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All Journal JURNAL NASIONAL TEKNIK ELEKTRO Jurnal Ecotipe (Electronic, Control, Telecommunication, Information, and Power Engineering) Jurnal Hilirisasi IPTEKS (JHI) Indonesian Journal of Electrical Engineering and Computer Science Warta Pengabdian Andalas: Jurnal Ilmiah Pengembangan Dan Penerapan Ipteks Andalas Journal of Electrical and Electronic Engineering Technology Jurnal Andalas: Rekayasa dan Penerapan Teknologi Electron: Jurnal Ilmiah Teknik Elektro EPSILON: Journal of Electrical Engineering and Information Technology Jurnal Pengabdian Pada Masyarakat
Hanalde Andre
Universitas Andalas
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Analisis Gelombang Elektromagnetik dan Seismik yang Ditimbulkan oleh Gejala Gempa Timor, Agus Rahmad; Andre, Hanalde; Hazmi, Ariadi
JURNAL NASIONAL TEKNIK ELEKTRO Vol 5, No 3: November 2016
Publisher : Jurusan Teknik Elektro Universitas Andalas

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (631.412 KB) | DOI: 10.25077/jnte.v5n3.297.2016

Abstract

Earthquakes are a natural phenomenon which is difficult to predict when and how it will happen. Effort is needed to minimize the risk of earthquakes, such as the observation of the early signs before an earthquake occurs (precursor). This study was conducted to observe earthquakes in West Sumatra in two ways. Observations eleketromagnetik waves utilizing radio waves from the two stations. The study also uses seismic wave sensors that are placed in the Department of Electrical Engineering, University of Andalas. Based on the results of data processing of the transmission of radio waves, it is known that electromagnetic anomalies can be recorded by utilizing radio wave propagation. However, with the line of sight propagation cause a lot of loss propagation, and less effective in recording. For the recording of the earthquake through the seismic waves very well. The measurement results for the direction of the epicenter compared with the measurement result BMKG for some earthquakes end of 2013 were felt in the West Sumatra. The average error of measurement gained 9.6% since the phase delay is affected by the accuracy of the sensor device.Keywords: Earthquakes, Electromagnetic, SeismicAbstrak- Gempa bumi adalah fenomena alam yang sulit diprediksi kapan dan bagaimana akan terjadi. Diperlukan usaha untuk meminimalisir resiko gempa bumi, seperti pengamatan tanda tanda awal sebelum gempabumi terjadi (prekursor). Penelitian ini dilakukan untuk mengamati kejadian gempa di Sumatera Barat melalui dua cara.  Pengamatan gelombang eleketromagnetik memanfaatkan gelombang radio dari dua stasiun. Penelitian juga menggunakan sensor gelombang seismic yang ditempatkan di jurusan Teknik Elektro, Universitas Andalas. Berdasar hasil pengolahan data dari transmisi gelombang radio, maka diketahui bahwa anomaly elektromagnetik  dapat direkam dengan memanfaatkan propagasi gelombang radio. Namun propagasi dengan line of sight banyak menimbulkan rugi-rugi propagasi, dan kurang efektif dalam perekaman. Untuk rekaman gempa melalui gelombang seismik sangat baik. Hasil pengukuran untuk arah pusat gempa dibandingkan dengan hasil pengukuran BMKG untuk beberapa kejadian gempa akhir tahun 2013 yang dirasakan di Sumatera Barat. Adapun error rata-rata pengukuran yang didapat 9.6% karena dipengaruhi oleh keakurasian delay phasa alat sensor.Kata kunci: Gempa bumi, Elektromagnetik, Seismik
Pengaruh Keberadaan Partikel Asing Terhadap Karakteristik Medan Listrik Pada GIS Equilateral Tiga Fasa Pratama, Rizki Wahyu; Andre, Hanalde; Khayam, Umar
JURNAL NASIONAL TEKNIK ELEKTRO Vol 10, No 1: March 2021
Publisher : Jurusan Teknik Elektro Universitas Andalas

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (7057.822 KB) | DOI: 10.25077/jnte.v10n1.850.2021

