cover
Contact Name
Theresia Dwi Siwi
Contact Email
siwi24@gmail.com
Phone
+628155067248
Journal Mail Official
poltekadlibrary2020@gmail.com
Editorial Address
Kesatrian Poltekad Jl. Raya Anggrek, Pendem, Junrejo Batu
Location
Kota batu,
Jawa timur
INDONESIA
Jurnal Telkommil
ISSN : -     EISSN : 27231283     DOI : -
Jurnal Telkommil meliputi pembahasan tentang Sistem Telekomunikasi Analog dan digital, Sistem radar dan telemetri, Broadcast and Instrumentation System, sistem UGV, sistem UAV dan Robotic, Map Info dan GIS, Geomatika, Sensor dan Transducer, Artivicial Intellegent, Teknologi Informatika, missile and weapon control.
Articles 187 Documents
QR Code and Face Recognition-Based Vehicle Key Validation System in SIPAKAD Application: Telekomunikasi Militer Adi Setiawan; Vincensius Arga Yoda; Yudhi Darmawan
Jurnal Telkommil Vol 7 No 1 (2026): Jurnal Telkommil
Publisher : Pustaka Poltekad

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.54317/kom.v7i1.753

Abstract

Vehicle management in the military, particularly the Army, requires a secure, fast, and efficient system to support daily operations. Manual processes for driver identity verification and vehicle access have proven to be ineffective and prone to errors. This study aims to design and implement a vehicle key pickup and return validation system based on QR Code technology and face recognition through a mobile application named SIPAKAD, which is a Progressive Web App (PWA). This system was developed to enhance security, efficiency, and transparency in the management of government vehicles, particularly within the military institution of Poltekad. QR Code technology is used to identify vehicles, while face recognition serves as biometric authentication for drivers before accessing vehicle keys. The system is built using PHP, MySQL, Flask (Python), and integrated with Firebase Cloud Messaging for real-time notifications. It also uses the Flask framework as the backend and the MQTT protocol for communication between IoT (Internet of Things) devices. Testing conducted with Raspberry Pi 3B showed that the highest validation accuracy was achieved in straight face conditions with bright lighting, with an average total accuracy of 43.99% across all four conditions, while the average total response time was 5.2 seconds. The implementation results show that this system is capable of reducing identification time, thereby accelerating the validation process, minimizing manual errors, and supporting more modern and documented vehicle data management. This research makes a significant contribution to supporting digital transformation and operational security of military vehicles within military institutions.
Rancang Bangun Sistem Keamanan Brankas Pintar Menggunakan Teknologi Internet of Things (IoT) dan Kecerdasan Buatan (AI): Telekomunikasi Militer Abethnego; Vincensius Arga Yoda; Muhammad Ridwan
Jurnal Telkommil Vol 7 No 1 (2026): Jurnal Telkommil
Publisher : Pustaka Poltekad

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.54317/kom.v7i1.754

Abstract

The development of Internet of Things (IoT) and Artificial Intelligence (AI) technology has opened up new opportunities in the development of modern security systems, including for valuable storage devices such as smart safes. This research aims to design and build a smart safe security system that utilizes the integration of IoT sensors and AI-based analytics to improve protection effectiveness. The methods used include designing microcontroller-based hardware, using motion, vibration, and camera sensors, and implementing AI algorithms to detect suspicious activity in real-time and perform predictive analytics on access patterns. The results obtained show that the system is capable of providing remote monitoring, early warnings through notifications to the user's device, and more accurate threat detection. However, the integration of IoT and AI also presents challenges in terms of data security and privacy, requiring the implementation of encryption and regular audits. With this design, the smart safe is expected to be an innovative solution that is not only reactive, but also proactive in maintaining the security of money and valuables.
Design and Development of an Android-Based Border Monitoring Application Using MIT App Inventor: Telekomunikasi Militer Tri Setyo Utomo; Juanda Rahimatullah; Ananda Herdi Akbar
Jurnal Telkommil Vol 7 No 1 (2026): Jurnal Telkommil
Publisher : Pustaka Poltekad

