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All Journal Jurnal Teknik Elektro Universitas Tanjungpura ELKHA : Jurnal Teknik Elektro JURNAL PENGABDI Al-Khidmah BULETIN AL-RIBAATH JiTEKH (Jurnal Ilmiah Teknologi Harapan) Jurnal Amplifier: Jurnal Ilmiah Bidang Teknik Elektro dan Komputer JUSTIN (Jurnal Sistem dan Teknologi Informasi) COMSERVA: Jurnal Penelitian dan Pengabdian Masyarakat Telecommunications, Computers, and Electricals Engineering Journal Journal of Electrical Engineering, Energy, and Information Technology
Jannus Marpaung
Fakultas Teknik Untan
Arts Humanities Biochemistry, Genetics & Molecular Biology Chemical Engineering, Chemistry & Bioengineering Chemistry Civil Engineering, Building, Construction & Architecture Computer Science & IT Control & Systems Engineering Economics, Econometrics & Finance Education Electrical & Electronics Engineering Energy Engineering Industrial & Manufacturing Engineering Law, Crime, Criminology & Criminal Justice Mechanical Engineering Medicine & Pharmacology Social Sciences

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ATTENUATION ANALYSIS ON FIBER TO THE HOME (FTTH) NETWORK WITH GIGABIT PASSIVE OPTICAL NETWROK (GPON) AT OXYGEN HOME PONTIANAK Maulana, Fachri; Imansyah, Fitri; Marpaung, Jannus
Journal of Electrical Engineering, Energy, and Information Technology (J3EIT) Vol 11, No 2: August 2023
Publisher : Faculty of Engineering, Universitas Tanjungpura

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.26418/j3eit.v11i2.68551

Abstract

Optical fiber as a transmission medium that meets the needs of the internet with large bandwidth. The FTTH (Fiber To The Home) network can deliver a variety of digital information, such as voice, video and data more effectively so that it can support the Triple Play service marketed by Oxygen Home. To determine the feasibility and performance of the FTTH (Fiber To The Home) design system in the Bali Agung 2 Complex, South Pontianak, it will be assessed based on test parameters. The test parameters are Power Link Budget for system feasibility and BER (Bit Error Ratio) will be displayed with an eye diagram for system performance used using Optisystem software, Optisystem is software that can be used to simulate a fiber optic network from central to end – user. From the results of the FTTH network simulator using optical system software, it is found that the farthest user attenuation value is Prx: -16.018 dBm, 1.4804 x 10-61 and Q factor 16.5122. The results obtained are feasible because they are above the minimum FTTH network standard with GPON technology
QoS ANALYSIS ON THE ICONNET NETWORK SINGKAWANG CITY Pulungan, Annisa Kynamehule; Marpaung, Jannus; Imansyah, Fitri
Journal of Electrical Engineering, Energy, and Information Technology (J3EIT) Vol 11, No 3: December 2023
Publisher : Faculty of Engineering, Universitas Tanjungpura