Abstract

This paper analyzes the effect of the presence of foreign particles on an equilateral arrangement of 3 phase gas insulated switchgear (GIS) insulation equipment. In this calculation, the electric field characteristics will be analyzed in 3-phase equilateral GIS by varying the location of the particles in the GIS tank. Particles are modeled to have a length of 5 mm and a thickness of 0.5 mm located in a 3 phase GIS equilateral arrangement with a tank diameter of 150 mm and a conductor diameter of 25 mm. The electric field calculations are reviewed at several points in the 3-phase equilateral GIS tank. The simulation and calculation of the electric field were calculated with FEM method software. The results of the calculations show that there are differences in the characteristics of the electric field between normal GIS and GIS where foreign particles are present. The difference in these characteristics can be seen in the magnitude of the electric field, and the ratio of eccentricity from some point of view. Keywords : gas insulated switchgear, equilateral, foreign particles, electric field, eccentricity ratioAbstrakPaper ini menganalisa tentang pengaruh keberadaan partikel asing pada peralatan hubung isolasi gas/ gas insulated switchgear (GIS) 3 fasa susunan equilateral. Pada perhitungan ini, akan dianalisa karakteristik medan listrik pada GIS equilateral 3 fasa dengan memvariasikan letak partikel dalam tangki GIS. Partikel dimodelkan memiliki panjang 5 mm dan ketipisan 0.5 mm terletak di dalam GIS 3 fasa susunan equilateral dengan diameter tangki 150 mm dan diameter konduktor 25 mm. Perhitungan medan listrik ditinjau pada beberapa titik dalam tangki GIS equilateral 3 fasa. Simulasi dan perhitungan medan listrik dilakukan dengan perangkat lunak menggunakan metode FEM. Hasil dari perhitungan menunjukkan adanya perbedaaan karakteristik medan listrik antara GIS normal dengan GIS yang terdapat partikel asing. Perbedaan karakteristik ini dapat dilihat pada besar medan listrik, dan rasio eksentrisitas pada beberapa titik tinjau keberadaan partikel. Kata Kunci : gas insulated switchgear,  equilateral, partikel asing, medan listrik, rasio eksentrisitas
Comparative Study of Three Linear System Solver Applied to Fast Decoupled Load Flow Method for Contigency Analysis Syafii, Syafii; Andre, Hanalde
JURNAL NASIONAL TEKNIK ELEKTRO Vol 6, No 1: Maret 2017
Publisher : Jurusan Teknik Elektro Universitas Andalas

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (439.268 KB) | DOI: 10.25077/jnte.v6n1.381.2017

Abstract

This  paper  presents the  assessment  of  fast  decoupled load flow computation using three linear system solver scheme. The full matrix version of the  fast  decoupled  load flow  based on XB  methods used in this study.  The numerical investigations are carried out  on  the  small and large test systems.  The execution time of small system such as IEEE 14, 30, and 57 are very fast, therefore the computation time can not be compared  for these cases.  Another cases IEEE 118, 300 and TNB 664 produced significant execution speedup. The superLU factorization sparse matrix solver has best performance and speedup of load flow solution as well as in contigency analysis. The invers full matrix solver can solved only for IEEE 118 bus test system in 3.715 second and for another cases take too long time. However for superLU factorization linear solver can solved all of test system in 7.832 second for a largest of test system. Therefore the superLU factorization linear solver can be a viable alternative applied in contingency analysis.Keywords : Fast Decoupled Load Flow, Contigency Analysis, and Linear System Solver
Antena Kupu - Kupu Sebagai Sensor Ultra High Frequency (UHF) Untuk Mendeteksi Partial Discharge Pada Gas Insulation Substation Andre, Hanalde; Khayam, Umar
JURNAL NASIONAL TEKNIK ELEKTRO Vol 2, No 2: September 2013
Publisher : Jurusan Teknik Elektro Universitas Andalas

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (978.164 KB) | DOI: 10.25077/jnte.v2n2.69.2013

