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Analisa Kinerja Teknik Modulasi Digital pada Kanal Optik Nirkabel Astharini, Dwi; Mayola, Ary; Samijayani, Octarina Nur; Syahriar, Ary
Jurnal Elektronika dan Telekomunikasi Vol 17, No 1 (2017)
Publisher : Indonesian Institute of Sciences

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.14203/jet.v17.7-12

Transmisi optik nirkabel dengan kecepatan tinggi memiliki berbagai potensi untuk aplikasi jarak pendek terutama untuk komunikasi di dalam ruangan. Tulisan ini memaparkan perbandingan kinerja transmisi FSO menggunakan beberapa variasi skema modulasi. Pengamatan unjuk kinerja terutama dilakukan menggunakan bit error rate (BER). Gangguan turbulensi atmorferik menjadi bagian dari pemodelan kanal log normal yang digunakan dalam simulasi. Modulasi dasar spasial yang digunakan adalah on-off keying sebagai teknik klasik FSO, beserta pulse position modulation yang merupakan variasi spasialnya. Menelaah penggunaan modulasi baseband untuk sistem optik, disimulasikan PSK 2, 4, 8, 16, serta QAM 4 dan 16. Simulasi dengan data ukuran kecil menghasilkan bahwa BPSK dan 4 QAM menunjukkan unjuk kerja terbaik dengan BER rata-rata sekitar 10^-3 pada kondisi gangguan sedang sampai tinggi. Sementara tingkat error pada OOK dan PPM masih di atas 10^-0.5.

Subscriber Growth Forecasting of LTE Network 1800 MHz FDD at Denpasar City using Monte Carlo Simulation Rahmatia, Suci; Azzahra, Azmi Azizah; Ismail, Muhammad; Astharini, Dwi; Samijayani, Octarina Nur
Jurnal Elektronika dan Telekomunikasi Vol 19, No 1 (2019)
Publisher : Indonesian Institute of Sciences

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.14203/jet.v19.1-6

LTE is the 8th technology officially developed by the 3rd Generation Partnership Project (3GPP). The LTE technology is a solution that is used by engineers to resolve the problems of improving the quality of communications services. The LTE technology able to deliver up to 300 Mbps and 75 Mbps for downlink and uplink, respectively. This study aims to determine the maximum subscriber connected for LTE network technology with capacity planning at 1800 MHz Frequency Division Multiplexing for subscriber growth forecasting in 2025 at Denpasar city. The simulation used Atoll radio network planning software with the Monte Carlo method. Monte Carlo was used to investigating the increase in user throughput according to customer distribution, path loss, and services provided. This simulation is based on traffic data from traffic maps, lists of subscribers and user penetration and cellular services. Monte Carlo simulation shows the results in 2017 which 99.8% of users were successfully connected and only 0.2% of users were rejected. For forecasting in 2025, 99.3% of users are successfully connected, and only 0.7% of users are rejected.

Analisa Kinerja Teknik Modulasi Digital pada Kanal Optik Nirkabel Dwi Astharini; Ary Mayola; Octarina Nur Samijayani; Ary Syahriar
Jurnal Elektronika dan Telekomunikasi Vol 17, No 1 (2017)
Publisher : LIPI Press

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.14203/jet.v17.7-12

Transmisi optik nirkabel dengan kecepatan tinggi memiliki berbagai potensi untuk aplikasi jarak pendek terutama untuk komunikasi di dalam ruangan. Tulisan ini memaparkan perbandingan kinerja transmisi FSO menggunakan beberapa variasi skema modulasi. Pengamatan unjuk kinerja terutama dilakukan menggunakan bit error rate (BER). Gangguan turbulensi atmorferik menjadi bagian dari pemodelan kanal log normal yang digunakan dalam simulasi. Modulasi dasar spasial yang digunakan adalah on-off keying sebagai teknik klasik FSO, beserta pulse position modulation yang merupakan variasi spasialnya. Menelaah penggunaan modulasi baseband untuk sistem optik, disimulasikan PSK 2, 4, 8, 16, serta QAM 4 dan 16. Simulasi dengan data ukuran kecil menghasilkan bahwa BPSK dan 4 QAM menunjukkan unjuk kerja terbaik dengan BER rata-rata sekitar 10^-3 pada kondisi gangguan sedang sampai tinggi. Sementara tingkat error pada OOK dan PPM masih di atas 10^-0.5.

