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Contact Name
Theresia Dwi Siwi
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siwi24@gmail.com
Phone
+628155067248
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poltekadlibrary2020@gmail.com
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Kesatrian Poltekad Jl. Raya Anggrek, Pendem, Junrejo Batu
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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
Automatic Spraying System for Plants based on Leaf Image Detection by Using Raspberry Pi Camera Model V2: Telekomunikasi Militer Ade Barokah; Desyderius Minggu; Choirul Rio Prabowo
Jurnal Telkommil Vol 6 No 2 (2025): Jurnal Telkommil
Publisher : Pustaka Poltekad

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.54317/kom.v6i2.604

Abstract

The utilization of automated systems to increase crop maintenance efficiency, especially in fertilizer and pesticide application, has been prompted by advancements in precision agriculture technology. Using a camera module as an automated spraying controller to detect leaf images is one creative method. The integration of the Raspberry Pi v2 Camera Module with digital image processing methods in automated spraying systems is the subject of a comprehensive review of earlier research presented in this article. Actuator control in the system, analysis of leaf detection techniques, and a review of recent journal literature are some of the techniques employed. The study's findings show that real-time implementation of this technique which includes color thresholding and texture analysis for leaf detection can be accomplished with good accuracy. The Raspberry Pi v2 Camera Module offers advantages in color image and easy integration with microcontroller. In conclusion, an automated spraying system based on leaf image detection shows great potential in reducing chemical waste and improving spraying precision, although challenges remain related to lighting conditions and crop types. Further research is needed to improve system performance under various field conditions.
SmartDork: Design of a Modular Search Application Based on Google Dork Using Flask: Rekayasa Keamanan Siber Try Haryadi; Nurrahman SM; Yohanes Dwi Cahyono
Jurnal Telkommil Vol 6 No 2 (2025): Jurnal Telkommil
Publisher : Pustaka Poltekad

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.54317/kom.v6i2.605

Abstract

In the digital era, the ability to perform efficient and targeted information retrieval has become a pivotal necessity, particularly in the fields of research, cybersecurity, and Open-Source Intelligence (OSINT). Google Dorking is a powerful advanced search technique that leverages specific operators to uncover information that is not readily accessible through conventional search methods. However, the manual composition of Google Dork queries often requires a level of technical expertise, posing a significant barrier for non-technical users. To address this challenge, this study presents the design and implementation of SmartDork, a web-based application built on the Flask framework. The application's core purpose is to assist users in automatically generating tailored Google Dork queries based on their specific needs. Its modular architecture is composed of five distinct search categories: general, academic journals, news articles, datasets, and people-related information. The application was developed using a software engineering approach with Python programming and HTML template rendering. The system's effectiveness was validated through rigorous testing to ensure the accuracy and relevance of the generated queries based on user input for each module. The results demonstrate that SmartDork is capable of generating relevant and structured Google Dork queries and presenting them through an intuitive interface that simplifies complex search tasks. In conclusion, SmartDork proves to be an effective solution for users seeking to perform specific and efficient open data exploration. Future work may involve adding features for direct search execution or integration with external APIs.
Analisa Anomali Traffic Log Honeypot di Web Server: Rekayasa Keamanan Siber Yuef Okky Pradana; Jeki Saputra; Robianto Herdana Sukirno
Jurnal Telkommil Vol 6 No 2 (2025): Jurnal Telkommil
Publisher : Pustaka Poltekad

