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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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ANALISIS UMUM PENANGANAN TROUBLESHOOTING ARSITEKTUR SISTEM JARINGAN ICONNET Remianda, -; Imansyah, Fitri; Yacoub, Redi Ratiandi; 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.v10i2.56466

Abstract

Fiber optic merupakan media transmisi yang memungkinkan untuk memenuhi kebutuhan manusia agar dapat mentransfer  data  lebih   cepat  karena  menggunakan   cahaya  sebagai penghantarnya.  Kebutuhan  media  transmisi menggunakan fiber optic yang terus meningkat, menuntut sumber daya manusia yang handal dan profesional dalam bidang fiber optic. Pengetahuan akan media transmisi fiber optic harus dipenuhi oleh setiap teknisi yang profesional. Kemampuan untuk mengatasi berbagai macam gangguan, dan melakukan pemeliharaan/penanganan pada jaringan kabel fiber optic sangat diperlukan. Dalam melakukan proses-proses tersebut, digunakan alat-alat khusus seperti OTDR, OPM dan fusion splicer. Dalam skripsi ini akan membahas mengenai analisis umum penanganan troubleshooting arsitektur sistem jaringan iconnet, seperti gangguan (ONT no internet, link loss, fiber  cut, dan bad performance) pada jaringan kabel fiber  optic dari POP sampai ONT. Dari hasil penelitian  terdapat empat variabel yang mempengaruhi besarnya suatu penanganan atau troubleshoot gangguan pada arsit ektur jaringan iconnet yait u, join ulang kabel DW, join ulang patchcord di ODP, ganti ONT yang digunakan dan join ulang patchcord di user. Diketahui bahwa banyaknya kabel DW yang banyak di join ulang menandakan perlunya pemilihan kabel yang baik dan jalur yang ideal agar meminimalisir gangguan tersebut. Dari gangguan yang terjadi pada jaringan arsitektur iconnet didapatkan bahwa penanganan yang dilakukan ialah join ulang kabel DW. Penanganan yang cepat dapat dilakukan dengan informasi data pelanggan yang akurat dan penanganan dengan bantuan alat yang tepat. Hal inilah yang akan mempengaruhi kualitas dari layanan internet.
IMPLEMENTASI TEKNOLOGI KOMUNIKASI LORA DUPLEX PADA PELONTAR PAKAN IKAN Saputra, Aldi Rio; Yacoub, Redi Ratiandi; Marpaung, Jannus; Tjahjamooniarsih, Neilcy; Saleh, Muhammad; 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.v10i2.60668

Abstract

Ikan mempunyai nilai ekonomis penting dan potensial untuk dibudidayakan karena cepat pertumbuhannya dan toleran terhadap ruang terbatas dan perubahan lingkungan. Pemanfaatan perairan laut dan pantai serta sumberdayanya untuk kegiatan budidaya ikan telah lama dikembangkan dan terus ditingkatkan. Salah satu pemanfaatan perairan laut pantai yang menjanjikan prospek yang bagus adalah budidaya ikan tambak. Dalam upaya meningkatkan produksi budidaya ikan tambak diperlukan teknologi yang ramah lingkungan, dapat dioperasikan dengan mudah, terukur parameter dan dapat dipantau atau dimonitoring menggunakan perangkat yang relevan dan terbaru. Para petambak umumnya menggunakan teknologi tradisional ataupun tradisional plus, yaitu budidaya dengan teknologi tradisional ditambah dengan sedikit pemberian pakan dan teknologi sederhana lainnya. Pengetahuan akan parameter air, seperti suhu, pH, salinitas, kekeruhan dan lain-lain mutlak diketahui oleh petambak ikan. Petambak ikan perlu mendapatkan edukasi (teori) sekaligus praktik nyata akan pengetahuan parameter air agar dihasilkan produksi ikan budidaya yang meningkat dan berkualitas baik. Di samping itu, pemberian pakan yang dilakukan dengan cara konvensional, yaitu menebar pakan secara manual, dapat digantikan dengan menerapkan teknologi, dalam hal ini teknologi pelontar pakan. Teknologi ini akan membantu petambak ikan dalam memberikan pakan, termasuk kuantitas pakan, jarak lontaran, jadwal pemberian pakan yang dapat diupdate setiap saat. Penelitian yang diusulkan ini bertujuan mendesain dan mensimulasikan suatu peralatan yang berfungsi untuk memberikan pakan ikan secara elektromekanik yang dapat diaktifkan dari jarak jauh menggunakan teknologi LoRa. Penelitian ini menggunakan metode eksperimen, dengan peralatan yang mudah didapatkan di pasaran. Komponen utama yang akan didesain dan dismulasikan dalam adalah bagian katup-katup solenoid pada kontainer pakan, unit nozzel, unit kompresi udara, perangkat komunikasi data jarak jauh (LoRa) dan program untuk mengaktifkan komponen-komponen di atas. Luaran yang ditargetkan dalam penelitian ini adalah suatu desain mekanisma pelontaran pakan yang dilakukan dari jarak jauh menggunakan teknologi LoRa. Untuk menguji desain dilakukan simulasi pada unit solenoid. Penelitian ini juga menyertakan monitoring parameter air seperti suhu dan pH, yang secara simultan dapat dilakukan dari jarak jauh menggunakan ponsel (smartphone). Desain dan simulasi akan diuji di lingkungan laboratirum fakultas Universitas Tanjungpura.
Monitoring Water Flow Speed Below Surface of River Using RS485 Modbus Communication Mulyaningsih, Try; Marpaung, Jannus; Putra, Leonardus Sandy Ade
Journal of Electrical Engineering, Energy, and Information Technology (J3EIT) Vol 12, No 3: December 2024
Publisher : Faculty of Engineering, Universitas Tanjungpura