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.26418/j3eit.v11i3.68500

Abstract

The purpose of this study is to analyze the Quality of Service (QoS) parameters on the Iconnet network by measuring throughput, packet loss, delay and jitter parameters when doing online games (mobile legend) and video calls (WhatsApp) with a bandwidth of 10 Mbps and 20 Mbps using wireshark application. This study discusses the causes of reduced QoS parameter values on networks in Singkawang City, data were taken at 3 times, namely morning, afternoon and evening. From all the recapitulation of QoS parameter measurement results, it can be concluded that the value of each QoS parameter can vary for each package which includes bad, good and very good categories even on the same Bandwidth package. The causes of high and low values of QoS parameters are different, Throughput is caused by the number of arrivals of packets measured during the observation process, Packet Loss is caused by the number of queues that exceed capacity, Delay is caused by the low Throughput value and the number of packets sent while the Jitter value is affected by the Delay value. External factors that can reduce the QoS value are weather conditions and the number of devices connected to the network. Network quality during the day and evening is the point when network traffic is very dense or traffic on the network is full (full traffic) where there are many users during these hours. The quality of data transfer speed is assessed with numbers 1 to 5, number 1 is the worst result, while number 5 is the best result. Packet Loss is caused by the number of queues that exceed capacity, Delay is caused by low Throughput values and the number of packets sent while the Jitter value is affected by the Delay value. External factors that can reduce the QoS value are weather conditions and the number of devices connected to the network. Network quality during the day and evening is the point when network traffic is very dense or traffic on the network is full (full traffic) where there are many users during these hours. The quality of data transfer speed is assessed with numbers 1 to 5, number 1 is the worst result, while number 5 is the best result. Packet Loss is caused by the number of queues that exceed capacity, Delay is caused by low Throughput values and the number of packets sent while the Jitter value is affected by the Delay value. External factors that can reduce the QoS value are weather conditions and the number of devices connected to the network. Network quality during the day and evening is the point when network traffic is very dense or traffic on the network is full (full traffic) where there are many users during these hours. The quality of data transfer speed is assessed with numbers 1 to 5, number 1 is the worst result, while number 5 is the best result. External factors that can reduce the QoS value are weather conditions and the number of devices connected to the network. Network quality during the day and evening is the point when network traffic is very dense or traffic on the network is full (full traffic) where there are many users during these hours. The quality of data transfer speed is assessed with numbers 1 to 5, number 1 is the worst result, while number 5 is the best result. External factors that can reduce the QoS value are weather conditions and the number of devices connected to the network. Network quality during the day and evening is the point when network traffic is very dense or traffic on the network is full (full traffic) where there are many users during these hours. The quality of data transfer speed is assessed with numbers 1 to 5, number 1 is the worst result, while number 5 is the best result.
ANALYSIS THE IMPACT OF ENCLOSING VARIOUS MATERIALS ON THE STRENGTH OF WIFI SIGNAL RECEPTION Rizki Akbar Rabbani, Adil Nurhaqqi; Yacoub, Redi Ratiandi; Marpaung, Jannus
Journal of Electrical Engineering, Energy, and Information Technology (J3EIT) Vol 11, No 2: August 2023
Publisher : Faculty of Engineering, Universitas Tanjungpura

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.26418/j3eit.v11i2.68584

Abstract

Installation Wi-Fi is sometimes hindered by obstacles such as wood, concrete, and glass. The presence of these materials may affect the signal strength received by the user. Therefore, research was carried out by enclosing router using PVC, acrylic and glass materials with a thickness of 2mm, 3mm and 5mm and a distance of 2m, 4m, 6m, 8m, 10m, 12m, 10.2m and 11.4m for RSSI measurements and Quality of Service at a distance of 12m and 11.4m in the morning, afternoon and evening. The measurement results show a decrease in RSSI depending on the obstacle and distance. This is because the signal experiences diffraction and reflection which causes the signal strength to weaken and the farther the distance the weaker the signal. Measurements at the moment non-line of sight has quite poor results, especially when the glass barrier with a thickness of 5mm is at a distance of 11.4 with an average RSSI value of 74.6 dBm. QoS parameter results show Throughput When video streaming all have a bad category due to low number of packets. Parameter Packet Loss all of them are in a very good category, showing the least missing packets. Parameter Latency all of them have a very good category though Throughput low, influenced by the number of incoming packets. Parameter Jitter good with 2mm and 3mm barriers, while 5mm in the afternoon is moderate, influenced by Latency.
BIQUAD ANTENNA DESIGN WITH CIRCLE REFLECTORS Pratama, Nanta Aprilian; Marpaung, Jannus; Suryadi, Dedy
Telecommunications, Computers, and Electricals Engineering Journal (TELECTRICAL) Vol 1, No 2: October 2023
Publisher : Faculty of Engineering, Universitas Tanjungpura

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.26418/telectrical.v1i2.70022

