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Implementation of Smart Lock JT701 for Cargo Security System Sundawa, Bakti Viyata; Batubara, Febrin Aulia; Nasution, Tuti Adi Tama; Darnila, Eva
International Journal of Research in Vocational Studies (IJRVOCAS) Vol. 3 No. 4 (2024): IJRVOCAS - Special Issues - International Conference on Science, Technology and
Publisher : Yayasan Ghalih Pelopor Pendidikan (Ghalih Foundation)

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.53893/ijrvocas.v3i4.153

Abstract

The freight forwarding business, namely transportation services from various modes of transportation (carrier) and arranging a series of shipments from several senders is growing rapidly during the pandemic and post Covid-19 pandemic. However, this business development is not without problems. Security disturbances during the cargo delivery process are a major problem, and this often happens in Indonesia. For this reason, this research will build a cargo delivery security system using automation technology and based on the Internet of Things (IoT). The system is a Smart Lock installed on the cargo. This smart lock can be monitored remotely, such as opening or closing the lock and the condition of the cargo in the field. Only the cargo owner can open or close the cargo lock. In addition, this system is also equipped with temperature and vibration sensors to maintain the quality of the goods in the cargo. The results of this research will be useful for the security system and convenience of the cargo delivery process and the digitization process will be easier to do in the future.
Design of DCU Smart Lighting for Public Streetlights in Medan City Batubara, Febrin Aulia; Anugrahwaty, Rina
International Journal of Research in Vocational Studies (IJRVOCAS) Vol. 3 No. 4 (2024): IJRVOCAS - Special Issues - International Conference on Science, Technology and
Publisher : Yayasan Ghalih Pelopor Pendidikan (Ghalih Foundation)

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.53893/ijrvocas.v3i4.199

Abstract

Currently, Medan City is developing a public streetlight project along the highways of Medan City. The Medan city government has spent billions to fix this. The construction of these public streetlights also consumes the city's electricity resources. Efficiency measures are needed to reduce the use of electricity for public streetlights. We propose this research using smart lighting technology. This device will detect human and vehicle movements, time settings, and step dimming that allows dynamic lighting and dimming. This technology also allows for communication from one device to another, such as if a pedestrian or car is detected, then the surrounding streetlights will turn on. This device will be equipped with PIR sensors, ultrasonic sensors, and light sensors. With the development of Internet of Things technology currently, it is expected to help control remotely and have an integrated system. The control and monitoring system is connected via the internet. The parameters to be controlled are the presence of humans, vehicles, and lighting, and all these parameters can be monitored with web-based and Android applications. Based on the above studies, this research will design a public streetlight system using a Data Control Unit (DCU) to facilitate the control system, and this device will be integrated with sensors such as human sensors (PIR), light sensors, and ultrasonic sensors. The system is in the form of smart lighting that can be monitored remotely, such as whether lights will be bright or dim if there are road users and vehicles, and each streetlamp will be connected to each other wirelessly.
IMPLEMENTASI SISTEM PRESENSI MENGGUNAKAN RFID BERBASIS WEB Sinaga, Guiraldi Huzaini; Batubara, Febrin Aulia; Rusdi, Muhammad
Teknologi Rekayasa Jaringan Telekomunikasi Vol. 2 No. 1 (2022): April 2022
Publisher : P3M Politeknik Negeri Medan

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Abstract

Sistem presensi merupakan bagian penting dalam mengelola kehadiran karyawan atau siswa di berbagai organisasi dan lembaga. Dalam upaya untuk meningkatkan efisiensi dan akurasi proses Presensi, teknologi Radio Frequency Identification (RFID) telah digunakan secara luas. Penelitian ini bertujuan untuk mengimplementasikan sistem presensi menggunakan RFID berbasis web. Penelitian ini menggunakan metode penggunaan RFID untuk mengidentifikasi individu dan mentransmisikan data Presensi melalui jaringan web. Sistem terdiri dari beberapa komponen utama, termasuk kartu RFID yang diberikan kepada setiap individu, pembaca RFID, server, dan antarmuka web. Pada tahap awal, setiap individu diberikan kartu RFID yang berisi informasi identifikasi unik. Ketika individu tersebut memindai kartu RFID mereka di depan pembaca, pembaca akan membaca informasi dari kartu dan mengirimkannya ke server melalui jaringan web. Server kemudian akan memproses data tersebut dan menyimpannya dalam database untuk mencatat kehadiran individu. Antarmuka Web digunakan untuk mengelola dan memonitor data Presensi. Administrator dapat mengakses antarmuka web untuk melihat laporan Presensi secara real-time, mengelola data karyawan atau siswa, serta menghasilkan laporan statistik. Individu juga dapat mengakses antarmuka web untuk melihat riwayat Presensi pribadi mereka. Implementasi sistem presensi menggunakan RFID berbasis web ini memberikan sejumlah keuntungan, antara lain peningkatan efisiensi dan akurasi.
IMPLEMENTASI MODUL KOMUNIKASI JARAK JAUH MENGGUNAKAN LORA BERBASIS INTERNET OF THINGS (IOT) SMART FARMING Ardiansyah, Feri; Batubara, Febrin Aulia; Rusdi, Muhammad
Teknologi Rekayasa Jaringan Telekomunikasi Vol. 2 No. 1 (2022): April 2022
Publisher : P3M Politeknik Negeri Medan