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.54317/kom.v7i1.755

Abstract

Wilayah perbatasan merupakan kawasan strategis yang memerlukan pengawasan berkelanjutan guna menjaga kedaulatan negara. Patok perbatasan berfungsi sebagai tanda resmi batas wilayah negara sehingga harus selalu berada pada kondisi aman dan tidak mengalami pergeseran. Penelitian ini bertujuan untuk merancang dan membangun aplikasi monitoring patok perbatasan berbasis Android menggunakan MIT App Inventor untuk membantu petugas dalam memantau kondisi patok secara efisien. Aplikasi ini memanfaatkan komunikasi Bluetooth untuk menerima data sinyal dari perangkat pemantau yang terpasang pada patok perbatasan sebagai indikator adanya pergerakan atau gangguan. Metode penelitian yang digunakan adalah penelitian dan pengembangan (Research and Development) yang meliputi analisis kebutuhan sistem, perancangan aplikasi, implementasi, serta pengujian fungsional. Hasil penelitian menunjukkan bahwa aplikasi mampu menampilkan informasi status patok secara real time pada perangkat Android serta memberikan notifikasi visual ketika terjadi gangguan. Aplikasi ini diharapkan dapat meningkatkan efektivitas pengawasan wilayah perbatasan dan meminimalkan risiko akibat keterlambatan informasi.
Design of Active RFID-Based Military Base Gate Access Control System and LoRa SX1278: Telekomunikasi Militer Ridwan Asri Sudarsono; Juanda Rahimatullah; Ananda Herdi Akbar
Jurnal Telkommil Vol 7 No 1 (2026): Jurnal Telkommil
Publisher : Pustaka Poltekad

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.54317/kom.v7i1.756

Abstract

Peneltian ini membahas penerapan sistem autentikasi jarak jauh berbasis RFID aktif yang terintegrasi dengan komunikasi nirkabel LoRa untuk mengotomatiskan kontrol akses kendaraan di gerbang pos jaga Poltekad. Sistem keamanan gerbang konvensional sangat bergantung pada inspeksi manual, yang dapat menyebabkan penundaan dan kesalahan manusia. Sistem yang diusulkan menggunakan tag RFID aktif untuk identifikasi kendaraan jarak jauh, Raspberry Pi sebagai unit pemrosesan utama, LoRa SX1278 sebagai media komunikasi point-to-point, dan ESP32 sebagai pengontrol aktuator gerbang. Metode eksperimental diterapkan dengan merancang dan menguji sistem prototipe di lingkungan nyata. Hasil penelitian menunjukkan bahwa sistem tersebut mampu mengidentifikasi kendaraan resmi dari jarak jauh dan mengontrol gerbang secara otomatis dengan kinerja komunikasi yang andal berdasarkan parameter RSSI dan SNR. Sistem ini meningkatkan efisiensi, keamanan, dan efektivitas operasional kontrol akses kendaraan di lingkungan militer.
Information System and IoT-Based Personnel Location Tracking Through Smart Card Validation: Telekomunikasi Militer Afriyadi; Gatut Yulisusianto; Juanda Rahimatullah
Jurnal Telkommil Vol 7 No 1 (2026): Jurnal Telkommil
Publisher : Pustaka Poltekad

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.54317/kom.v7i1.761

Abstract

This research aims to design and build a web-based system for generating and managing membership cards integrated with Quick Response Code (QR Code) technology at the Army Polytechnic (Poltekad). The system was developed using the Python programming language with the Flask framework and MySQL database, following the Waterfall development method. System testing was conducted using Black Box Testing to verify functionality. The research results show that the system can perform Create, Read, Update, and Delete (CRUD) operations on member data, generate unique QR Codes automatically for each member based on their Registration Number (NRP), print digital membership cards in PDF/Image format integrating profile photos, personal data, and QR Codes, and verify membership through QR Code scanning. The system architecture uses a client-server model with three main entities: users, activity_logs, and kta_templates. Black Box Testing results show that all system functions work according to specifications. This system implementation contributes to the modernization of personnel administration at Poltekad by replacing manual recording methods with an efficient and accurate digital system.
Mobile Application for Army Polytechnic Smart Card Transactions Using NFC and QR Code: Telekomunikasi Militer Aria Sonta; Theresia Dwi Siwi Candra Widiyati; Muhammad Ridwan
Jurnal Telkommil Vol 7 No 1 (2026): Jurnal Telkommil
Publisher : Pustaka Poltekad

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.54317/kom.v7i1.762

Abstract

QR Code Scanning-Based Mobile Membership Checker Application
Object Movement Detection System Using GPS, Passive Infrared Sensor, and Ultrasonic Sensor for Military Training Applications: Telekomunikasi Militer Yedhi Oktafianto; Gatut Yulisusianto; Vincensius Arga Yoda
Jurnal Telkommil Vol 7 No 1 (2026): Jurnal Telkommil
Publisher : Pustaka Poltekad

