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All Journal Jurnal Teknoif Teknik Informatika Institut Teknologi Padang Arcitech: Journal of Computer Science and Artificial Intelligence Jurnal Sistim Informasi dan Teknologi
Emil Naf’an
Universitas Putra Indonesia YPTK Padang
Computer Science & IT Control & Systems Engineering Decision Sciences, Operations Research & Management

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PENGEMBANGAN SISTEM PENJADWALAN SHOLAT DIGITAL DENGAN PENGIRIMAN PESAN PADA RUNNING TEXT MELALUI KOMUNIKASI BLUETOOTH Emil Naf’an
Jurnal Teknoif Teknik Informatika Institut Teknologi Padang Vol 9 No 1 (2021): JURNAL TEKNOIF ITP
Publisher : ITP Press

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (3299.126 KB) | DOI: 10.21063/jtif.2021.V9.1.47-54

Abstract

Penelitian ini bertujuan untuk mengembangkan beberapa hal yang belum ada pada sistem penjadwalan sholat digital yang telah diteliti oleh peneliti yang sama sebelumnya. Pengembangan tersebut diperlukan karena setelah sholat shubuh dilaksanakan, banyak jemaah masjid yang ingin berdiam diri di masjid menunggu waktu syuruq untuk melaksanakan sholat isyraq. Namun karena tidak ada penunjuk jadwal sholat syuruq pada jadwal sholat digital tersebut, maka jemaah atau pengurus masjid terpaksa melihat informasi dari kalender jadwal sholat yang ada di masjid. Disamping itu pada sistem jadwal sholat digital yang lama, ukuran running text nya relatif kecil dan tidak proporsional dengan ukuran masjid yang relatif besar. Pesan yang ditampilkan hanya bisa dibaca pada jarak 20 Meter, sedangkan panjang masjid mencapai 30 Meter, sehingga jemaah yang duduk di belakang tidak bisa membaca pesan yang ditampilkan dengan baik. Disamping itu belum ada fasilitas untuk menampilkan pesan yang dikirim dari smartphone, sehingga fungsi running text relatif terbatas karena hanya menampilkan pesan yang sudah tersimpan sebelumnya pada micro SD. Sistem ini direalisasikan dengan membuat suatu peralatan sistem penjadwalan sholat digital yang dilengkapi dengan penambahan fasilitas tersebut. Penambahan fasilitas pada jadwal syuruq menggunakan 4 buah seven segment ukuran 1 inch. Sedangkan ukuran running text terdapat penambahan sebesar 50% dari ukuran sebelumnya. Dari hasil pengujian terbukti bahwa sistem mampu menampilkan jadwal syuruq pada seven segment dan juga menampilkan pesan yang dikirimkan melalui komunikasi bluetooth pada smartphone. Ukuran running text yang relatif besar ini memungkinkan pesan dapat dibaca pada jarak yang relatif jauh yaitu pada jarak 30 meter. This study aims to develop a digital prayer scheduling system. This development is in the form of adding a syuruq prayer schedule pointer. Besides that, in the old digital prayer schedule system, the size of the running text was relatively small. The message displayed can only be read at a distance of 20 meters, while the length of the mosque reaches 30 meters, so that the congregation sitting in the back cannot read the message displayed properly. Besides that, there is no facility to display messages sent from smartphones, so the function of running text is relatively limited because it only displays messages that have been previously stored on the micro SD. This system is realized by making a digital prayer scheduling system equipment that is equipped with the addition of these facilities. The addition of facilities to the syuruq schedule uses 4 1 inch seven segments. Meanwhile, the size of running text has been increased by 50% from the previous size. From the test results it is proven that the system is able to display syuruq schedules on the seven segments and also displays messages sent via bluetooth communication on a smartphone. The relatively large size of the running text allows messages to be read at a relatively far distance, namely at a distance of 30 meters.
Akurasi Sistem Penjadwalan Sholat Digital Menggunakan Arduino Sebagai Pengendali Emil Naf’an
Jurnal Sistim Informasi dan Teknologi 2019, Vol. 1, No. 4
Publisher : Rektorat Universitas Putra Indonesia YPTK Padang

