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All Journal Elektron Jurnal Ilmiah Teodolita: Media Komunikasi Ilmiah di Bidang teknik CESS (Journal of Computer Engineering, System and Science) Jurnal Ilmiah Dinamika Rekayasa (DINAREK) PROtek : Jurnal Ilmiah Teknik Elektro Jurnal RESTI (Rekayasa Sistem dan Teknologi Informasi) SCIENCE TECH: Jurnal Ilmiah Ilmu Pengetahuan dan Teknologi TELKA - Telekomunikasi, Elektronika, Komputasi dan Kontrol Jurnal Teori dan Aplikasi Fisika JURNAL SURYA ENERGY Jurnal E-Komtek JURPIKAT (Jurnal Pengabdian Kepada Masyarakat) Yayasan Cita Cendikiawan Al Khwarizmi Journal of Telecommunication, Electronics and Control Engineering (JTECE) Jurnal Nasional Teknik Elektro dan Teknologi Informasi Journal of Electronic and Electrical Power Application eProceedings of Engineering Jurnal Kendali Teknik dan Sains Jurnal INFOTEL Jurnal SINTA: Sistem Informasi dan Teknologi Komputasi
Fikra Titan Syifa
Institut Teknologi Telkom Purwokerto
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Purwarupa Pemantauan Volume Kondisi Volume Air Galon Berbasis Internet of Things (IoT) Syifa, Fikra Titan; Prakasa, Anantia
JURNAL SURYA ENERGY Vol. 4 No. 2 2020
Publisher : UNIVERSITAS MUHAMMADIYAH PALEMBANG

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.32502/jse.v4i2.2546

Abstract

 Sistem pemantau volume air di dalam galon sudah banyak dibuat purwarupa atau prototipenya dengan berbagai macam jenis sensor dan media transmisi pengiriman informasinya. Setiap purwarupa sistem pemantau tersebut mempunyai kelebihan dan kekurangan sendiri-sendiri.  Penelitian ini bertujuan untuk  memantau volume air di dalam galon dengan menggunakan sensor berat Loadcell HX711 dan menggunakan media transmisi WiFi yang tersedia NodeMCU ESP8266. Selain itu, software Android IFTTT dan aplikasi Telegram dirancang sebagai platform pemroses, pengirim data beserta antar muka dari sistem pemantau air ke dunia luar atau internet.  Jika volume air terdeteksi kurang dari 1,2 kg, atau 1,2 liter, maka  telegram akan menerima notifikasi dari sensor yang dipasang.   Berat maksimal yang dapat diterima alat adalah 5 kg dan air yang diisi adalah 3 liter. Pengujian yang dilakukan ada dua macam, pengujian sensor dan pengujian alat. Pengujian sensor dengan beban yang beragam mendapatkan hasil error yang bervariasi dengan nilai error tertinggi 11,7%. Sedangkan rata-rata error sensor satu sebesar 4,02% untuk sensor dua sebesar 4,72%. Pada pengujian alat rata-rata error pada alat satu yaitu 0,29% sedangkan pada alat dua mendapatkan hasil error 0,46%. Berikutnya, delay atau tunda pengiriman data melalui platform IoT untuk sensor loadcell satu memiliki delay atau tunda rata-rata waktu pengiriman notifikasi ke telegram sebesar 4,045 detik dan 4,184 detik pada sensor loadcell dua. Oleh karena itu, sistem minimum NodeMCU digunakan untuk menyelesaikan masalah. Pengujian alat mendapatkan hasil yang memuaskan yaitu prototip ini dapat mendeteksi volume air dibawah 1,2 kg dan mengirimkan informasi pada telegram.Many prototypes of water volume monitoring system in gallon have been developed instead variety of sensors and transmission media for sending information. Each prototype monitoring system has its own advantage and disadvantage. This research focused on monitoring gallon volume of water by using the loadcell sensor HX711 weight sensor and using the available WiFi transmission media NodeMCU ESP8266. In addition, the IFTTT Android Software and Telegram application are designed as a processing platform, sending data and interfacing from a water monitoring system to the outside world or the internet. If the detected water volume is less than 1.2 kg or 1.2 liters, the telegram will receive notification from the installed sensor. The maximum weight that can be received by the tool is 5 kg and the water amount filled is 3 liters. There are two kinds of testing, sensor testing and tool testing. Testing sensors with various loads get variable error results with the highest error value of 11.7 %. While the average sensor error is 4.02 % for sensor two is 4.72 %. In tool testing the average error in tool one is 0.29 % while in tool two it gets 0.46 % error results. Next, the delay about sending data through the IoT platform for loadcell sensor one has an average time sending notification to the telegram of 4.045 second and 4.184 second on loadcell sensor number two. Therefore, the minimum system NodeMCU is used to solve the problem. Testing tools get satisfactory results, this prototype can detect the volume of water below 1.2 kg and send information into telegram. 
Perancangan Prototype penyiram tanaman otomatis menggunakan protokol 802.11ac jaringan Raspberry Pi 3 B+ Yudhistira, Erastus Chandra; Prakasa, Anantia; Syifa, Fikra Titan
JURNAL SURYA ENERGY Vol 6, No 1 (2021)
Publisher : UNIVERSITAS MUHAMMADIYAH PALEMBANG