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.26418/j3eit.v12i3.86255

Abstract

Continuing water flow rates over time can lead to sedimentation and erosion at the base of the river, potentially damaging ecosystems and infrastructure around the rivers. Monitoring of water flow speeds below the surface of a river needs to be done for monitoring in order to analyze the speed of the water flow that is in the surrounding river. The study develops a monitoring device for water flow speed under the surface using Modbus RS485 communications that are integrated with Internet of Things (IoT) technology to provide water flow information. The research method involves the use of water flow sensors and NodeMCU ESP32. The water flow sensor is capable of accumulating data with measurement accuracy of 96.92% with comparison of a digital flow meter. Tests in the pool are carried out with valve adjustments of 10% to 90% at depths of 15 cm and 45 cm. The pulse generated by the water flow sensor is seen using the Instrustar oscilloscope with the help of the Multi VirAnalyzer application. The test results showed that current speeds range from 0.05 m/s to 0.36 m/s, with pulses increasing as the flow rate increases. As for testing in rivers, sensors can measure current speed up to a depth of 60 cm, with an average speed of 0.06 m/s at a dependency of 15 cm to 0.27 m/s at 60 cm. Test results show that the more in the sensor placement, the higher the measured current speed. The data is displayed on the LCD and Blynk platform, as well as stored in the micro SD.
Data Transmission Parameters of Reservoir Water PT. Meteor Perkasa Uses Long-Distance Communication Natasya, Audrey Nanda; Marpaung, Jannus; Putra, Leonardus Sandy Ade
Journal of Electrical Engineering, Energy, and Information Technology (J3EIT) Vol 12, No 3: December 2024
Publisher : Faculty of Engineering, Universitas Tanjungpura

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.26418/j3eit.v12i3.79796

Abstract

The company engaged in the production of bottled drinking water (AMDK) is PT Meteor, the product produced is the "For3" brand product. The telecommunication system integration used is a telecommunication system The transmitter device is connected to the water parameterter sensor placed on the water storage source (Tandon), and the transmitter antenna is at a height of 8m. The receiving device is 80m, 180m, and 250m away from the transmitter with an antenna height of 1.5m above ground level. This study uses the RFM95W transceiver module to determine the test of sending sensor data from a water source using the LoRa gateway runs smoothly at the test points (distance) above. RSSI and SNR results show signal strength of -120dBm and -20dB. Although the distance is getting farther the value still looks positive, it can be said that the signal is good.
Parameter Transmisi Data Air Waduk PT. Meteor Perkasa Menggunakan Komunikasi Jarak Jauh Nanda Natasya, Audrey; Marpaung, Jannus; Sandy Ade Putra, Leonardus
JURNAL AMPLIFIER : JURNAL ILMIAH BIDANG TEKNIK ELEKTRO DAN KOMPUTER Vol. 15 No. 1 (2025): Amplifier Mei Vol. 15, No. 1 2025
Publisher : UNIB Press

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.33369/jamplifier.v15i1.37072