Abstract

This research is about how to develop a signal receiving antenna using cans as a reflector and copper wire in the form of BiQuad as a drive. With the experimental method directly to the research site which is useful for analyzing each captured signal strength. One of the objectives of this research is to support the improvement of the creative economy in Sungai Kupah Village, where the area really needs help from signal strength. The results of this study indicate that using only a can antenna can improve the GSM signal quality. There are 2 providers used, namely Tri and Telkomsel by taking variable values from Signal Strength, RSSI, SINR, RSRP, RSRQ, Ping, Upload, Download and taking the daily data for 5 research days in the morning and evening which aims to analyze any change in the value of the variable data. The average value obtained by the Tri provider for 5 days in the morning at Signal Strength -113.4 dBm, RSSI -82.64 dBm, SINR 4.78 dB, RSRP -113.4 dBm, RSRQ -13.2 dB , Ping 168.21 ms, Upload 37.68 Mbps, Download 2.08 Mbps. The average value obtained by the Tri provider for 5 days in the afternoon at Signal Strength -112.8 dBm, RSSI -82.36 dBm, SINR 4.56 dB, RSRP -112.8 dBm, RSRQ 13.3 dB, Ping 194.60 ms, Upload 20.52 Mbps, Download 9.15 Mbps. The average Telkomsel provider gets for 5 days in the morning at Signal Strength -115.8 dBm, RSSI -87.16 dBm, SINR 4.56 dB, RSRP -115.8 dBm, RSRQ -10.3 dB, Ping 189.14 ms, Upload 23.52 Mbps, Download 15.67 Mbps. The average Telkomsel provider gets for 5 days in the afternoon at Signal Strength -113.8 dBm, RSSI -86.12 dBm, SINR 6.16 dB, RSRP -113.8 dBm, RSRQ -9.7 dB, Ping 157.52 ms, Upload 31.83 Mbps, Download 22.27 Mbps.
DATA COMMUNICATION MODEL WITH TECHNOLOGY LORA MULTI-HOP: FIRE INFORMATION CASE STUDY MULTI-STOREY BUILDING Fitri, Fitri; Marpaung, Jannus; Tjahjamooniarsih, Neilcy
Telecommunications, Computers, and Electricals Engineering Journal (TELECTRICAL) Vol 2, No 2: October 2024
Publisher : Faculty of Engineering, Universitas Tanjungpura

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.26418/telectrical.v2i2.84928

Abstract

LoRa is a long-range communication technology with the advantage of wide coverage but faces challenges in single-hop communication. This issue arises because the communication occurs in Non-Line of Sight (NLOS) conditions. The method used to address this is by testing a multi-hop LoRa communication system, where relays act as intermediaries between the transmitter and the gateway. The results from this study show that communication between the transmitter and relay 1 maintains a consistent RSSI of -94 dBm with an SNR ranging from 8.25 dB to 10 dB. Communication between relay 1 and relay 2 has an RSSI ranging from -83 dBm to -86 dBm and an SNR between 7.50 dB and 9.50 dB. For communication between relay 2 and relay 3, RSSI ranges from -105 dBm to -116 dBm with an SNR between 3 dB and -8 dB. Communication between relay 3 and the gateway shows an RSSI between -94 dBm and -97 dBm with an SNR between 2.00 dB and 2.50 dB. The multi-hop LoRa system successfully detected and transmitted fire data in real-time, including smoke concentrations rising to 85 ppm, with smoke and fire indicators both showing a value of 1, indicating the presence of a fire, as well as changes in temperature and humidity. The system consistently detected and transmitted fire data accurately under various conditions, with sensor data from the transmitter reaching the gateway without loss or damage.
PROGRAM MODIFICATION ON THE NODEMCU USING THE OVER THE AIR METHOD THE CASE OF AIR MONITORING EQUIPMENT Andriany, Oktaviani Laurensia; Marpaung, Jannus; Tjahjamooniarsih, Neilcy
Telecommunications, Computers, and Electricals Engineering Journal (TELECTRICAL) Vol 2, No 2: October 2024
Publisher : Faculty of Engineering, Universitas Tanjungpura

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.26418/telectrical.v2i2.84927

