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All Journal INTENSIF: Jurnal Ilmiah Penelitian dan Penerapan Teknologi Sistem Informasi RESLAJ: RELIGION EDUCATION SOCIAL LAA ROIBA JOURNAL Jurnal Bumigora Information Technology (BITe) Teknosains : Jurnal Sains,Teknologi dan Informatika JTEIN: Jurnal Teknik Elektro Indonesia Infotech: Jurnal Informatika & Teknologi Indonesian Community Journal Jurnal Fortech Jurnal: International Journal of Engineering and Computer Science Applications (IJECSA) Electrician : Jurnal Rekayasa dan Teknologi Elektro Jurnal Pendidikan Sains Indonesia (Indonesian Journal of Science Education) Aspirasi : Publikasi Hasil Pengabdian dan Kegiatan Masyarakat IRDH International Journal of Technology, Agriculture and Natural Sciences (IRDH IJTANS)
Dekki Widiatmoko
Politeknik Angkatan Darat
Religion Agriculture, Biological Sciences & Forestry Humanities Automotive Engineering Computer Science & IT Control & Systems Engineering Decision Sciences, Operations Research & Management Economics, Econometrics & Finance Education Electrical & Electronics Engineering Energy Engineering Environmental Science Industrial & Manufacturing Engineering Public Health Social Sciences Other

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Pelatihan Kendali Sekuensial Berbasis Progammable Logic Controller pada Simulasi Otomasi Sistem Produksi Indah Martha Fitriani; Agus Dwi Putra; Alfi Fadliana; Candra Pradhana; Farahdilla Andhika; Ridho Herasmara; Dekki Widiatmoko
I-Com: Indonesian Community Journal Vol 1 No 1 (2021): I-Com: Indonesian Community Journal (Desember 2021)
Publisher : Fakultas Sains Dan Teknologi, Universitas Raden Rahmat Malang

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (547.765 KB) | DOI: 10.33379/icom.v1i1.934

Abstract

Teknologi canggih dirancang dengan tujuan mampu memberikan manfaat yang positif bagi manusia di berbagai aspek, contonya dibidang militer. Produk-produk yang dibuat untuk keperluan militer harus memilki standar yang tinggi. Merubah proses manual menjadi otomatis (sistem otomasi) pada proses produksi, maka timbulnya kesalahan kerja dapat diminimalisir. Sistem otomasi umumnya merupakan sistem kendali yang berurutan (sequential) sehingga kecil kemungkinan terjadi error. Anggota militer harus mampu menguasai sistem otomasi tersebut. Tujuannya agar dapat memonitoring sehingga proses produksi dapat dipastikan berjalan sesuai dengan yang diharapkan. Melalui kegiatan pelatihan dan pendampingan kendali sequential, diharapkan 15 bintara mahasiswa memperoleh gambaran tentang alur atau proses pembuatan alat militer. Penerapan metode analisa kasus dan simulasi mampu menarik minat sehingga proses belajar dapat berjalan secara efektif dan efisien. Trainer otomasi mampu bekerja sesuai dengan ilustrasi yang diberikan membuat bintara mahasiswa menjadi lebih kreatif dan memicu untuk dapat meciptakan teknologi baru. Untuk menghasilkan teknologi baru perlu didukung dengan fasilias yang lebih memadai.
Perancangan Sistem Monitoring Energi Listrik Menggunakan NodeMCU ESP8266 dan PZEM-004T untuk Pengendalian Penggunaan Daya Wira Ahmad; Dekki Widiatmoko; Fajar Kholid
Jurnal FORTECH Vol. 5 No. 1 (2024): Jurnal FORTECH
Publisher : FORTEI (Forum Pendidikan Tinggi Teknik Elektro Indonesia)