Abstract

The use of antennas as receiving electromagnetic waves can be used as a tool for the detection of partial discharge (PD) that occurs in high voltage equipment. Especially in the insulation gas substation (GIS), the characteristics of the electromagnetic waves generated lies in the range of ultra high frequency (UHF) in the range of 300 MHz - 3 GHz. Characteristics of the antenna ultra wide band (UWB) is required to detect PD in a wide range. Antenna design is done using a simulation with finite element method or finite element method (FEM). Characteristics of return loss (RL) to be considered in the design of the antenna to get better sensitivity yan. Antenna testing is done with vector network analyzer (VNA). Measurement and simulation results of the modified antennas showed a decrease in the value of RL.Keywords : Partial Discharge (PD), Antena, Ulltra High Frequency (UHF),Gas Insulation Substation     (GIS) AbstrakPenggunaan antena sebagai penerima gelombang elektromagnetik dapat digunakan sebagai alat untuk mendeteksi kegiatan partial discharge (PD) yang  terjadi pada paralatan tegangan tinggi. Khususnya pada gas insulation substation (GIS), karakteristik gelombang elektromagnetik yang dihasilkan terletak pada rentang  ultra high frequency (UHF) dalam rentang 300 MHz – 3 GHz. Karakteristik antena ultra wide band (UWB) diperlukan untuk mendeteksi PD pada rentang yang lebar. Perancangan antena dilakukan menggunakan simulasi dengan metoda elemen hingga atau finite element method (FEM). Karakteristik return loss (RL) antena dipertimbangkan dalam perancangan untuk mendapatkan sensitivitas yan lebih baik. Pengujian antena dilakukan dengan vector network analyzer (VNA). Hasil pengukuran dan simulasi antena yang dimodifikasi menunjukkan penurunan nilai RL. Keywords : Partial Discharge (PD), Antena, Ulltra High Frequency (UHF),Gas Insulation Substation     (GIS)  
Perancangan Modifikasi Antena Kupu – Kupu Panjang Dual Frekuensi untuk Aplikasi Hypherthermia Kananda, Kiki; Andre, Hanalde; Timor, Agus Rahmad; ., Khairullah; ., Erliwati; Hendri, Zulka
JURNAL NASIONAL TEKNIK ELEKTRO Vol 4, No 2: September 2015
Publisher : Jurusan Teknik Elektro Universitas Andalas

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (609.508 KB) | DOI: 10.25077/jnte.v4n2.168.2015

Abstract

Therapy device of Electromagnetic Wave radiation  hypherthermia used clinically to heat tissue in the human body. Increased temperatures are not followed by tissue outside the body. The use of electromagnetic waves at frequencies 915 and 2450 MHz has been proven and widely used in hypherthermia. The design modifications butterfly antenna done by simulation using finite element method. The simulation results show the modification of antenna can work in both frequency hypherthermia. Optimal shape of the antenna produce 'return loss' (RL) -16.6295 dB at a frequency of 915 MHz and -18.2697 dB at frequency 2450 MHz.        Keywords : Hyperthermia, Dual Frequency, Antenna Application Abstrak—Radiasi gelombang elektromagnetik pada alat terapi hypherthermia digunakan secara klinis untuk memanaskan jaringan dalam tubuh manusia. Peningkatan temperatur tidak diikuti oleh jaringan luar tubuh. Penggunaan gelombang elektromagnetik pada frekuensi 915 dan 2450 MHz telah terbukti dan banyak digunakan dalam hypherthermia. Perancangan modifikasi antenna kupu – kupu panjang dilakukan dengan simulasi menggunakan metoda elemen hingga. Hasil simulasi menunjukan modifikasi antenna dapat bekerja pada kedua frekuensi hypherthermia. Bentuk optimal antena menghasilkan nilai return loss (RL) -16.6295dB pada frekuensi 915 MHz dan -18.2697dB pada frekuensi 2450 MHzKata Kunci : Hyperthermia, frekuensi ganda, Aplikasi Antena,
Antena Wideband Planar Bowtie untuk Pemanenan Energi Gelombang Televisi Elektromagnetik Terestrial Andre, Hanalde
JURNAL NASIONAL TEKNIK ELEKTRO Vol 7, No 2: July 2018
Publisher : Jurusan Teknik Elektro Universitas Andalas

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (647.183 KB) | DOI: 10.25077/jnte.v7n2.498.2018