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Abstract

Banyak aspek yang perlu diperhatikan dalam mengelola lahan pertanian agar mendapatkan hasil yang optimal. Aspek-aspek tersebut terdiri dari beberapa hal seperti suhu, kelembaban tanah, kelembaban udara dan komunikasi jarak jauh. Teknologi LoRa merupakan alat pengiriman data dengan menggunakan sinyal radio namun memiliki jangkauan yang luas, sehingga cocok untuk lahan pertanian yang luas dan kurang lancarnya sinyal internet, maka dari itu teknologi LoRa dibutuhkan agar dapat memonitoring pada pertanian sebagai komunikasi jarak jauh. Penerapan Internet of Things (IoT) ini menjadi solusi yang tepat dan dapat diatur untuk pengaturan penyiram tanaman, suhu kelembaban tanah dan dapat dipantau menggunakan aplikasi mobile Blynk dan Blynk Cloud. Setelah dilakukan penerapan teknologi LoRa maka diperoleh batas jarak maksimum antara transmitter ke receiver adalah 250 meter lalu Pompa DC dapat menyiram otomatis dengan nilai kelembaban tanah yang sudah ditentukan dan dapat di monitoring melalui Aplikasi Blynk
Peningkatan Kemampuan Literasi dan Kegiatan Kerohanian Bagi Siswa SD Swasta YP HKBP Pulo Brayan Kota Medan Sumatera Utara Tarigan, Rasdinanta; Batubara, Febrin Aulia; Amrizal; Hartika, Lia; Sundawa, Bakti Viyata
Jurnal Pengabdian dan Pemberdayaan Masyarakat Vol. 2 No. 2 (2024): Edisi Desember
Publisher : Jurusan Teknik Sipil, Politeknik Negeri Medan

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.51510/komposit.v2i2.1958

Abstract

Dunia pendidikan telah mengalami perubahan pada saat pandemi dan pasca pandemi Covid-19. Walaupun pandemi sudah mereda, namun perubahan kebiasaan kearah penggunaan teknologi informasi dalam proses belajar mengajar (PBM) masih dilakukan. Pada saat ini, PBM dilaksanakan secara blended antara luring dan daring. Hal ini membutuhkan suatu jaringan internet yang memadai. Banyak sekolah yang belum mampu menyediakan fasilitas internet dengan memadai, padahal banyak prestasi-prestasi siswa yang sudah dicapai dari sekolah tersebut. Kemampuan siswa harus ditingkatkan melalui penguatan kemampuan literasi mereka. SD Swasta YP HKBP Pulo Brayan sebagai mitra kegiatan belum memiliki jaringan internet di sekolah. Sementara untuk meningkatkan literasi bagi para siswa dibutuhkan suatu jaringan internet. Untuk itu, kegiatan ini harus didukung dengan cara menambah jaringan internet, menambah pojok-pojok baca, menambah koleksi buku-buku, dan mengadakan sound system untuk mendukung program unggulan kerohanian. Hal ini semua untuk meningkatkan kemampuan/literasi siswa agar bisa berprestasi secara regional dan nasional.
Implementation of Tracking System Based on JT701 Smart Lock Technology on Goods Delivery Service Vehicles Sundawa, Bakti Viyata; Amalia; Batubara, Febrin Aulia; Nasution, Tuti Adi Tama; Pardede, Morlan
International Journal of Research in Vocational Studies (IJRVOCAS) Vol. 4 No. 4 (2024): IJRVOCAS - Special Issues - International Conference on Science, Technology and
Publisher : Yayasan Ghalih Pelopor Pendidikan (Ghalih Foundation)

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.53893/ijrvocas.v4i4.374

Abstract

The goods delivery service industry has emerged as a strategic business both during and after the pandemic. The shift towards online shopping, which became a norm during the pandemic, let’s continue post-pandemic, making it a promising sector for companies involved in goods delivery. However, the industry faces challenges, particularly related to security during shipment. One common issue is the inability to track vehicle positions, leading to unauthorized loading and unloading activities at incorrect locations, causing losses for business owners. Conventional mechanical locks are vulnerable to theft, duplication, key loss, and vandalism, making them inadequate for securing cargo. To address these issues, Smart Lock technology has been developed, offering enhanced security through modern, integrated features. This technology eliminates the need for physical keys, reducing the risk of loss, and allows for remote access management. Additionally, it enables cargo owners to monitor the vehicle's position and control the lock remotely. Given these advancements, there is a need to explore Tracking Systems for delivery vehicles, incorporating automatic locks controlled via Internet of Things (IoT) technology. Based on the measurement, the tracking system tool testing was carried out at 5 different locations. The distances are 2.9 km, 6.4 km, 3 km, 7.1 km, 4.7 km from campus. The GPS signal is sent to the cloud server Cloud of Jointech. Data transmission uses the GSM network. There is a delay difference of 2-3 seconds from the GPS time signal compared to the time data displayed on the website. The data provided from the GPS signal is updated every 20 seconds. Based on the 5 test locations that have been set, the on/off lock test has been successfully carried out.