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.32502/jse.v6i1.3490

Abstract

Perancangan prototype penyiram tanaman otomatis yang memungkinkan pemanfaatanya digunakan untuk melakukan perawatan tanaman yang lebih efektif dan efisien dengan dipasangkan sensor DS18B20 sebagai sensor pengukur suhu dan sensor soil moisture sebagai sensor pengukur kelembaban tanah untuk memonitoring keadaan lingkungan sekitar saat sehingga membantu langkah-langkah perawatan yang lebih optimal.
Penentuan Titik Pengamatan Optimal Terhadap Kualitas Udara pada Gas Keluaran Diffuser berbasis Internet of Things Irmayatul Hikmah; Afifah Dwi Ramadhani; Fikra Titan Syifa
Jurnal Teori dan Aplikasi Fisika Vol 9, No 2 (2021): Jurnal Teori dan Aplikasi Fisika
Publisher : Universitas Lampung

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.23960/jtaf.v9i2.2754

Abstract

Indoor air quality needs attention, especially during the COVID-19 pandemic because the majority of activities are carried out indoors. The air in the room must be protected from the threat of harmful virus and bacterial contaminants. One such innovation is placing diffuser in the room. Diffuser is a device that converts liquid into gas particles in the air. To reduce harmful virus contamination, a natural antiseptic liquid is filled into the diffuser, one of which is papermint essential oil, which can provide freshness in the room. Air quality is monitored with internet of things (IoT) technology so that users can easily control air quality with just a PC/gadget. The gas output from the diffuser is detected by a gas sensor that is connected to the wemos board so that the data can be connected to the internet cloud. To obtain optimal air quality data, the placement of gas sensors in the area around the diffuser as a point of observation needs to be considered because the distribution of gas in the air is influenced by the vertical wind speed in the room, this can affect the quality of the data generated. This study aims to determine the optimal observation point on an IoT-based diffuser so that the resulting air quality data is more accurate. In this study the gas sensor was placed at a distance of 15 and 25 cm from the diffuser. The direction of the gas sensor placement was adjusted according to the angle of the full circle ranging from 0°, 45°, 90°, 135°, 180°, 225°, 270°, 315°, and 0°. The distribution of gas is influenced by the vertical wind speed in the room causing the air quality data at a vertical angle to always have the same pattern. From the results obtained, the optimal observation point as a reference for the position of the gas sensor to the diffuser is at an angle between 135°-180° as well as at an angle between 315° -0°.
Implementasi Teknologi Internet of Things Pada Sistem Pemantauan Kebocoran Gas LPG dan Kebakaran Menggunakan Database Pada Google Firebase Abi Sabila Mustaqim; Danny Kurnianto; Fikra Titan Syifa
Elektron : Jurnal Ilmiah Volume 12 Nomor 1 Tahun 2020
Publisher : Teknik Elektro Politeknik Negeri Padang

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (881.839 KB) | DOI: 10.30630/eji.12.1.161