Abstract

The process of harvesting electromagnetic energy has two important aspects, namely the antenna as a collector of electromagnetic waves and rectifiers. This paper aims to design a planar bowtie antenna that can operate on terrestrial television broadcasting frequency. Design of antennas using finite element simulation method. Based on the simulation result, the bandwitdh fraktional antenna for return loss value below -10 dB is 70,46% and fractionall bandwitdh antenna for VSWR below value 2 is 75,98. The middle frequency of the antenna is 589 MHz. Keywords : Harvesting Energy, Electromagnetic, Antenna, Terrestrial Television AbstrakProses pemanenan energi elektromagnetik memiliki dua aspek penting yaitu antena sebagai pengumpul gelombang elektromagnetik dan penyearah. Pada jurnal ini didisain antena bidang kupu-kupu yang dapat beroperasi pada frekuensi penyiaran televisi terestrial. Perancangan antena dilakukan menggunakan simulasi metode elemen hingga. Berdasarkan hasil simulasi didapatakan bandwitdh fraktional antena untuk nilai return loss dibawah -10 dB sebesar 70,46% dan bandwitdh fraktional antena untuk nilai VSWR dibawah 2 sebesar 75,98. Frekunsi tengah antena didapatkan sebesar 589 MHz. Kata Kunci : Pemanenan Energi, Elektromagnetik, Antena, Televisi Terestrial
Analisa Path Loss Spektrum Frekuensi UHF Untuk Penyiaran TV Terestrial Kota Padang Andre, Hanalde; Nofriadi, Nofriadi
JURNAL NASIONAL TEKNIK ELEKTRO Vol 6, No 1: Maret 2017
Publisher : Jurusan Teknik Elektro Universitas Andalas

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (694.256 KB) | DOI: 10.25077/jnte.v6n1.358.2017

Abstract

The calculation of path loss is needed in the planning and evaluation of telecommunications services. Broadcasting Television (TV) terrestrial uses Ultra High Frequency (UHF) spectrum in the range of 478 MHz -806 MHz. This study discuss the Padang city terrestrial TV broadcasting consisting of 14 transmitters. Path loss calculations carried out in the Padang city service area using the ITU-R P.525 and ITU-R P.1546. Based on calculation results showed an average difference of the two methods of 4:53 db.Keywords : Path Loss, Terestrial TV, UHF, Padang CityAbstrak—Perhitungan path loss sangat dibutuhkan dalam perencanaan maupun evaluasi layanan telekomunikasi. Penyiaran Televisi (TV) terestrial menggunakan spectrum frekuensi Ultra High Frequency (UHF) dalam rentang 478 MHz -806 Mhz. Penelitian ini membahas penyiaran TV terestrial Kota Padang yang terdiri dari 14 pemancar. Perhitungan path loss dilakukan dalam area layanan kota padang dengan menggunakan metode rekomendasi ITU-R P.525 dan rekomendasi ITU-R P.1546. Berdasarkan hasil perhitungan didapatkan hasil selisih rata-rata kedua metode tersebut sebesar 4.53 db. Kata Kunci : Path Loss, TV terestrial, UHF, Kota Padang
Antena Kupu - Kupu Sebagai Sensor Ultra High Frequency (UHF) Untuk Mendeteksi Partial Discharge Pada Gas Insulation Substation Hanalde Andre; Umar Khayam
JURNAL NASIONAL TEKNIK ELEKTRO Vol 2 No 2: September 2013
Publisher : Jurusan Teknik Elektro Universitas Andalas

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (978.164 KB) | DOI: 10.25077/jnte.v2n2.69.2013