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (514.229 KB) | DOI: 10.37034/jsisfotek.v1i4.13

Abstract

This study aims to test the accuracy of the Digital Prayer scheduling system using the Arduino as a controller. The place of research is the scheduling of Digital Prayers at the Putra Putra University Mosque (UPI) of the Padang College of Computer Foundation (YPTK). Prayer schedule data is taken from the website of the Indonesian Ministry of Religion and scheduling routine lecturer activities every morning. Data is stored on a MicroSD card with a different data file name. Data is processed using the Arduino module. The data tested is the display of prayer schedules on Seven Segments and lecturer activity schedule displays on Running Text. The prayer times automatically work with the date and time display (hours, minutes, seconds) starting from the Fajr prayer to the Isha prayer at Seven Segments. Display the activity of lecturer routines automatically by displaying the names of lecturers with the specifications of their assignments, such as reading the Qur'an, reciting Asmaul Husna and praying. Testing is done by activating the equipment for a week (7 days) non stops. The system is tested in terms of the durability of components in operation, the timeliness in activating Buzzer when prayer time has entered and scheduling lecturer activities very well, precisely and accurate. Thus the system can be used and produced on a larger scale.
Rancang Bangun Alat Penampung Buku Berbasis Arduino pada Sistem Pengembalian Buku Layanan Mandiri Emil Naf’an
Jurnal Sistim Informasi dan Teknologi 2021, Vol. 3, No. 2
Publisher : Rektorat Universitas Putra Indonesia YPTK Padang

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (395.893 KB) | DOI: 10.37034/jsisfotek.v3i2.48

Abstract

This study aims to design and create a book container in a self-service book return system at the Andalusia Library & Knowledge Center UPI YPTK Padang. Currently, the self-service book return system is carried out through a book drop machine. This book container is designed to complement the book drop machine. The returned book is inserted into the slanted gap so that it can slide into the book container. When the book container is empty, the base is at the upper limit position. If a book is entered, the base will automatically drop according to the thickness of the book. And so on, until it is full and the buzzer is active. Thus, it is hoped that book damage can be prevented due to the book falling too far down. The system is designed using ultrasonic sensors to detect upper and lower limits, a Direct Current (DC) motor to move the base down according to the thickness of the book. After testing, the book container works well and is able to withstand loads of up to 22 kg with the number of books between 30 and 50 depending on the size of the book. The DC motor is able to move the book container when the load is maximum. The sensor can detect the thickness of the book, the upper and lower limits and the buzzer can activate when the book is full. Thus, this tool can be used to support the book drop in the self-service book return system.
Rancang Bangun Smart System Pelayanan Servis Kendaraan Bermotor Berbasis Arduino Mega 2560 Revan Apriadi; Emil Naf’an; Okta Andrica Putra
Arcitech: Journal of Computer Science and Artificial Intelligence Vol 3, No 1 (2023)
Publisher : Institut Agama Islam Negeri (IAIN) Curup

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.29240/arcitech.v3i1.7764

Abstract

The purpose of this research is to provide convenience and development in carrying out motorcycle servicing services effectively. In identifying problems with the smart motor vehicle service service system, it was found that the system used was still manual and had not been clearly coordinated. Efforts must be made, for example, to create a technology-based smart service system. such as using Rfid, Keyboard, Buzzer, Push Button, LED, Speaker The application of a smart system for servicing motorized vehicles can be carried out properly and connected to the Arduino Mega 2560. With a smart system for servicing motorized vehicles, this will greatly help the existing service system at the service station. motorbike or repair shop. By using the Arduino Mega 2560 microcontroller, you can properly control the motor vehicle service smart system by utilizing the RFID sensor.
Co-Authors Fenia, Selvi Zola Gushelmi M.Hafizh Okta Andrica Putra Revan Apriadi Triana Novita