Abstract

Fire due to Liquefied Petroleum Gas (LPG) gas leak is one of the disasters that still often occurs in the community. Community ignorance of safety standards in using LPG gas is one reason. Fires can be prevented if at the time of the LPG gas leak can be detected earlier. Therefore we need a system that can monitor the condition of gas leaks and fires remotely. Internet of things (IoT) technology can be applied to this monitoring system so that information on LPG gas leaks and fires can be monitored remotely. The Internet of Things (IoT) based LPG and Fire leak monitoring system is a concept that utilizes internet connectivity between smartphone devices connected to sensor devices. The devices used to support this system include NodeMCU ESP8266 as a microcontroller and as a liaison to the internet, MQ-6 gas sensors and flame sensors as sensors for detecting gas and fire leaks, buzzers as alarms, and fans as neutralizing gas levels in the room. Data obtained by the sensor will be uploaded to the database via the internet and can be accessed through an android application. The results of the design show that the android application can display notifications when a gas leak or fire occurs. In testing the performance of data transmission, the results show that the highest data transmission delay is 64,61 seconds, and the lowest delay time is 61,56 seconds, the highest throughput value is 747,6 bits/second, and the lowest value is 285,4 bits/second.
Pemanfaatan Google Firebase Pada Sistem Tempat Sampah Pintar Berbasis Internet of Things Armanda Suryaningrat; Danny Kurnianto; Fikra Titan Syifa
Dinamika Rekayasa Vol 17, No 1 (2021): Jurnal Ilmiah Dinamika Rekayasa - Februari 2021
Publisher : Jenderal Soedirman University

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.20884/1.dr.2021.17.1.324

Abstract

Sampah merupakan sisa hasil kegiatan manusia dan atau proses alam yang berbentuk padat. Direktur Jenderal Pengelolaan Sampah, Limbah dan Bahan Beracun Berbahaya (B3) mengatakan proyeksi volume sampah rumah tangga dan sejenis sampah rumah tangga pada 2018 mencapai 66,5 juta ton. Pengelolaan sampah yang masih kurang baik di masyarakat menjadi salah satu problematika klasik. Tempat sampah pintar menjadi salah satu alternatif solusi bagi permasalahan sampah di masyarakat.  Tempat sampah pintar dirancang untuk dapat mengetahui ketinggian sampah dan mengirimkan notifikasi kepada petugas melalui teknologi Internet of Things.  Hasil pembacaan ketinggian sampah disimpan secara langsung melalui Google Firebase. NodeMCU ESP8266 digunakan sebagai pusat pengolah data dan menghubungkan perangkat tempat sampah ke Google Firebase melalui akses internet, sedangkan sensor HC SR04 digunakan untuk mendeteksi ketinggian sampah. Hasil pengujian menunjukkan bahwa data dapat terkirim dengan baik ke Google Firebase tanpa ada data yang hilang, Error pengukuran ketinggian sampah yang dihasilkan dari pengujian sebesar 0%, ini berarti bahwa nilai ketinggian sampah yang dipantau dari jarak jauh sama dengan ketinggian sampah sebenarnya di tempat sampah pintar dengan kecepatan ping internet 30ms - 60ms.
Analisis Perbandingan Kualitas Layanan Sistem Antara Protokol HTTP dan MQTT Pada Monitoring Kelembaban Tanah Anang Dwi Prakoso; Fikra Titan Syifa; Danny Kurnianto
PROtek : Jurnal Ilmiah Teknik Elektro Vol 7, No 2 (2020): PRotek : Jurnal Ilmiah Teknik Elektro
Publisher : Program Studi Teknik Elektro Universitas Khairun

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.33387/protk.v7i2.1658

Abstract

This paper discusses the comparison of service quality between HTTP protocol and MQTT protocol implemented using internet of things to research on soil moisture around plants, quality of service compared to delay, jitter, throughput and packet loss. In this study the results showed that the HTTP and MQTT protocols have an average delay value below 150 or 63 ms. HTTP has an average jitter value between 0 - 62 ms, while MQTT has a jitter range value of between 0 - 16 ms. Whereas the HTTP throughput value is 88 ms and the MQTT protocol is 68 ms. Then for packet loss parameters both have the same quality as it generates a packet loss value of 0%. In this study it can be concluded that the use of http protocols is the superior protocol of MQTT in terms of quality of service.
Rancang Bangun Sistem Pencarian Posisi Kendaraan di Area Parkir Menggunakan Teknologi Bluetooth Fahrudin Mukti Wibowo; Fikra Titan Syifa
Jurnal RESTI (Rekayasa Sistem dan Teknologi Informasi) Vol 4 No 1 (2020): Februari 2020
Publisher : Ikatan Ahli Informatika Indonesia (IAII)