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.54317/kom.v7i1.764

Abstract

Area security and movement control play a critical role in military training operations, particularly in tactical exercises conducted within restricted and predefined zones. Effective detection and monitoring of troop movement are required to ensure training safety, operational realism, and accurate situational awareness. Inadequate or delayed detection may lead to training disruption, reduced effectiveness, and potential safety risks. This paper proposes an integrated object movement detection system based on a microcontroller platform, utilizing a Passive Infrared (PIR) sensor, an ultrasonic sensor, and a Global Positioning System (GPS) module to implement a multi-level early warning mechanism for military training applications. The PIR sensor is employed to detect human motion through infrared radiation changes, while the ultrasonic sensor measures object distance using ultrasonic wave propagation to identify critical proximity thresholds. The GPS module enables real-time tracking of troop positions, with collected data transmitted wirelessly to a centralized monitoring server for remote supervision. The proposed system generates staged alerts, including an initial warning upon movement detection and a secondary warning when the object enters a predefined critical zone, delivered via audio indicators and telemetry-based notifications. Experimental evaluation conducted under simulated training scenarios demonstrates that the system is capable of accurately detecting movement, providing reliable distance measurement, and supporting real-time location monitoring with acceptable response time and stability. The results indicate that the proposed system enhances training safety and control, offering a modular and scalable solution suitable for the development of advanced sensor-based early warning and monitoring systems in military training environments.
Desain Sistem Respons Darurat Jantung Taktis Menggunakan Jam Tangan Pintar dan Peringatan Otomatis: Telekomunikasi Militer Fandi Prasetyo; Muhammad Ridwan; Ananda Herdi Akbar
Jurnal Telkommil Vol 7 No 1 (2026): Jurnal Telkommil
Publisher : Pustaka Poltekad

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.54317/kom.v7i1.765

Abstract

Kondisi darurat jantung merupakan salah satu penyebab utama kematian mendadak dari segala aspek kehidupan di jaman sekarang, dan bisa di bilang dari lingkungan militer yang memiliki presentasi stres fisik dan psikologis tinggi dikarenakan kegiatan dan tekanan yang bisa di bilang cukup tinggi di bandingkan dengan rakyat biasa. Pembahasan ini bertujuan untuk merancang sistem respons darurat jantung taktis berbasis jam tangan pintar (smartwatch) yang mampu memonitor sinyal fisiologis organ jantung secara real-time dan mengirimkan peringatan otomatis ketika terjadi kontraksi secara tidak normal. Sistem ini memanfaatkan sensor Photoplethysmography (PPG) pada smartwatch untuk mengukur denyut jantung dengan dipadukan dengan keselarasan konektivitas Internet of Things (IoT) untuk transmisi data ke pihak pribadi yang memakai jam tangan tersebut atau pun ke markas komando yang membidangi di bidak kesehatan dan komandan . Hasil dari data di atas menunjukkan bahwa sistem ini berpotensi meningkatkan kecepatan respons medis, akurasi deteksi dini, serta keselamatan personel di lapangan bisa lebih ditingkatkan.
Implementation of a Solar Cell-Based Power Supply System to Support the Operation of Boundary Marker Monitoring Devices: Telekomunikasi Militer Yosera Rico Fahmi; Muhammad Ridwan; Ananda Herdi Akbar
Jurnal Telkommil Vol 7 No 1 (2026): Jurnal Telkommil
Publisher : Pustaka Poltekad

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.54317/kom.v7i1.766

Abstract

Boundary markers in areas are like signs that show where the borders are and these borders need to be checked all the time for security. The big problem with using Internet of Things markers is that they need power all the time and this power has to come from a source that will not stop. Internet of Things boundary markers need a lot of power to work properly. This research is, about making a system that uses energy from the sun to power Internet of Things boundary markers. Internet of Things boundary markers will use cells to get the power they need. The system has panels that give us 20 to 50 watts of power. It also has a controller to charge the battery and a 12 volt lithium battery to store the power. There is a computer called an IoT module, which is an ESP32, that checks where the boundary marker is and sends this information to the server.
Peningkatan Keamanan Ssh Dengan Port Knocking Berbasis Rsa Dan Verifikasi Otp Pada Server Data Personel Militer: Rekayasa Keamanan Siber Andika Edwin Baskoro; Heri Setiawan; Asep Suryanta
Jurnal Telkommil Vol 7 No 1 (2026): Jurnal Telkommil
Publisher : Pustaka Poltekad

Show Abstract | Download Original | Original Source | Check in Google Scholar

Abstract

Securing access to servers that store military personnel data is essential to maintain the confidentiality, integrity, and availability of sensitive information within defense institutions. Servers that manage strategic data are often targeted by unauthorized users, making the implementation of a layered security mechanism necessary. Secure Shell (SSH) is commonly used for remote server access. However, if it is configured using default settings, SSH may become vulnerable to attacks such as brute-force attempts and port scanning. These attacks are frequently used by attackers to identify open ports and attempt unauthorized login access. One technique that can be used to improve server security is Port Knocking, which hides service ports from public scanning by requiring a specific sequence of connection attempts before access is granted. Although this technique can reduce the exposure of open ports, a static knocking pattern may still be discovered by attackers. This research proposes an SSH security system that integrates RSA-based port knocking with One-Time Password (OTP) verification as a two-factor authentication mechanism. The RSA algorithm is used to encrypt the knocking sequence so that the access pattern becomes difficult to predict. Meanwhile, OTP verification ensures that only authorized users can complete the authentication process. The study was conducted using an experimental approach within a server environment. The results show that the proposed system can significantly reduce unauthorized access attempts while maintaining acceptable system performance.