Subscriber Growth Forecasting of LTE Network 1800 MHz FDD at Denpasar City using Monte Carlo Simulation Suci Rahmatia; Azmi Azizah Azzahra; Muhammad Ismail; Dwi Astharini; Octarina Nur Samijayani
Jurnal Elektronika dan Telekomunikasi Vol 19, No 1 (2019)
Publisher : LIPI Press

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.14203/jet.v19.1-6

LTE is the 8th technology officially developed by the 3rd Generation Partnership Project (3GPP). The LTE technology is a solution that is used by engineers to resolve the problems of improving the quality of communications services. The LTE technology able to deliver up to 300 Mbps and 75 Mbps for downlink and uplink, respectively. This study aims to determine the maximum subscriber connected for LTE network technology with capacity planning at 1800 MHz Frequency Division Multiplexing for subscriber growth forecasting in 2025 at Denpasar city. The simulation used Atoll radio network planning software with the Monte Carlo method. Monte Carlo was used to investigating the increase in user throughput according to customer distribution, path loss, and services provided. This simulation is based on traffic data from traffic maps, lists of subscribers and user penetration and cellular services. Monte Carlo simulation shows the results in 2017 which 99.8% of users were successfully connected and only 0.2% of users were rejected. For forecasting in 2025, 99.3% of users are successfully connected, and only 0.7% of users are rejected.

GUI Design for Comparative Output Signal DFT and DTFT with LabVIEW Dwi Astharini; Tsaura Aulia; Putri Wulandari; Rahmat Alamtaha; Rifqy Afisha
INSIST Vol 4, No 1 (2019)
Publisher : Universitas Lampung

An application GUI (Graphical User Interface) is designed as a software simulation to compare the output signal of DFT and DTFT. DFT (Discrete Fourier Transform) and DTFT (Discrete Time Fourier Transform) are part of the digital signal processing. Digital signal processing is an analog signal processing method uses a mathematical technique to perform a transformation or retrieving information in digital form. One of the benefits of digital signal processing is to facilitate the representation of the signal, because the signal in digital form will be more visible, easily processed and has high accuracy. This GUI application designed using LabVIEW from National Instruments. LabVIEW is a software graphical programming or a block diagram. LabVIEW program known as VI or Virtual Instrument. The input signal in this application is a square signal

Uji Kinerja Modul Pelatihan Motor Penunjang Mata Kuliah Mekatronika Anwar Mujadin; Dwi Astharini
JURNAL Al-AZHAR INDONESIA SERI SAINS DAN TEKNOLOGI Vol 3, No 3 (2016)
Publisher : Universitas Al Azhar Indonesia

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.36722/sst.v3i3.217

Abstrak – Teknis pemberian pulse width modulation (PWM) menjadi sangat penting terutama dalam pengendalian motor seperti pada motor direct current (motror DC), motor stepper maupun motor servo. Lebar pulsa duty cycle dalam satu perioda waktu PWM akan menentukan tingkat keakuratan kecepatan maupun sudut. PWM diatur memggunakan program (assembly), kemudian kecepatanya diamati menggunakan alat ukur laser tachometer sedangkan tingkat kepersisian sudutnya diukur menggunakan pola kertas (template). Untuk mendapatkan performa independensi setiap motor, maka motor dikendalikan dan diujicobakan tanpa menggunakan beban (tidak ada uji torsi). Kata kunci- pulse width modulation mekatronika motor traineer. Abstract – the pulse width modulation (PWM) is especially inportant for motor controlling such as in DC motor, stepper motor and servo motor. The width of duty cycle in time period will determine speed and angle accurately. PWM wil be generated by using low level programm code of microcontroller (assembler), then speed of motor observed by laser tachometer and angle rotation observed by paper patern template. To get the performance independence of each motor, the motor is controlled and tested without the use of loads (no test of torque). Keywords – pulse width modulation motor traineer for mechatronic modules.