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (575.471 KB) | DOI: 10.29207/resti.v4i1.1463

Abstract

Large parking area and no sign, will make it difficult for vehicle owners to remember and find the location of the parked. Therefore, a guide system becomes one of the important things in a large parking area. The technology that can be utilized in navigation systems is bluetooth technology, which has now called BLE (Bluetooth Low Energy) with a signal reach of 100 meters, data transfer speeds 1 Mbps and low power consumption. The information from a BLE module is the value of RSSI (Received Signal Strength Indicator) which shows the signal strength received. The guide system installed on a smartphone as a receiver and BLE module as a transmitter on the vehicle. The mobile application will convert the RSSI into the distance between smartphone and vehicle, and will be displayed a guide to the vehicle. Based on the trials that have been carried out obtained an average distance error of 0.92 meters, this is due to the ups and downs of the RSSI value received. When the RSSI value received is small, it raises of accuracy. So the distance between BLE and receiver will affect the RSSI value received and affect the position accuracy of the application.
Sistem Monitoring Suhu Air pada Kolam Benih Ikan Koi Berbasis Internet of Things Slamet Indriyanto; Fikra Titan Syifa; Hanif Aditya Permana
TELKA - Jurnal Telekomunikasi, Elektronika, Komputasi dan Kontrol Vol 6, No 1 (2020): TELKA
Publisher : Jurusan Teknik Elektro UIN Sunan Gunung Djati Bandung

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.15575/telka.v6n1.10-19

Abstract

Ikan koi merupakan salah satu jenis ikan hias yang banyak dipelihara oleh masyarakat karena memiliki bentuk serta corak warna yang indah. Pertumbuhan benih ikan koi sangat dipengaruhi oleh faktor lingkungan, diantaranya adalah suhu air kolam. Suhu air untuk pertumbuhan, selera makan, dan berat benih ikan koi berada pada 250C – 270C. Tujuan dari penelitian ini adalah merancang dan membuat sistem monitoring suhu pada kolam benih ikan koi berbasis IoT. Hardware yang digunakan yaitu development board NodeMCU ESP8266, sensor suhu DS18B20 , Relay, dan Water Heater. Sistem yang dibuat dapat memantau suhu air kolam dan menstabilkan suhu kolam secara otomatis menggunakan heater. Dari hasil pengujian sensor suhu yang digunakan didapatkan rata-rata error pada kondisi dingin sebesar 3,426 %, rata-rata error pada kondisi normal sebesar 1,778% dan rata-rata error pada kondisi panas sebesar 1,546%. Angka ini menunjukkan akurasi yang baik untuk pengukuran sensor.
Sistem Pengaman Kunci Kontak Sepeda Motor Melalui Android Berbasis NodeMCU ESP8266 Fikra Titan Syifa; Gilang Prayoga; Muntaqo Alfin Amanaf
Journal of Telecommunication, Electronics, and Control Engineering (JTECE) Vol 2 No 1 (2020): Journal of Telecommunication, Electronics, and Control Engineering (JTECE)
Publisher : LPPM Institut Teknologi Telkom Purwokerto

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.20895/jtece.v2i1.107

Abstract

Pada penelitian ini telah dikembangkan mengenai sistem pengaman kunci kontak pada sepeda motor secara nirkabel untuk mencegah kasus pencurian. Modul atau perangkat nirkabel menggunakan sistem minimum berupa NodeMCU ESP8266 yang terhubung pada perangkat smartphone milik pengguna. Terdapat dua buah sensor getaran SW420 yang diletakkan pada titik-titik tertentu pada rangka (chasis) sepeda motor. Secara keseluruhan sistem pengiriman data terdekat dengan jarak 1 meter dari NodeMCU menuju perangkat android user membutuhkan RTT (round trip time) sebesar 8.37 ms dan throughput sebesar 3192 bps. Kemudian jarak terjauh yang dapat diukur sejauh 28 meter dengan RTT sebesar 9,3 ms dan memiliki throughput 3400 bps. Proses pengiriman data dilakukan secara satu arah. Parameter yang diukur yaitu jarak, throughput, dan RTT.
Sistem Monitoring Tingkat pH, Kekeruhan dan Suhu Air Limbah Batik pada Instalasi Pengolahan Air Limbah (IPAL) Berbasis LoRa Jalil Faza; Sevia Indah Purnama; Fikra Titan Syifa
Journal of Telecommunication, Electronics, and Control Engineering (JTECE) Vol 3 No 1 (2021): Journal of Telecommunication, Electronics, and Control Engineering (JTECE)
Publisher : LPPM Institut Teknologi Telkom Purwokerto