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.56795/fortech.v5i1.5102

Abstract

Electricity is one of the essential needs for society today, serving as a primary economicresource. The use of electricity in household sectors reached 50.80% in 2020,contributing to the total electricity consumption in Indonesia each month. To raiseawareness about excessive electricity usage leading to inflated electricity bills, there is aneed for a remote monitoring and control device, based on the Internet of Things (IoT),specifically targeting electronic appliances that consume electricity.Addressing this issue, a research study titled "Design of Electricity Monitoring SystemUsing NodeMCU ESP8266 and PZEM-004T for Controlling Electricity Usage" wasconducted. The energy usage monitoring system is implemented in a terminal socketdevice capable of displaying power consumption through a module. Additionally, thisterminal socket can be connected to the internet, allowing users to view electricity usagedata on the ThingSpeak website. The necessary tools and materials for designing themonitoring and controlling system include a laptop, NodeMCU ESP8266 module,PZEM-004T sensor, relay (Rlay), OLED display, power terminal, plug (Stekker), andjumper cables.Based on testing using the blackbox method, the system has demonstrated effectivemonitoring and control of energy usage. It was observed that the power consumptionstated for an electronic device may differ from the actual power consumed. Thisdifference could be attributed to variations in the stated power consumption informationcompared to the actual power consumption.Keywords: households, NodeMCU ESP8266, PZEM-004T, IoT, electricity monitoring..
Design of Fuel Monitoring Application for Reservoir Tanks in Army Fuel Supply Point on Military Logistics Corps Based on Internet of Things Rizky Safrizal Akbar; Fajar Kholid; Kasiyanto Kasiyanto; Dekki Widiatmoko; Afif Achmad
International Journal of Engineering and Computer Science Applications (IJECSA) Vol 3 No 1 (2024): March 2024
Publisher : Universitas Bumigora Mataram-Lombok

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.30812/ijecsa.v3i1.3737

Abstract

The Bekang Corps, a vital component of the Army responsible for logistics and transportation, plays a crucial role in maintaining the military's operational readiness and mobility. In the intricate landscape of military operations, the seamless integration of strategy, logistics, and tactics becomes imperative for success. Integrated logistical support, encompassing maintenance, supply, personnel, education, and training, and base facility support, serves as the backbone of effective military operations. However, the manual monitoring of underground fuel tanks at Storage and Supply Points (SPBT) presents challenges in terms of potential errors, time consumption, and significant efforts. The aim of this research is to address these issues by focusing on leveraging Internet of Things (IoT) technology to design and implement a monitoring application specifically tailored for the SPBT environment within the Army's Bekang Unit. This research method is aimed at providing a real-time solution for efficiently monitoring and managing fuel levels. By integrating the Float Level Switch sensor and NodeMCU ESP 8266 microcontroller, this research establishes a foundation in IoT. The Android application, developed using Android Studio, serves as the user interface, while Firebase functions as the real-time database, facilitating seamless communication and data exchange. The results of this research are the successful implementation of this IoT-based solution, which not only enhances the accuracy and responsiveness of fuel level monitoring but also contributes significantly to military operational efficiency. The anticipated significant contribution of the application includes the enhancement of military operational efficiency, the reduction of human error risks, and an increased sense of responsibility regarding fuel availability for operational needs.
Teknologi Rancang Bangun Generator Pelindung Lutut Berbasis Biomekanik Untuk Pembangkit Energi Listrik Portable Guna Mendukung Operasional Militer di Lapangan Andik Sugiarta; Kasiyanto Kasiyanto; Dekki Widiatmoko; Mokhammad Syafaat; Afif Achmad; Iqra Asif
Jurnal Bumigora Information Technology (BITe) Vol 5 No 2 (2023)
Publisher : Prodi Ilmu Komputer Universitas Bumigora

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.30812/bite.v5i2.3649

Abstract

Background: In the 5.0 era which depends on electrical energy, innovation is needed to overcome the limitations of batteries in electronic devices. An innovative device has been created that uses knee joint movement to produce renewable energy.Objective: Knee movements are converted into electrical energy through a special gearbox that rotates a generator, converting the energy to a power bank as a storage medium.Methods: This study used an experimental method.Result: This research produces 5.6 Watts of power, providing an eective solution for charging batteries in mobility conditions.Conclusion: By utilizing knee joint movements and biomechanical analysis, this tool can utilize dierences in force, angle and speed of movement to produce the required electricity.
Translation Motion-Based Backpack for Indonesian Army Soldiers as a Source of Energy for Military Communication Devices Jerry Barto Naga; Dekki Widiatmoko; Kasiyanto Kasiyanto
Jurnal Bumigora Information Technology (BITe) Vol 5 No 2 (2023)
Publisher : Prodi Ilmu Komputer Universitas Bumigora