Abstract

Internet of Things (IoT) is a technology that allows devices to connect to other devices via the Internet network. Over The Air (OTA) is a wireless delivery mechanism for transmitting data and performing updates. Modify the NodeMCU by updating it so that the sensor condition is active by uploading files containing programs wirelessly successfully carried out by the method Over The Air. Mark Packet loss 0% at the time upload file from laptop to NodeMCU when activating 1 DHT22 sensor and 2 DHT22 sensors and MQ7 can only reach a distance of 40 m in use Wi-Fi with a working frequency of 2.4 GHz. The difference in value Delay between updating just 1 sensor, namely DHT22, and 2 sensors, namely DHT22 and MQ7, at a distance of 5 m it is 0.1 ms, at a distance of 10 m it is 0.4 ms, at a distance of 20 m and 30 m it is 0.5 ms, and at a distance 40 m is 0.7 ms. Meanwhile, at a distance of 50 m - 100 m, updates using the over-the-air method can no longer be updated because the ESP8266 NodeMCU can no longer connect to the network Wi-Fi with a frequency of 2.4 GHz.
PADDY PAST TRAP SYSTEM BASED ON LONG RANGE COMMUNICATION Juanda, Juanda; Marpaung, Jannus; Putra, Leonardus Sandy Ade; Imansyah, Fitri; Yacoub, Redi Retiandi
Telecommunications, Computers, and Electricals Engineering Journal (TELECTRICAL) Vol 1, No 1: June 2023
Publisher : Faculty of Engineering, Universitas Tanjungpura

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.26418/telectrical.v1i1.69895

Abstract

Indonesia is an agricultural country that produces rice plants. The decline in crop yields was caused by pests and had an impact on rice plants which experienced yellowing leaves, broken stems, until the rice fruit became empty. Test results data in the form of numbers in certain units will be presented in the form of tables and graphs. To find out the symptoms or behavior of the system at the time of testing, an analysis is carried out. The research was conducted for 5 nights starting at 18.00 until 06.00 WIB. The LoRa sender will send data when a pest lands on a 1000-1500 VDC wire net. In the research conducted, a total of 97 pests were found. The peak of pest attacks occurs at 19:00 to 20:00 WIB. Walang sangit attacks rice plants in all phases, so it is not surprising that this pest has the largest number, namely 87 pests. The rain that falls makes the lights dim thereby reducing the interest of the pests in the pest traps. Lamps with a wavelength of 500 nm can attract the attention of nocturnal pests that attack rice plants at night.
EFFECT OF SHADING ON HALF-CUT SOLAR PANELS POWER OUTPUT Pratama, Bayu Angga; Hiendro, Ayong; Marpaung, Jannus; Yusuf, M. Ismail; Imansyah, Fitri
Telecommunications, Computers, and Electricals Engineering Journal (TELECTRICAL) Vol 1, No 2: October 2023
Publisher : Faculty of Engineering, Universitas Tanjungpura

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.26418/telectrical.v1i2.69957

Abstract

The output power generated by the photovoltaic module and its lifetime depend on many aspects. Some of these factors include: type of PV material, intensity of received solar radiation, cell temperature, parasitic resistance, clouds and other shadowing effects, inverter efficiency, dust, module orientation, weather conditions, geographical location and cable thickness and others. There are several environmental parameters that can affect the performance of solar cells, including changes in temperature, intensity of solar radiation, partial covering of the surface of the solar cell. Partial covering of the solar cell surface is usually caused by dust adhering to the solar panel for a certain period of time or it can also be caused by animal droppings such as birds that accidentally hit and cover the surface of the solar panel. Because it causes the closing of the solar cell, the performance of the solar cell will not be maximized, so it can greatly affect the decrease in the value of the output power and also the current generated. But how big the resulting influence is not yet known. The data logger managed to record the necessary parameters of the PV circuit that is applied to the shadow, namely, Voc voltage, working voltage, working current and power. The application of a rectangular shadow pattern has differences from a circle pattern, namely: in a rectangular pattern: a significant voltage drop occurs when the shadow is applied by 60%, the PV can still emit current although it is relatively small, the PV no longer emits voltage when the shadow is more than 70% , whereas in the circle pattern: the PV voltage starts to drop after the shadow is applied by 30%, if the shadow is more than 30% then the PV is no longer flowing current.
PENGARUH INTERFERENSI SISTEM KOMUNIKASI LORA PADA FRESNEL ZONE ANTARA END DEVICE DENGAN GATEWAY Putra, Ramadhan Thalib; Yacoub, Redi Ratiandi; Marpaung, Jannus; Tjahjamooniarsih, Neilcy; Imansyah, Fitri
Journal of Electrical Engineering, Energy, and Information Technology (J3EIT) Vol 10, No 2: Juli 2022
Publisher : Faculty of Engineering, Universitas Tanjungpura

