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Asmungi, Gaguk
Jurusan Teknik Elektro Fakultas Teknik Universitas Brawijaya
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Performansi Internet Protocol Television (IPTV) pada Jaringan Long Term Evolution (LTE) dengan Mode Time Division Duplex (TDD) Dahniar Pepy Lestari; Endah Budi Purnomowati; Gaguk Asmungi
Jurnal Mahasiswa TEUB Vol 1, No 3 (2013)
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Abstract

IPTV dengan data real-time sangat sensitif terhadap paket yang hilang dan terlambat jika koneksi IPTV tidak begitu cepat. Maka dari itu, IPTV menggunakan Internet Protocol (IP) melewati jaringan broadband untuk pengiriman sinyal televisi digital yang mempunyai kecepatan data tinggi. Pada skripsi ini data IPTV dikirim kepada 7 user dalam kondisi diam dengan jarak antara ENodeB dengan user yang berbeda-beda. Tiap user memesan paket audio video IPTV sebesar 7807 byte. Performansi yang dibahas adalah performansi IPTV pada jaringan LTE dengan mode TDD yang meliputi parameter signal to noise ratio, kapasitas kanal, bit error rate, probabilitas packet loss, delay end to end, throughput. Hasil analisis membuktikan bahwa IPTV dapat diterapkan pada jaringan LTE mode TDD. Karena untuk performansi IPTV terburuk pada jarak dari ENodeB ke user adalah 7000 m dan pada frekuensi 2,6 GHz, nilai SNR 68,1809 dB, kapasitas kanal 452,98 Mbps, BER , probabilitas packet loss 0,1349, delay end to end 0.34 s, throughput 201,14 Mbps. Nilai pada setiap parameter itu telah memenuhi standar nilai yang ditetapkan. Kata Kunci— IPTV, LTE, TDD
PERENCANAAN JARINGAN 5G NR PADA FREKUENSI 28 GHz BERBASIS SOFTWARE ATOLL DI KOTA MALANG, JAWA TIMUR Rifaldy Yuhendri; Sigit Kusmaryanto; Gaguk Asmungi
Jurnal Mahasiswa TEUB Vol. 10 No. 4 (2022)
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Telecommunications network technology has entered the fifth generation or often called 5G NR. The availability of 5G NR network services is expected to be a solution to improve the quality of telecommunication networks in Malang City. The research in this thesis plans a 5G NR network at a frequency of 28 GHz and a bandwidth of 100 MHz, by analyzing the needs of gNodeB in Malang City and user projections from 2020 to 2025. The methods of analyzing the needs of gNodeB discussed are coverage dimensioning and capacity dimensioning. From the analysis day, the predicted number of people using the 5G NR network in 2025 is 378,052 people. The number of gNodeB needed is based on the calculation of coverage dimensioning as much as 921 gNodeB and Capacity dimensioning of 74 gNodeB. The planning results are simulated on the Atoll software. Where obtained the placement of 74 gNodeB in the Malang City area has been able to serve users. Keywords –5G, coverage dimensioning, capaity dimensioning, 28 GHz, ATOLL.
RANCANG BANGUN PEMBANGKIT LISTRIK TENAGA PIKOHIDRO (PLTPH) DENGAN TURBIN ULIR (ARCHIMEDES SCREW) Nurul Irfan AlFandy; Erni Yudaningtyas; Gaguk Asmungi
Jurnal Mahasiswa TEUB Vol. 10 No. 6 (2022)
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ABSTRACT Screw turbine (Archemedes Screw) is a turbine that utilizes the head and water flow per second flowing in the irrigation channel. This water flow will move the turbine screw. The turbine screw movement will rotate the connecting shaft between the turbine and the generator (producing mechanical energy). The shaft will drive the generator so that the mechanical energy from the shaft will be converted into electricity in the generator. This turbine operates at low speed and is newly developed in Indonesia. But as a new turbine technology, until now there are still very few theories or references available regarding the design of screw turbines. The main components of this power generator are the turbine, speed booster (gear and pulley), Boost DC Converter and battery. In measuring water discharge, the floating method is used to calculate the available water discharge. The electric power generated will be stored in a 12v 7.5 Ah battery. The generator power of the device is designed to reach a maximum point, when the water discharge is 134 liters per second, with a voltage of 5 volts which will be increased the voltage to 12.5 volts and a current of 0.53 Ampere as the battery power supply. Keywords : screw turbine, screw angle, renewable energy, new technology, PLTPH, low head
PENGENDALIAN AIR DAN NUTRISI PADA TANAMAN SELADA HIDROPONIK MENGGUNAKAN KONTROLER PID BERBASIS ARDUINO Arsyanur Muhammad Erlangga; Fakhriy Hario Partiansyah; Gaguk Asmungi
Jurnal Mahasiswa TEUB Vol. 11 No. 2 (2023)
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Hydroponics is a method of cultivating plants without using soil media. Farming with hydroponic media always pays attention to providing nutrient levels that are in accordance with the needs of plants. The purpose of this research is to test a water and nutrient control system using a PID controller with a setpoint of 500 ppm and 14 cm water level. By using a PID controller, the system produces a small steady state error and gets a faster settling time. The PID controller tuning process using the Ziegler-Nichols 1 method obtained parameter values Kp = 8.4, Ki = 0.15, and Kd = 21. From the test results of nutrient control, it was found that the steady state occurred at the 45th second, overshoot 0% and steady state error was 2.53%. From the results of the water level control test, it is obtained that the steady state occurs at the 175th second, the overshoot is 0% and the steady state error is 0.36%. Index Terms— Hydroponics, PID Controller, Water and Nutrient Control.