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.30812/bite.v5i2.3651

Abstract

Background: Energy is an aspect that is very necessary in human life, because every activity we do consumes and produces energy. Among various sources of energy, human physical activity is a potential energy source that can be utilized.Objective: This research aims to design a backpack with translation motion as an energy source for military communication devices.Methods: The design of this tool uses the research and development method.Result: The results of the study indicate that walking produces a voltage of approximately 3.863 volts, climbing stairs produces 4.56 volts, and running generates 5.39 volts. The voltage generated increases with the level of human movement involved.Conclusion: In conclusion, the more human movement is involved, the higher the voltage generated. The calculated spring constant is Ktotal = 22.612 N/m, with a unit spring constant of 11.306 N/m. F
Infus liquid monitoring system using web-based loadcell sensor Riandi Gustiawan Gustiawan; Fajar Kholid; Sa'id Ainul Yaqin; Dekki Widiatmoko; Kasiyanto
TEKNOSAINS : Jurnal Sains, Teknologi dan Informatika Vol 11 No 2 (2024): TEKNOSAINS: Jurnal Sains, Teknologi dan Informatika
Publisher : LPPMPK-Sekolah Tinggi Teknologi Muhammadiyah Cileungsi

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.37373/tekno.v11i2.1015

Abstract

Improvements in the efficiency and precision of using the Internet of Things (IoT) to monitor infusion fluid volumes have been particularly beneficial to the health sector. It is now feasible to create intelligent solutions that replace labor-intensive and error-prone manual techniques with the aid of affordable devices like the ESP8266 and accurate sensors. Through the use of an internet connection, the server may easily receive data on the volume of infusion fluids collected by the ESP8266-based system and precision sensors. This enables remote access to real-time monitoring using a web platform. The main advantage of this technology is that it allows medical personnel to adequately monitor patients even when they are nearm not them. This reduces patient distraction and gives patients more time to focus on important medical tasks. By using this technology, healthcare personnel can improve the quality of treatment they give by reducing the chance of human error when calculating and changing IV bags. When medical staff has access to dependable and real-time data updates, they can manage IV fluid management more skillfully and respond to changes in patient situations more quickly. All things considered, these advancements represent significant strides forward in the administration of intravenous fluids, offering more accurate, effective, and conveniently accessible solutions that elevate the bar for healthcare overall
Implementation of the SN04 Roko metal sensor on a 5.56 mm caliber portable magazine feeder Fajar Dermawan Tamboenan; Mokhammad Syafaat; Ade Setiawan; Dekki Widiatmoko; Rafi Maulana Al-farizi
TEKNOSAINS : Jurnal Sains, Teknologi dan Informatika Vol 11 No 2 (2024): TEKNOSAINS: Jurnal Sains, Teknologi dan Informatika
Publisher : LPPMPK-Sekolah Tinggi Teknologi Muhammadiyah Cileungsi

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.37373/tekno.v11i2.1073

Abstract

Roko SN04 Metal Sensor technology and equipment are evolving and growing more advanced with time. One type of equipment that needs to consider both the user's safety and the equipment's development and safety is technological equipment used in the military. The soldiers can shoot and do so with skill. As a result, soldiers must be able to move swiftly against the enemy and vigilant when utilizing combat equipment to ensure that it is used correctly and for its intended purpose. Nevertheless, there are still several fighting tools in the military that require a lot of physical labor, making them exceedingly inefficient for the user. One such tool is the portable magazine for 5.56-millimeter ammunition. This study employed the 4D methodology, which stands for Define, Design, Develop, and Disseminate. Development research is a part of this methodology. A device for loading magazines has been created to make it easier for soldiers to move in situations where loading bullets by hand is still risky and impractical. The Roko SN04 sensor is used in the construction of this tool. One sensor that can be used as a metal detector is the Roko SN04. This magazine refill gadget uses a DC motor as a mechanic and an Arduino as a control to randomly arrange ammunition. This study's success rate was 96.67%
Analysis of the Influence of Organizational Culture on the Performance of Science Educators in the Military Environment Nugraha Gumilar; Dekki Widiatmoko
Jurnal Pendidikan Sains Indonesia Vol 11, No 4 (2023): OCTOBER 2023
Publisher : Universitas Syiah Kuala

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.24815/jpsi.v11i4.40956

Abstract

This study aims to analyze the influence of organizational culture on the performance of science educators in the military environment. The study was conducted using a survey method on science educators in various military educational institutions. Data were collected through a questionnaire designed to measure science educators' perceptions of organizational culture and their performance. The analysis method used was linear regression to see the relationship between the independent variable (organizational culture) and the dependent variable (science educator performance). The results of the study showed that organizational culture has a significant influence on the performance of science educators. This finding suggests that a good organizational culture can improve the effectiveness of science educators in carrying out their duties. The application of strong organizational culture values has been shown to increase the motivation and professionalism of science educators, which ultimately has a positive impact on their performance. Values such as discipline, integrity, and cooperation that are upheld in military organizations help create a conducive work environment for the development of science educators. This study makes an important contribution to understanding the factors that influence the performance of science educators in the military environment, as well as providing recommendations for military education managers to strengthen organizational culture in order to improve the quality of education and training.
Optimizing the Personnel Position Monitoring System Using the Global Positioning System in Hostage Release Irmanto, Dodo; Sujito, Sujito; Aripriharta, Aripriharta; Widiatmoko, Dekki; Kasiyanto, Kasiyanto; Omar, Saodah
INTENSIF: Jurnal Ilmiah Penelitian dan Penerapan Teknologi Sistem Informasi Vol 8 No 1 (2024): February 2024
Publisher : Universitas Nusantara PGRI Kediri