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.26418/j3eit.v10i2.60758

Abstract

Teknologi ini memiliki keunggulan dibandingkan dengan jenis komunikasi lainnya seperti seluler, bluetooth, maupun WIFI. Keunggulan LoRa adalah jangkauan komunikasinya sejauh seluler namun berdaya rendah seperti bluetooth, sehingga penggunaannya sangat cocok untuk perangkat sensor yang dioperasikan setiap tahun dengan sumber daya baterai dan dalam jangkauan area yang luas. Fresnel Zone didefinisikan sebagai letak suatu titik sinyal tidak langsung yang berbentuk elips pada jalur perambatan gelombang radio yang wilayahnya dibatasi oleh gelombang tidak langsung (indirect signal), sehingga diusahakan tidak terhalang oleh obstacle. Pada penelitian ini proses pengujian dilakukan di Universitas Tanjungpura, tepatnya di area Laboratorium Telekomunikasi, Fakultas Teknik, Universitas Tanjungpura. Pada ketinggian antenna pemancar 1 meter dan antenna penerima 1 meter pada jarak 50 meter, interferensi terjadi akibat interferensi dari gelombang pantul yang mengenai tanah yang menyebabkan sinyal total dari pemancar menuju penerima sedikit melemah. Pada ketinggian antenna pemancar 6 meter dan antenna penerima 3 meter pada jarak 50 meter, interferensi terjadi akibat interferensi dari gelombang pantul yang mengenai tanah yang menyebabkan sinyal total dari pemancar menuju penerima sedikit melemah. Pada ketinggian antenna pemancar 6 meter dan antenna penerima 6 meter pada jarak 50 meter, tidak terjadi interferensi yang terjadi dikarenakan Fresnel Zone tidak menyentuh tanah yang mengakibatkan kuatnya total sinyal dari pemancar menuju penerima. Pada ketinggian antenna pemancar 12 meter dan antenna penerima 3 meter pada jarak 100 meter, interferensi terjadi akibat interferensi dari gelombang pantul yang mengenai tanah yang menyebabkan sinyal total dari pemancar menuju penerima sedikit melemah. Pada ketinggian antena pemancar 12 meter dan antena penerima 12 meter pada jarak 100 meter tidak terjadi gangguan yang terjadi karena Zona Fresnel tidak menyentuh tanah yang mengakibatkan kuatnya total sinyal dari pemancar ke penerima. Ketinggian antenna pemancar dan antenna penerima akan mempengaruhi tinggi dari fresnel zone dimana semakin tinggi antenna maka halangannya semakin kecil dan terjadi minim nya pengaruh interferensi.
RENCANA PENGEMBANGAN PEMETAAN KEBUTUHAN PELANGGAN ICONNET BERDASARKAN KONDISI EXISTING BERBASIS AMARTA Febrianti, Putri Adhelia; Imansyah, Fitri; Pontia W, F. Trias; Marpaung, Jannus; Kusumawardhani, Eka
Journal of Electrical Engineering, Energy, and Information Technology (J3EIT) Vol 10, No 2: Juli 2022
Publisher : Faculty of Engineering, Universitas Tanjungpura