ANALISIS PENGARUH SUDUT ELEVASI PANEL SURYA 50 WP TIPE MONOCRISTALLINE SILICON TERHADAP DAYA KELUARAN Elvando Putra Nugroho; Fakhriy Hario Partiansyah; Gaguk Asmungi
Jurnal Mahasiswa TEUB Vol. 11 No. 2 (2023)
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The potential for solar energy in Indonesia is very profitable if it can be utilized properly and correctly. However, in its application as a power plant, solar panels often encounter problems where the output power generated from solar panels is often less than optimal, so that it will affect the supply of power to the load. The purpose of this study was to determine the effect of theelevation angle of the solar panel on the output power of the 50 WP monocrystalline silicon type solar panel and to determine the installation of solar panels that can produce high output power. The results obtained from this study by adjusting the elevation angle of the solar panel with the HRA (Hour Angle) angle for each hour of solar irradiation can maximize the maximum output power for each hour of irradiation. In addition, another solution for installing solar panels can be done by using the HRA12 angles as an alternative angle for installing solar panels, which in this study obtained an average radiation intensity during solar irradiation hours of 18.22%. Index Terms— Elevation Angle, Output Power, Monocristalline Sillicon, Solar Panel.
IMPLEMENTASI LOGIKA FUZZY MAMDANI PADA PENGENDALIAN NUTRISI TANAMAN HIDROPONIK Adita Aulia A. Rachman; Fakhriy Hario Partiansyah; Gaguk Asmungi
Jurnal Mahasiswa TEUB Vol. 11 No. 2 (2023)
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The increasing demand for vegetables as a consumption commodity and the decreasing availability of land for conventional cultivation have led to hydroponic cultivation as one of the solutions. Unlike soil-based farming, hydroponics uses water as the medium for growing. However, the nutrient levels of hydroponic plants must be maintained within a certain range. Nutrient deficiencies can cause leaves to wilt and curl, while excess nutrients can cause leaves to turn dark green, indicating poor plant health. Thus, the purpose of this research is to develop an automatic nutrient controller that operates according to a setpoint to ensure that hydroponic plants receive the appropriate nutrients. In this study, Mamdani fuzzy logic control is used because of its simple structure, and its linguistic methods can be analyzed mathematically, making it easy to understand. Fuzzy logic control converts crisp input values into fuzzy values using membership functions, then applies the rules that have been created based on implication, followed by rule composition, and finally defuzzification to convert the fuzzy values into crisp output values. Index Terms— Hydroponics, Mamdani Fuzzy Logic Control, Membership Function DAFTAR PUSTAKA[1] Badan Pusat Statistik. 2020. Produksi Tanaman Sayuran 2017-2020. Statistik Telekomunikasi Indonesia. Jakarta.[2] Hudoro. 2003. Keuntungan Budidaya Hidroponik. Rineka Cipta: Jakarta.[3] Mashumah, Siti, dkk. 2018. Nutrient Film Technique based Hydroponic System Using Fuzzy Logic Control. International Seminar on Intelligent Technology and Its Applications (ISITIA). Institut Teknologi Sepuluh Nopember.[4] Triwidyastuti, Y., Puspasari, I., & Harianto, H. 2018. Comparison between PID and Fuzzy Controller to Hydroponi Temperature. International Conference on Information Technology Applications and Systems (ICITAS).[5] Safura, S. A. El, dkk. 2018. Rancang Bangun Sistem Kontrol Logika Fuzzy Pada Pengaturan Nutrient Film Technique. e-Proceeding of Engineering, 5(1), 959-966.
Co-Authors Abdurrahman Syah Adita Aulia A. Rachman Anindito Yusuf Wirawan Arsyanur Muhammad Erlangga Bayu Bisworo Budiman, Mohammad Anggoro Dahniar Pepy Lestari Dewi Nur Ayuningtya Dista Narulina Riyasa Elvando Putra Nugroho Endah Budi Purnomowati Erfan Achmad Dahlan Erni Yudaningtyas Fadli Fatkhurrizki Farhanudin Ahmad Fathur Rahman Febriana Dwi Lestari Febyati Muktya Amalia Ghifari Amanar Ghilman Rachmat Alfakkar Giffary Risa Nugraha Gregory Marcellino Kacaribu Habib Nurseha Anggradinata Hanif Yahya Muhatdin Haryo Widagdo Kusmaryanto, Sigit Muhammad Ruvaldo Dennis Muhammad Syauqil Amin Mustofa, Ali n/a Gunawarman Nurul Irfan AlFandy Panji Krisna Dwi Cahya Partiansyah, Fakhriy Hario Raden Arief Setyawan Raihan Adi Nugroho Reza Sufi Al Kamil Rifaldy Yuhendri Rudy Yuwono Shofia Fitriyanti Tequitha Layyinatul Qalbi Unggul Wibawa Wahyu Adi Priyono Wahyu Ramadhan Yusuf, n/a Zikrie Pramudia A.