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.54317/kom.v6i2.606

Abstract

Dalam era digital yang semakin terhubung, ancaman serangan siber terhadap web server semakin canggih dan sering kali sulit dideteksi dengan sistem keamanan konvensional. Honeypot berbasis AI menawarkan solusi efektif dalam menganalisis serangan dengan memanfaatkan traffic log yang dihasilkan oleh aktivitas penyerang. Penelitian ini bertujuan untuk menganalisis anomali traffic log yang dihasilkan oleh honeypot pada web server, dengan tujuan mendeteksi serangan yang tidak teridentifikasi sebelumnya. Sistem honeypot berbasis AI digunakan untuk mendeteksi serangan, seperti XSS, SQL Injection, dan DDoS, serta menganalisis pola anomali yang terjadi. Hasil penelitian menunjukkan bahwa honeypot berbasis AI dapat mendeteksi serangan lebih cepat dan lebih akurat dibandingkan dengan sistem berbasis signature. Penelitian ini juga mengidentifikasi tantangan dalam analisis log dan pemeliharaan data pada skala besar, serta pentingnya penggunaan cloud computing untuk menangani volume data yang besar.
Implementation of a One-Time Token for PDF Document Security Based on AES-128 Encryption: Rekaya Keamanan Siber Hermansyah Syah; Desyderius Minggu; Asep Suryanta
Jurnal Telkommil Vol 6 No 2 (2025): Jurnal Telkommil
Publisher : Pustaka Poltekad

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.54317/kom.v6i2.609

Abstract

Digital document security has become a crucial aspect in preventing unauthorized access to sensitive information. This study proposes and implements a hybrid security model for PDF documents that integrates AES-128 encryption with a One-Time Token (OTT) mechanism as a dynamic access key operating in a local environment. The research method employed is software engineering using a prototyping approach combined with quantitative experimental testing. The evaluation results indicate that the system consistently achieves an access denial rate exceeding 96.7% across all unauthorized access scenarios, including replay attacks and expired token usage. In terms of performance, the system demonstrates high efficiency, with an average encryption time of 2.61 seconds for a 10 MB file. Although performance limitations were observed for extremely large files (~1 GB), this study concludes that the proposed model is an effective, reliable, and practical solution for enhancing the security of digital document distribution without relying on cloud infrastructure.
Implementasi Teknologi Monitoring Berbasis Web Server pada Rompi MILES dengan Tombol Membran untuk Latihan Efektif Personel TNI AD: Telekomunikasi Militer Sirajuddin; Muhammad Ridwan; Vincentsius Arga Yoda
Jurnal Telkommil Vol 6 No 2 (2025): Jurnal Telkommil
Publisher : Pustaka Poltekad

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.54317/kom.v6i2.611

Abstract

Penelitian ini bertujuan untuk mengembangkan sistem monitoring berbasis web server yang terintegrasi dengan rompi MILES (Multiple Integrated Laser Engagement System) dan tombol membran, guna meningkatkan efektivitas pelatihan personel TNI-AD. Sistem ini dirancang untuk memberikan pemantauan waktu nyata terhadap status peserta latihan melalui jaringan nirkabel, sehingga pelatih dapat langsung melihat performa setiap individu tanpa harus menunggu rekapitulasi data manual. Mikrokontroler ESP32 digunakan sebagai pusat kendali karena mendukung koneksi Wi-Fi dan efisien dalam konsumsi daya. Sistem yang dikembangkan terdiri dari tiga komponen utama: rompi dengan sensor, tombol membran sebagai input, dan dashboard web sebagai antarmuka monitoring. Data dikirim secara real-time melalui jaringan lokal dan ditampilkan dalam bentuk visual interaktif. Hasil pengujian menunjukkan bahwa sistem dapat bekerja secara stabil, responsif, dan dapat digunakan di lapangan dengan baik. Temuan ini menunjukkan bahwa sistem monitoring berbasis web dapat menjadi solusi efektif dalam modernisasi metode latihan militer nasional.
Rancang Bangun Solar Dome sebagai Inovasi Teknik Pengeringan Garam Berbasis Energi Surya: telekomonikasi dedi hermansyah
Jurnal Telkommil Vol 6 No 2 (2025): Jurnal Telkommil
Publisher : Pustaka Poltekad