Lokalisasi Jarak dan Sudut Pembacaan Kartu Radio Frequecy Identification (RFID) Anwar Mujadin; Dwi Astharini
JURNAL Al-AZHAR INDONESIA SERI SAINS DAN TEKNOLOGI Vol 3, No 2 (2015)
Publisher : Universitas Al Azhar Indonesia

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.36722/sst.v3i2.187

Abstrak – Teknis pembacaan kartu RFID (tag) dimana pembaca kartunya (card reader) diletakan dekat permukaan logam akan memiliki pelemahan sensitivitas sinyal penerimaan radio frekuensi yang cukup significan. Dari hasil percobaan membuktikan bahwa received signal strength index (RSSI) akan berkurang 14 dBm bila reader diletakan dekat dengan permukaan logam. RSSI adalah sebuah pendekatan cermat untuk optimasi jarak dan sudut antara pemancar (tag) dan penerima (reader). Dari hasil percobaan menunjukan pula bahwa bukan hanya jarak, sudut maupun logam yang mempengaruhi besaran nilai RSSI namun besaran kendali daya pemancar (reader) agar tag aktif dalam jarak dan sudut yang telah dilokalisai. Dalam paper ini akan dijelaskan dengan singkat hubungan antara kendali daya dan RSSI dalam mengaktifasi kartu RFID (tag). Kata Kunci - RFID received signal strength index, RFID Sensitivity reading tag Abstract – RFID card (tag) and card reader are placed near metal surfaces, will be have attenation sensititivity of receiver signal radio frequency significantly. The result of exsperiment shown that distance between the tag and the reader using the received signal strength index (RSSI) will be reduce by 14 dBm from the beginning when RFID card reader placed near metal surface. RSSI is an careful approach to optimation the distance between a sender and a receiver. The our experiments shown that power control results are more stable and accurate than RSSI results. In this paper, will be explain briefly the relationship between power control and RSSI in activates the RFID card (tag). Keywords – RFID received signal strength index, RFID Sensitivity reading tag

Prototipe Tempat Sampah Elektronik Bersuara Berbasis Mikrokontroler ATMega328P dan Decoder VS1011 Anwar Mujadin; Dwi Astharini
JURNAL Al-AZHAR INDONESIA SERI SAINS DAN TEKNOLOGI Vol 4, No 1 (2017)
Publisher : Universitas Al Azhar Indonesia

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.36722/sst.v4i1.242

Abstrak – Perilaku membuang sampah sembarangan tidak pernah lepas dari pengaruh lingkungan sekitar. Saat ini, dalam menangggapi masalah buang sampah sembarangan sudah menjadi kebiasaan dimasyarakat yang biasa karena semua orang melakukannya. Merubah prilaku orang sangatlah tidak mudah perlu cara yang luar biasa. Pada penelitian ini telah dirancang bangun sebuah divais yang menyuguhkan beraneka ragam suara “aneh” yang menyebabkan si pembuang sampah selalu ingin melempar sampahnya pada divais ini. Prototipe menggunakan mikrokontroler ATMega328P dan decoder VS1011 sebagai pemutar suara dalam format MP3. Sistem elektronik menggunakan catu daya operasi baterai 12V, 5V dan 3.3V. Tulisan ini akan menjelaskan teknis optocoupler, power regulator dan karakteristik baterai. Kata Kunci – Tempat Sampah Elektronik, Teknis Optocoupler, Power Regulator dan Karakteristik Baterai Abstract – Behavior of littering is never out of the environment. Currently, in dealing with the problem of littering has become a habit in the ordinary community because everyone is doing it. Changing people’s behavior is not easy to need a great way. In this research has been designed to build a device that presents a variety of "weird" sound that causes the garbage disposal always wants to throw the garbage on this device. The prototype uses an ATMega328P microcontroller and VS1011 decoder as a sound player in MP3 format. Electronic systems use battery operation power supply 12V, 5V and 3.3V. This paper will explain the technical optocoupler, power regulator and battery characteristics. Keywords – Electronic Bin, Technical Optacoupler, Power Regulator, and Battery Characteristics