Abstract

The use of antennas as receiving electromagnetic waves can be used as a tool for the detection of partial discharge (PD) that occurs in high voltage equipment. Especially in the insulation gas substation (GIS), the characteristics of the electromagnetic waves generated lies in the range of ultra high frequency (UHF) in the range of 300 MHz - 3 GHz. Characteristics of the antenna ultra wide band (UWB) is required to detect PD in a wide range. Antenna design is done using a simulation with finite element method or finite element method (FEM). Characteristics of return loss (RL) to be considered in the design of the antenna to get better sensitivity yan. Antenna testing is done with vector network analyzer (VNA). Measurement and simulation results of the modified antennas showed a decrease in the value of RL.Keywords : Partial Discharge (PD), Antena, Ulltra High Frequency (UHF),Gas Insulation Substation     (GIS) AbstrakPenggunaan antena sebagai penerima gelombang elektromagnetik dapat digunakan sebagai alat untuk mendeteksi kegiatan partial discharge (PD) yang  terjadi pada paralatan tegangan tinggi. Khususnya pada gas insulation substation (GIS), karakteristik gelombang elektromagnetik yang dihasilkan terletak pada rentang  ultra high frequency (UHF) dalam rentang 300 MHz – 3 GHz. Karakteristik antena ultra wide band (UWB) diperlukan untuk mendeteksi PD pada rentang yang lebar. Perancangan antena dilakukan menggunakan simulasi dengan metoda elemen hingga atau finite element method (FEM). Karakteristik return loss (RL) antena dipertimbangkan dalam perancangan untuk mendapatkan sensitivitas yan lebih baik. Pengujian antena dilakukan dengan vector network analyzer (VNA). Hasil pengukuran dan simulasi antena yang dimodifikasi menunjukkan penurunan nilai RL. Keywords : Partial Discharge (PD), Antena, Ulltra High Frequency (UHF),Gas Insulation Substation     (GIS)  
Perancangan Modifikasi Antena Kupu – Kupu Panjang Dual Frekuensi untuk Aplikasi Hypherthermia Kiki Kananda; Hanalde Andre; Agus Rahmad Timor; Khairullah .; Erliwati .; Zulka Hendri
JURNAL NASIONAL TEKNIK ELEKTRO Vol 4 No 2: September 2015
Publisher : Jurusan Teknik Elektro Universitas Andalas

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (609.508 KB) | DOI: 10.25077/jnte.v4n2.168.2015

Abstract

Therapy device of Electromagnetic Wave radiation  hypherthermia used clinically to heat tissue in the human body. Increased temperatures are not followed by tissue outside the body. The use of electromagnetic waves at frequencies 915 and 2450 MHz has been proven and widely used in hypherthermia. The design modifications butterfly antenna done by simulation using finite element method. The simulation results show the modification of antenna can work in both frequency hypherthermia. Optimal shape of the antenna produce 'return loss' (RL) -16.6295 dB at a frequency of 915 MHz and -18.2697 dB at frequency 2450 MHz.        Keywords : Hyperthermia, Dual Frequency, Antenna Application Abstrak—Radiasi gelombang elektromagnetik pada alat terapi hypherthermia digunakan secara klinis untuk memanaskan jaringan dalam tubuh manusia. Peningkatan temperatur tidak diikuti oleh jaringan luar tubuh. Penggunaan gelombang elektromagnetik pada frekuensi 915 dan 2450 MHz telah terbukti dan banyak digunakan dalam hypherthermia. Perancangan modifikasi antenna kupu – kupu panjang dilakukan dengan simulasi menggunakan metoda elemen hingga. Hasil simulasi menunjukan modifikasi antenna dapat bekerja pada kedua frekuensi hypherthermia. Bentuk optimal antena menghasilkan nilai return loss (RL) -16.6295dB pada frekuensi 915 MHz dan -18.2697dB pada frekuensi 2450 MHzKata Kunci : Hyperthermia, frekuensi ganda, Aplikasi Antena,
Analisis Gelombang Elektromagnetik dan Seismik yang Ditimbulkan oleh Gejala Gempa Agus Rahmad Timor; Hanalde Andre; Ariadi Hazmi
JURNAL NASIONAL TEKNIK ELEKTRO Vol 5 No 3: November 2016
Publisher : Jurusan Teknik Elektro Universitas Andalas

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (631.412 KB) | DOI: 10.25077/jnte.v5n3.297.2016