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.54317/kom.v6i2.617

Abstract

Proses pengeringan garam di Indonesia umumnya masih memakai cara tradisional dengan menjemur di ruang terbuka. Cara ini sangat bergantung pada cuaca sehingga hasil produksi sering tidak stabil baik dari segi kualitas maupun jumlah. Penelitian ini bertujuan membuat rancangan dan bangun solar dome sebagai inovasi teknik pengeringan garam dengan memanfaatkan energi matahari. Metode yang digunakan adalah merancang kubah dengan bahan transparan agar panas matahari lebih mudah masuk, ditambah ventilasi untuk mengatur aliran udara dan kelembapan. Pembuatan solar dome menggunakan bahan yang murah dan mudah ditemukan sehingga bisa diterapkan oleh petani garam kecil. Hasil uji coba menunjukkan solar dome dapat mempercepat waktu pengeringan dibanding cara tradisional, serta melindungi garam dari hujan dan debu. Garam yang dihasilkan juga lebih bersih dan kristalnya lebih baik. Dari penelitian ini dapat disimpulkan bahwa solar dome dapat menjadi solusi praktis, ramah lingkungan, dan berkelanjutan untuk meningkatkan produksi garam di Indonesia.
PENGEMBANGAN SISTEM ENKRIPSI DATA LOG PADA GROUND CONTROL STATION DRONE MILITER: Telekomunikasi
Jurnal Telkommil Vol 6 No 2 (2025): Jurnal Telkommil
Publisher : Pustaka Poltekad

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.54317/kom.v6i2.628

Abstract

Drone tempur merupakan salah satu teknologi militer modern yang banyak digunakan dalam operasi pengintaian, serangan presisi, dan pengumpulan data intelijen. Salah satu komponen penting dalam sistem drone adalah komunikasi telemetri yang menghubungkan Ground Control Station (GCS) dengan UAV, di mana data log telemetri berfungsi sebagai rekam jejak operasional dan dasar evaluasi misi. Namun, sistem telemetri konvensional masih menyimpan serta mengirimkan data log dalam bentuk plaintext tanpa enkripsi yang memadai, sehingga rawan terhadap ancaman seperti jamming, sniffing, maupun GPS spoofing. Kondisi ini dapat mengakibatkan data log disadap, dimodifikasi, bahkan dimanipulasi musuh, yang pada akhirnya membahayakan keberhasilan operasi militer. Penelitian ini bertujuan untuk mengembangkan sistem enkripsi data log telemetri berbasis AES-256-GCM pada komunikasi GCS–Drone tempur. Metode ini dipilih karena mampu memberikan kerahasiaan, integritas, serta keaslian data melalui autentikasi tag, dengan overhead yang relatif rendah sehingga tetap mendukung kebutuhan komunikasi real-time. Sistem yang dirancang melibatkan Raspberry Pi sebagai unit pengolah data log, modul ESP8266 sebagai media komunikasi nirkabel, serta manajemen kunci berbasis ECDH + HKDF untuk mendukung proses enkripsi. Hasil implementasi menunjukkan bahwa sistem enkripsi ini mampu meningkatkan keamanan data log telemetri dengan tambahan latensi rata-rata 2–5 ms, yang masih dalam batas toleransi operasi UAV. Uji coba dengan skenario sniffing dan data modification membuktikan bahwa data terenkripsi tidak dapat dibaca maupun dimanipulasi tanpa terdeteksi. Dengan demikian, penelitian ini berhasil menunjukkan bahwa penerapan metode AES-256-GCM dapat meningkatkan keamanan operasi militer berbasis UAV dengan memastikan kerahasiaan, integritas, dan keandalan data log telemetri.
Temperature and Humidity Control System for a Munitions Warehouse: Integrating IoT, Machine Learning, and Independent Control: Telekomunikasi Militer Faisal Akbar; Fajar Kholid; Riza Hasbi Ash Shiddieqy
Jurnal Telkommil Vol 6 No 2 (2025): Jurnal Telkommil
Publisher : Pustaka Poltekad