Abstract

Perusahaan yang bergerak di bidang produksi air minum dalam kemasan (AMDK) adalah PT Meteor, produk yang dihasilkan adalah produk merk “For3”. Integrasi sistem telekomunikasi yang digunakan adalah sistem telekomunikasi Perangkat pemancar dihubungkan dengan sensor parameterter air yang diletakkan pada sumber penampungan air (Tandon), dan antena pemancar berada pada ketinggian 8m. Perangkat penerima berjarak 80m, 180m, dan 250m dari pemancar dengan tinggi antena 1,5m dari permukaan tanah. Penelitian ini menggunakan modul transceiver RFM95W untuk mengetahui pengujian pengiriman data sensor dari sumber air menggunakan gateway LoRa berjalan lancar pada titik uji (jarak) diatas. Hasil RSSI dan SNR menunjukkan kuat sinyal sebesar -120dBm dan -20dB. Meskipun jarak semakin jauh nilainya masih terlihat positif, dapat dikatakan sinyalnya bagus.. Abstrak ditulis dalam bahasa Indonesia.
Pemantauan Laju Arus Air Anak Sungai Kapuas di Tayan Hilir Berbasis IoT dan Nirkabel Hermayandi, Muhammad Iqbal; Yacoub, Redi Ratiandi; Marpaung, Jannus
JiTEKH Vol. 13 No. 1 (2025): March 2025
Publisher : Universitas Harapan Medan

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.35447/jitekh.v13i1.1141

Abstract

Floods are natural disasters often caused by a combination of factors such as high rainfall, clogged waterways, overflowing upstream rivers, and various other geographical and environmental aspects. This research aims to develop a water flow monitoring system to provide accurate information to the public about potential flood occurrences. This method is based on Internet of Things (IoT) technology and long-range wireless communication technology (LoRa), which provides real-time access to water flow rate information. Based on the research, the water flow sensor has maximum and minimum limits. The pipe diameter of the water flow sensor significantly affects measurement results. Testing the transducer system in a pond using a water flow sensor can measure the water flow rate. Differences in accuracy and the impact of internet network instability cause data transmission delays from the receiver device to Blynk, as Blynk continuously provides notifications. Notifications can be sent by request or automatically triggered when the water flow rate reaches 0.3 m/s. The water flow monitoring information system is integrated through Telegram. Keywords: Blynk; Internet of Things; Long Range; Waterflow sensor; Monitoring System
ANALYSIS OF THE SUCCESS LEVEL OF WIRELESS DATA COMMUNICATION PERFORMANCE USING SX1278 TRANSCEIVER AT 433 MHz SPECTRUM Pratiwi, Anggie; Marpaung, Jannus; Kusumawardhani, Eka
Telecommunications, Computers, and Electricals Engineering Journal (TELECTRICAL) Vol 2, No 1: June 2024
Publisher : Faculty of Engineering, Universitas Tanjungpura

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.26418/telectrical.v2i1.77614

Abstract

In wireless communication, the success of information exchange is a critical aspect, evaluated based on parameters such as Packet Delivery Ratio (PDR) and packet loss. Several factors, such as antenna gain, antenna height, and transmission distance, if not appropriately configured, can result in a small packet data ratio due to the loss of packets in wireless communication, leading to a lack of received information. Therefore, research has been conducted to identify and understand the causes of a small packet data ratio due to packet loss. The results obtained from this research show a Packet Delivery Ratio (PDR) of 100% and packet loss of 0% with the use of a 3 dBi gain antenna, which is only able to reach a distance of 400 meters. Meanwhile, the use of a 5 dBi gain antenna can reach a distance of 800 meters. Increasing the gain antenna can enhance the transmission distance. In terms of antenna height variation, a 3 meter height achieves a Packet Delivery Ratio (PDR) of 100% and packet loss of 0%, covering a distance of 600 meters, while the use of a 6-meter antenna height can reach a distance of 800 meters. Increasing the antenna height can improve the transmission distance.
IDENTIFICATION OF THE DISTRIBUTION OF BLANK SPOT AREAS OF THE GSM NETWORK ON SEVERAL ROAD SECTIONS OF RASAU JAYA DISTRICT USING THE DRIVE TEST METHOD Rizki, Muhammad Nur; Marpaung, Jannus; Imansyah, Fitri
Telecommunications, Computers, and Electricals Engineering Journal (TELECTRICAL) Vol 2, No 1: June 2024
Publisher : Faculty of Engineering, Universitas Tanjungpura

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.26418/telectrical.v2i1.76177