Abstract

Earthquakes are a natural phenomenon which is difficult to predict when and how it will happen. Effort is needed to minimize the risk of earthquakes, such as the observation of the early signs before an earthquake occurs (precursor). This study was conducted to observe earthquakes in West Sumatra in two ways. Observations eleketromagnetik waves utilizing radio waves from the two stations. The study also uses seismic wave sensors that are placed in the Department of Electrical Engineering, University of Andalas. Based on the results of data processing of the transmission of radio waves, it is known that electromagnetic anomalies can be recorded by utilizing radio wave propagation. However, with the line of sight propagation cause a lot of loss propagation, and less effective in recording. For the recording of the earthquake through the seismic waves very well. The measurement results for the direction of the epicenter compared with the measurement result BMKG for some earthquakes end of 2013 were felt in the West Sumatra. The average error of measurement gained 9.6% since the phase delay is affected by the accuracy of the sensor device.Keywords: Earthquakes, Electromagnetic, SeismicAbstrak- Gempa bumi adalah fenomena alam yang sulit diprediksi kapan dan bagaimana akan terjadi. Diperlukan usaha untuk meminimalisir resiko gempa bumi, seperti pengamatan tanda tanda awal sebelum gempabumi terjadi (prekursor). Penelitian ini dilakukan untuk mengamati kejadian gempa di Sumatera Barat melalui dua cara.  Pengamatan gelombang eleketromagnetik memanfaatkan gelombang radio dari dua stasiun. Penelitian juga menggunakan sensor gelombang seismic yang ditempatkan di jurusan Teknik Elektro, Universitas Andalas. Berdasar hasil pengolahan data dari transmisi gelombang radio, maka diketahui bahwa anomaly elektromagnetik  dapat direkam dengan memanfaatkan propagasi gelombang radio. Namun propagasi dengan line of sight banyak menimbulkan rugi-rugi propagasi, dan kurang efektif dalam perekaman. Untuk rekaman gempa melalui gelombang seismik sangat baik. Hasil pengukuran untuk arah pusat gempa dibandingkan dengan hasil pengukuran BMKG untuk beberapa kejadian gempa akhir tahun 2013 yang dirasakan di Sumatera Barat. Adapun error rata-rata pengukuran yang didapat 9.6% karena dipengaruhi oleh keakurasian delay phasa alat sensor.Kata kunci: Gempa bumi, Elektromagnetik, Seismik
Co-Authors ., Erliwati ., Khairullah Agus Rahmad Timor Agus Rahmad Timor Ahmad Syafruddin Indrapriyatna Al Fajri Amirul Luthfi, Amirul Andrew Kurniawan Vadreas, Andrew Kurniawan Ariadi Hazmi Asri Astia Ningsih Baharuddin Abbas, Baharuddin Baharuddin Baharuddin Bobby Arma Sugara Cesar Welya Refdi Danar Adi Laksono Danny Hidayat Dessy Kurnia Sari Donard Games Eka Candra Lina Elfitri, Ikhwana Erliwati . Faldo Demi Pratama Fardhan Arkan Firdaus Firdaus Gali Triyani Ghani Arrasyid Zulkarnaen Habib Satria Hafizah Hanim Intan Aprilia Ikhsan Kananda, Kiki Khairullah . Khayam, Umar Khayam, Umar Kiki Kananda Laksono, Heru Dibyo Laura Amelia Triani M. Yonggi Puriza Moh Reza Pahlevi Muhammad Afif Muhammad Imran Hamid Muhammad Rizky Hikmatullah Nofriadi Nofriadi Nofriadi, Nofriadi Nora Idiawati Pratama, Rizki Wahyu Prima Fithri Prima Fithri Prima Fithri Primas Emeraldi Puti Afra Zenri Utami Reri Afrianita Ricky Akbar Rika Ampuh Hadiguna Rizki Wahyu Pratama Rudy Fernandez Rudy Fernandez Silmi Silmi Suci Fitri Sukma Nirad, Dwi Welly Syafii Syafii Syafii Syafii Syaifa Mulyadi Timor, Agus Rahmad Timor, Agus Rahmad Ullya Rahmi Aswin Umar Khayam Umar Khayam Uyung Gatot Syafrawi Dinata Vanzir Firmansyah Wahyudi Wahyudi Welly Yandi Welya Refdi, Cesar Wenny Surya Murtius Yandi Anzari Yola Octaviani Asri Zulka Hendri Zurnawita Zurnawita