted in a score of 83.33%. Usability testing, using the System Usability Scale (SUS), obtained a score of 81, which falls within the Acceptability Range. In the Adjective Range category, the application was rated as excellent, and on the grade scale, it was rated as B.Pengukuran kualitas memiliki 3 tahapan, yakni pengumpulan data, pengujian data, dan pengolahan data. Secara umum, setiap tahapan ini dilalui dengan durasi waktu yang lama. Berawal dari tahapan pengumpulan data misalnya dengan kuesioner. Penyebaran, pengisian maupun pengumpulan kuesioner akan memerlukan waktu yang tidak singkat. Demikian pula, menuju ke tapanan yang kedua yaitu pengujian data, dimana tahapan ini dilakukan untuk menguji apakah data yang diperoleh pada tahapan sebelumnya valid atau tidak.  Tahapan ketiga akan dilakukan jika data yang diperoleh pada dua tahapan sebelumnya sudah valid. Proses pengolahan data pun akan memerlukan waktu yang cukup lama karena datanya akan dimasukan satu per satu. Berdasarkan permasalahan ini maka diperlukan sebuah sistem yang dapat mengintegrasikan ketiga tahapan tersebut untuk mempercepat keseluruhan proses. Tujuan penelitian ini adalah merancang sebuah aplikasi pengukuran kualitas layanan berbasis web yang dapat mengintegrasikan ketiga tahapan ini sekaligus. Tahapan pengolahan data pada penelitian ini menggunakan metode Service Quality atau lebih dikenal dengan metode SERVQUAL. Perancangan aplikasi dilakukan menggunakan metode pengembangan Systems Development Life Cycle (SDLC) dengan model prototype. Pengujian aplikasi dilakukan menggunakan tiga tahapan, yaitu alpha testing, beta testing, dan tes usabilitas. Alpha testing yaitu pengujian aplikasi secara internal. Beta testing menggunakan metode blackbox mendapatkan hasil sebesar 83,33%. Pengujian tes usabilitas menggunakan System Usability Scale (SUS) dan mendapatkan skor 81, yang masuk pada tingkat Acceptability Range. Pada kategori Adjective Range, aplikasi dinilai berada pada tingkatan excellent, dan pada grade scale berada pada tingkatan B. 
Co-Authors Ade Irawaty Tolago Alam, Saiful Alan Karaev Amirudin Y. Dako Amirudin Yunus Dako Andrey Masterov Annisa Riana Haras Arifin Matoka Bambang Panji Asmara Dako, Rahmat Deddy Dako, Rahmat Dedi R. Desyawanti Ecy Tawape Devi, Devita Gude Ervan Hasan Harun Febriansyah, Moh Fajar Firman Pakaya Idham Halid Lahay Ifan Wiranto Ifan Wiranto Ikhsan Hidayat Ikhsan Hidayat Ingopo, Renaldi Anwar Iskandar Z. Nasibu Iskandar Zulkarnain Nasibu Iti, Mohammad Rifki Jumiati Ilham Kamil Amali, Lanto M. Kiayi, Muchlis Alfajrin Laba, Ahmad Larisa Vatutina Maria Volkova Nadifa, Ulfatun Nikolay Kuznetsov Olga Shalina Paki, Alis Rahmat Deddy Rianto Dako Risaji, Indra Salmawaty Tansa Salmawaty Tansa Sardi Salim Sri Wahyuni Dali Syahrir Abdussamad Taufiq Ismail Yusuf Tolago, Ade Irawati Vadim Ponkratov Wrastawa Ridwan Yasin Mohamad Z Nasibu, Iskandar Zainudin Bonok