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.26418/j3eit.v10i2.59002

Abstract

Aplikasi Manajemen Resource Tertata (AMARTA) merupakan sebuah program pemetaan atau peta online berbasis web (Web-Based) yang digunakan secara khusus oleh PT. ICON+ dalam melakukaan pendataan atau pengelolaan aset. Dalam penelitian ini diperlukan Teknik analisis kondisi perencanaan pemetaan pelanggan ICONNET dengan menggunakan aplikasi AMARTA. Dengan melakukan pendataan atau pengelolaan aset dan membuat letak titik sebaran data pada setiap pelanggan ICONNET didapatkan hasil pendataan atau pengelolaan aset, dengan membuat letak titik sebaran dan peta sebaran pelanggan ICONNET serta rencana pengembangan pada cluster Sungai Jawi dengan menggunakan AMARTA. Pendataan aset aktivasi pelanggan ini merupakan penginputan dan pengerjaan perangkat Outside Site Plan (OSP) jaringan. Perangkat OSP adalah semua perangkat atau komponen yang berada di luar Point of Presence (PoP), seperti Optical Distribution Frame ODF (ODF), tiang, kabel serat optik, splice closure atau Joint Box (JB), dan sebagainya. Adapun pengerjaannya yaitu seperti penarikan kabel, penyambungan core (splicing core), dan sebagainya. Untuk penelitian yang dilakukan terhadap rencana pengembangan pemetaan pada cluster Sungai Jawi dapat disimpulkan bahwa cluster Sungai Jawi terbagi menjadi 3 polygon yang dimulai dari Gg. Harapan "“ Gg. Rumput Permai. Fiber Distribution Terminal (FDT) pada cluster ini terletak pada SMAN 2 Pontianak dan memiliki total FAT sebanyak 66. Kabel yang digunakan yaitu kabel 24 core dan 6 core dengan total pemakaian kabel sepanjang 11.900 m dan penggunaan tiang sebanyak 117. Perangkat ONT pada cluster ini menggunakan merk Raisecom. Titik sebaran cluster Sungai Jawi pada AMARTA hanya berupa pole, FAT, splitter, splice closure, cable. Jarak kabel drop wire dari FAT menuju ONT pelanggan rencana pengembangan jarak terdekat 75 m dan jarak terjauh 200 m dengan rata rata layanan yang dipilih oleh pelanggan 10, 20 dan 50 Mbps.
Co-Authors -, Syaifurrahman Ade Elbani Ade Putra, Leonardus ahmad rizal Aminuyati Ananda, Olin Andriany, Oktaviani Laurensia Arpiandi, Muhammad Rizky Astuti, Widia Tri Aula, Abqori Aulia, Nizza Ayong Hiendro Badriansyah, M. Bonar Sirait Damayanti, Elok Dedi Suryadi Dedy Suryadi Endrian, Ielfandi Fahmi, M. Agil Fakhry Hizballah Fauziah, Hanifah Nur Febrianti, Putri Adhelia Fitri Fitri Fitri Imansyah Fransiskus, - Haryani, Hari Hermayandi, Muhammad Iqbal Hidayat, Fahrizal Mufti Iqbal Arsyad Iqbal Arsyad Ivan Sujana Kamaludin, - Kharisma Juda, Imam Firdaus Kusumawardhani, Eka Lante, Alpianto Noti M. Iqbal Arsyad Maulana, Fachri Melisa Melisa Muhammad Saleh Muhammad Taufiqurrahman Mulyaningsih, Try Nanda Natasya, Audrey Natasya, Audrey Nanda Nazarudin, - Neilcy Tjahja Mooniarsih Noraldo, Advendri Pakpahan, Kristin Karuniawaty Pepy Anggela Pontia W, F. Trias Pratama, Bayu Angga Pratama, Nanta Aprilian Pratiwi, Anggie Pratomo, Muhammad Riski Pulungan, Annisa Kynamehule Putra, Leonardus Sandy Ade Putra, Ramadhan Thalib Putra, Syafarifqi Falih Remianda, - Rizki Akbar Rabbani, Adil Nurhaqqi Rizki Hakiki, Alif Nur Islam Gemilang Rizki, Muhammad Nur Rosi, Elisabet Sagita, Delsy Zarnavannie Sanjaya, Bomo Wibowo Saputra, Aldi Rio Seda, Yudokus Frans SETIADI, KHARISMA ARIO Setyawan, Wondo Eki Sufa, Sufa Tatama, Victor Umben, Adrianus Utama, Rangga Hari Widiantoro, Andreas Gunawan Wulandari, Nuria Yacoub, Redi Retiandi Yusuf, M. Ismail Zainal Abidin