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.54317/kom.v6i2.633

Abstract

Maintaining stable temperature and humidity in ammunition storage facilities is essential to ensure safety and reliability. Environmental fluctuations can degrade explosive materials, shorten their lifespan, and increase the risk of fire or accidental detonation. Conventional manual monitoring methods are often inefficient and lack predictive capabilities, creating the need for a smarter and more reliable solution. This study presents the design of an integrated system that combines Internet of Things (IoT), Machine Learning (ML), and autonomous automatic control to regulate environmental conditions in ammunition depots. The system employs BME680 and DHT11 sensors to measure temperature, humidity, and air quality in real-time. Data are processed by microcontrollers such as ESP32 or STM32 and analysed using a linear regression model, enabling accurate predictions of future environmental changes. To ensure resilience, a backup NodeMCU-based controller is included, which maintains actuator functionality (fans, humidifiers, and ventilation systems) even in the event of internet or server failures. A sensor clustering method is also applied to optimise sensor deployment, reducing costs without sacrificing accuracy. Experimental results demonstrate that the system provides accurate real-time monitoring, predictive insights with less than 10% error, and reliable autonomous control. Compared to conventional approaches, the integration of IoT, ML, and fallback control improves safety, reduces operational costs, and ensures continuous functionality under adverse conditions. This research highlights the effectiveness of combining IoT and ML for ammunition warehouse management and indicates potential applications in other industries requiring strict environmental control, such as pharmaceuticals, logistics, and food storage
Pemanfaatan Energi Surya untuk Mendukung Sistem Pertanian Cerdas Berbasis IoT: Telekomunikasi Militer Dede Luki Rizkiana; Vincensius Arga Yoda; Yohanes Dwi Cahyono
Jurnal Telkommil Vol 6 No 2 (2025): Jurnal Telkommil
Publisher : Pustaka Poltekad

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.54317/kom.v6i2.640

Abstract

Abstrak : Penelitian ini bertujuan untuk mengeksplorasi pemanfaatan energi surya dalam mendukung sistem pertanian cerdas berbasis Internet of Things (IoT). Dengan metode eksperimen dan studi kasus, penelitian ini mengukur kinerja dan efisiensi sistem yang dirancang untuk mengatasi tantangan listrik di wilayah pedesaan. Hasil utama menunjukkan bahwa integrasi energi surya dengan teknologi IoT dapat meningkatkan efisiensi penggunaan air, mengurangi biaya operasional, dan meningkatkan produktivitas pertanian. Kontribusi penelitian ini adalah memberikan solusi inovatif bagi petani di daerah minim listrik serta mendorong adopsi teknologi pertanian cerdas.
Development of an Integrated Official Vehicle Data Management System Using QR Codes and Activity Logs: Telekomunikasi Militer Daru Argya Yudistira; Nur Rachman Supadmana Muda; Choirul Rio Prabowo
Jurnal Telkommil Vol 6 No 2 (2025): Jurnal Telkommil
Publisher : Pustaka Poltekad

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.54317/kom.v6i2.653

Abstract

This study aims to design and implement an integrated web-based Official Vehicle Management Information System utilizing QR Code technology and operational logs, named SIPAKAD (Sistem Informasi Pengelolaan Kendaraan Dinas Angkatan Darat). The system was developed to address inefficiencies, recording errors, and data redundancy commonly found in manual management of official vehicles within military environments. The research employed a system engineering approach with black-box testing to evaluate key functions such as vehicle, driver, and route data management, operational log recording, real-time GPS tracking, and report export features. The implementation results show that SIPAKAD is capable of managing data centrally, accurately, and in real-time, supporting operational monitoring through interactive maps, and reducing human resource requirements and operational costs. The system is considered effective in improving efficiency, transparency, and accuracy in official vehicle management and holds potential for further development in maintenance scheduling and additional security integrations in the future.