Penerapan Metode Simulasi Pra-Praktikum Menggunakan Graphic User Interface (GUI) dan FDATOOL, Matlab Octarina Nur Samijayani; Dwi Astharini
JURNAL Al-AZHAR INDONESIA SERI SAINS DAN TEKNOLOGI Vol 1, No 4 (2012)
Publisher : Universitas Al Azhar Indonesia

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.36722/sst.v1i4.87

Dalam rangka upaya meningkatkan metode pengajaran, penerapan metode simulasi berbasis komputer pada tahap pra-praktikum telah diuji coba untuk Praktikum Telekomunikasi pada semester genap tahun ajaran 2010/2011. Simulasi mengenai materi yang akan dipraktekkan diberikan sebelum praktikum sebenarnya dilaksanakan. Berdasarkan hasil evaluasi yang dilakukan dengan teknik survei kuesioner, dapat disimpulkan bahwa metode simulasi pada tahap pra-praktikum ini memberikan manfaat utama yaitu menumbuhkan ketertarikan mahasiswa untuk melakukan praktikum serta dapat membantu persiapan materi oleh para praktikan sebelum praktikum dimulai. Secara keseluruhan, penerapan metode simulasi dinilai baik untuk dilakukan untuk dapat memberi manfaat positif bagi pelaksanaan praktikum, dan tentunya untuk meningkatkan pemahaman mahasiswa akan materi yang diajarkan.AbstractThe improvement of teaching method with simulation computer based have been implemented for Telecommunication System subject course in University Al Azhar Indonesia, year of 2010/2011. The simulation is presented before the laboratory experiment using the real equipments. The evaluation brings the conclusion that the simulation as the preliminary stage done before the laboratory experiment is useful and brings more benefits. The main contribution is to raise the interest of students to do the laboratory experiment and also to help the preparation before the experiment. As the conclusion, this simulation learning method is useful and gives positive result to increase the understanding of student.

Ball On Plate Balancing System Pada KIT Praktek PID Mata Kuliah Dasar Sistem Kendali Anwar Mujadin; Dwi Astharini
JURNAL Al-AZHAR INDONESIA SERI SAINS DAN TEKNOLOGI Vol 3, No 3 (2016)
Publisher : Universitas Al Azhar Indonesia

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.36722/sst.v3i3.218

Abstrak – Ball on plate adalah sistem pengendalian cerdas untuk mengarahkan bola yang ada diatas plate sesuai dengan pola gerakan yang diinginkan tanpa menjatuhkan bola. Ball on plate ini digerakan oleh dua buah motor servo sebagai aktuator (keluaran) untuk menentukan posisi bola. Sedangkan kamera ditempatkan diatas plate sebagai sensor (masukan). Image yang ditangkap oleh kamera kemudian diolah oleh labview menjadi pixel posisi X dan Y. Kerjasama antar mikrokontroler Arduino Uno dan Labview membentuk sebuah pengendalaian close loop system. Pada tulisan ini akan dibahas parameter penting dalam menganalisa rise time, overshoot, settling time dan steady state error pada pengendalian sistem ball on plate menggunakan PID.Kata kunci - Arduino Uno R3 Ball on plate Controller, Abstract – Ball on the plate is an intelligent control system to steer the ball over the plate that is in accordance with the desired pattern of movement without dropping the ball. Ball on plate is controlled by two servo motors as actuators (output) to determine the position of the ball. While the camera is placed on the plate as a sensor (input). Image captured by the camera and processed by labview to pixel positions X and Y. The cooperation among the microcontroller Arduino Uno and Labview configurate a close loop system. In this paper will discuss important parameter in analyzing the rise time, overshoot, settling time and steady state error in the control system using PID ball on the plate.Keywords – Arduino Uno R3 Ball on plate Controller

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