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.20895/jtece.v3i1.146

Abstract

Batik merupakan kebudayaan asli Indonesia yang diakui sebagai warisan dunia. Banyaknya industri batik menyebabkan terjadinya pencemaran lingkungan. Beberapa industri terkadang tidak melakukan pengelolaan air limbah sesuai dengan standar yang ditetapkan. Penduduk sekitar dan pihak pemerintah setempat perlu melakukan monitoring terhadap pengelolaan air limbah dengan memanfaatkan teknologi terbaru. Salah satu standar untuk menentukan kualitas air adalah suhu, kekeruhan dan tingkat pH. Sistem monitoring air limbah batik merupakan alat yang digunakan untuk memantau parameter-parameter tersebut sehingga air batik tersebut bisa ditentukan apakah sudah layak untuk dibuang langsung ke sungai atau belum. Pada penelitian ini akan menggunakan tiga sensor untuk mengukur parameter-parameter penentu kualitas air yaitu sensor suhu air waterproof DS18B20, sensor kekeruhan SEN0189, dan pH meter SEN0161. Sistem ini bekerja dengan cara mengukur parameter-parameter tersebut lalu mengirimnya ke dalam platform internet of thing (ThingSpeak) dengan menggunakan komunikasi LoRa. Dari hasil pengujian prototype tersebut diperoleh nilai eror sensor PH4502C sebesar 2.10%, sensor kekeruhan SEN0189 sebesar 1.24% dan sensor suhu DS18B20 6,79%.
Co-Authors -, Priyatmadi Abadias Safik, Muhammad Abi Sabila Mustaqim Afandi, Mas Aly Afifah Dwi Ramadhani Agung Wicaksono Ahmad Khairol Maulidi Aiza Yudha Pratama Al Anshory, Muhammad Zahid Amaliah, Nuuraan Risqi Anang Dwi Prakoso Andhika Cahyono Putra Armanda Suryaningrat Bilal, M Bita Parga Zen Bragiwibisana, Bragiwibisana Carantia Raharditya Cindy Tio Helena Manurung Danny Kurnianto David Kasyanto, Risky Diani, Fitri Dimas Fanny Hebrasianto Permadi Dzakiya Nur Yuniar Eka Firmansyah Faizah Faizah Faizah Faizah Famila Dwi Winati Fanny, Dimas Farhan Ario Pamungkas Ferdy Rakhman Ibrahim Friska Citra Agustia Ghaly Al Ghifari, Muh. Naufal Gilang Prayoga Gladi Pawestri Utami Gunawan Wibisono Gunawan Wibisono Hanif Aditya Permana Hanif Aditya Permana hazia rifka maulida Indah Permatasari Indriyanto, Slamet Irmayatul Hikmah Jaenal Arifin Jalil Faza Kholidiyah Masykuroh Leksono, M. Lukman Listiani, Rizka Maulana, Ramadyan Meliena Vanesha Hutagalung Miftahol Arifin Muhammad Afrizal Amrustian Muntaqo Alfin Amanaf Nabila Noor Qisthani Nisa'ul Nurfajri Arofah Noor Qisthani, Nabila Novi Melawati Nur Alif, Muh Nur Azizah Nur Fajri, Bintang Nurul Latifasari Poppy Ambar Rini Pradana Ananda Raharja Prakasa, Anantia Prakoso, Anang Dwi Prasetyo Yuliantoro Priyatmadi Reza Kurniawan Rizki Candra Wahyu Pratama Rochmanto, Raditya Artha Samudra, Amar Maulana Septi Adi Cahyani Setiawan, Daffa Ikhlas Sevia Indah Purnama Sidik Setiawan, Muh Syahfitra Giffari, Henry Wibowo, Fahrudin Mukti Wulan Sari, Hesti Yosita Dwiani Suryaningtiyas Yoyakim Tarumingi, Adrian Yudhistira, Erastus Chandra YULIAN ZETTA MAULANA Zen, Nur Afifah