Abstract

This research investigates blank spot areas on the GSM network in Rasau Jaya District with an emphasis on several roads. The drive test method and G-Nettrack application are used to identify and measure signal quality, especially RSRP (Reference Signal Received Power), from three main providers: Telkomsel, H3I, and Indosat. The research results reveal significant variations in RSRP values in blank spot areas on primary and secondary roads. On primary road Telkomsel providers with signal categories are: Very Good 77, Good 237, Not Good 227, Very Bad 465. Indosat Ooredo Primary Road, Very Good 118, Good 462, Not Good 356, Very Bad 200, H3I Primary Road , Very Good 118, Good 230, Not Good 409, Very Bad 175. Then data Telkomsel Secondary Road Very Good 60, Good 287, Not Good 75, Very Bad 1232. Indosat Ooredo Secondary Road, Very Good 122, Good 102 No Good 158, Very Bad 1372, H3I Secondary Road, Very Good 117, Good 135, Not Good 145, Very Bad 1362. Data analysis confirms that the further the measurement distance from the Base Transceiver Station (BTS), the signal quality tends to decrease, especially in the very bad category. Identification of the distribution of blank spot areas also provides insight into locations that require signal improvement, providing a basis for improvement steps in developing the GSM network in the region.
DESIGN ANTENNA MIMO 2X2 PATCH RECTANGULAR FOR WIFI 6 APPLICATIONON 5GHZ BAND Endrian, Ielfandi; Kusumawardhani, Eka; Marpaung, Jannus
Telecommunications, Computers, and Electricals Engineering Journal (TELECTRICAL) Vol 1, No 3: February 2024
Publisher : Faculty of Engineering, Universitas Tanjungpura

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.26418/telectrical.v1i3.73098

Abstract

The development of wireless network technology, particularly WiFi 6 at 5GHz, offers greater reliability and data transfer capacity. Antenna design is a crucial aspect in optimizing WiFi 6 networks in complex wireless environments. The study examined a rectangular patch 2x2 MIMO Antenna for WiFi 6 at 5GHz with a focus on improving network parameters such as return loss, bandwidth, VSWR, and gain. The use of various methods and references from Balanis (2005) and Webster (2021) supports the development of antenna technology, while previous research by Ni Putu Kartika Dewi (2019) strengthens the understanding of microstrip antennas for LTE applications. The main objectives of the study were to design and simulate a rectangular patch 2x2 MIMO Antenna for WiFi 6, as well as analyze simulation data using CST Studio Suite 2019 software. This research uses hardware in the form of Acer Aspire laptops and CST Studio Suite 2019 as simulation software and antenna design. The simulation results show that this antenna is able to work in the frequency range of 4.5-5.2 GHz with a bandwidth of 55.4 MHz and return loss of -20.677981 dB, VSWR 1.2038357, and gain 3.429 dBi with omnidirectional radiation patterns. However, the addition of antenna patches has an impact on decreasing gain. This study provides an in-depth understanding of MIMO antenna design to support WiFi 6 performance in complex wireless environments.
Implementasi Sistem Tranduser pada Peringatan Dini Banjir Berbasis Telegram Astuti, Widia Tri; Yacoub, Redi Ratiandi; Marpaung, Jannus
JiTEKH Vol. 12 No. 1 (2024): March 2024
Publisher : Universitas Harapan Medan

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.35447/jitekh.v12i1.909

Abstract

Floods as natural disasters are occurrences that can happen at any time and often result in loss of life and significant material damage. This research focuses on developing a transducer system for river water level monitoring based on Long Range Wireless Communication Technology and Internet of Things (IoT). The aim is to provide early warnings regarding river water levels, enabling the community to be more vigilant and minimize potential damage in the event of rising water levels. The research methodology involves utilizing a multiturn potentiometer in conjunction with Nodemcu ESP8266 and LoRa SX1278 devices. The results of the transducer system testing in a relevant environment showed an average difference of 0.27 cm, while testing in actual river water or real-world conditions yielded an average difference of 0.61 cm. The LoRa SX1278 testing at distances of 20 meters and 40 meters demonstrated a Packet Delivery Ratio (PDR) of 100% and a packet loss of 0%, indicating successful data reception. However, at a distance of 60 meters, the PDR was 90%, with a 10% packet loss, and at 70 meters, the PDR dropped to 10%, with a packet loss of 90%. This system includes Telegram notifications to allow users to access information on water levels as an early warning
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