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.29407/intensif.v8i1.21665

Abstract

In the contemporary era of globalization, maintaining public order depends on strong security measures. Addressing security challenges, particularly in hostage release scenarios, requires rapid and appropriate responses, highlighting the need for efficient personnel deployment. This research proposes an advanced solution using a GPS Tracking System which uses a sequential method by utilizing digital photos from GPS satellites to monitor the movement of individuals and objects. Specifically applied to the Sandra rescue mission, our research uses the NodeMCU ESP8266 component, which integrates GPS and Wi-Fi functions while considering wind direction. Tests performed demonstrated an impressive success rate of 98.6%, demonstrating the effectiveness of our real-time personnel positioning approach.
Implementasi Sensor LDR Pada Prototipe Sistem Tracking Dual Axis Untuk Deteksi Arah Sinar Matahari Pada Sel Surya Dekki Widiatmoko; Rachmat Setiawibawa; Rafi Maulana Al-farizi; Mokhammad Syafaat; Eriski Prawira
ASPIRASI : Publikasi Hasil Pengabdian dan Kegiatan Masyarakat Vol. 1 No. 5 (2023): September : ASPIRASI : Publikasi Hasil Pengabdian dan Kegiatan Masyarakat
Publisher : Asosiasi Periset Bahasa Sastra Indonesia

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.61132/aspirasi.v1i5.407

Abstract

Solar energy is a potential solution to meet the electricity needs of TNI AD posts and bases in border areas. However, conventional solar energy systems have limited efficiency because they can only absorb sunlight from one direction. The efficiency of solar energy systems can be improved by using a dual-axis tracking system equipped with a LDR sensor. The LDR sensor is used to detect the direction of sunlight. The change in the LDR sensor resistance due to the change in the intensity of light that hits it is then processed by a microcontroller to move the solar panel in the appropriate direction. Based on the results of testing, the dual-axis tracking system with an LDR sensor significantly increases the power generated compared to conventional solar energy systems. At the peak of performance during dynamic testing at 12:00 pm, the total power reached 2,196 W, while the static test reached a total power of 1,311 W. Therefore, the dual-axis tracking system with an LDR sensor can be a more optimal choice to improve the performance and efficiency of solar energy systems in generating electricity at TNI AD posts and bases in border areas.
Co-Authors Ade Setiawan Afif Achmad Afif Achmad Agus Dwi Putra Albert Wahyu Sianturi Alfarizi, Rafi Maulana Alfi Fadliana Andik Sugiarta Aripriharta - Candra Pradhana Dodo Irmanto Eriski Prawira Fajar Dermawan Tamboenan Fajar Kholid Fajar Kholid Fajar Kholid Fajar Kholid Farahdilla Andhika Fitriani, Indah Martha Heri setiawan Iqra Asif Irwansyah, Achmad Afif Jeffri Kurniawan Jeffri Kurniawan Jeki Saputra Jerry Barto Naga Kasiyanto Kasiyanto Kasiyanto Kasiyanto, Kasiyanto Kholid, Fajar Maulana, Rafi Mokhammad Syafaat Mokhammad Syafaat Mokhammad Syafaat Mokhammad Syafaat Muchamad Wahyu Prasetyo Muhamad Risal Duwila Muhammad Cahyo Bagaskoro Muzakki, Arif Nugraha Gumilar Nur Rachman Supadmana Muda Omar, Saodah Permana, Machmud Indra Pradigdo, Dedi Rachmat Setiawibawa Radianto, Riky Rafi Maulana Rafi Maulana Al-farizi Rafi Maulana Al-farizi Riandi Gustiawan Gustiawan Ridho Herasmara Rizky Safrizal Akbar Rokhim Utomo Sa'id Ainul Yaqin Sridaryono, Aguk Sujito Sujito Syafaat, Mokhamad Syafaat, Mokhammad Wahyu Imam Fauzi Wibisono Wira Ahmad Wirayudha, Putra Wisesha, Pandhu Purba Zihar Nanggala Putra