Prosiding Seminar Nasional Sains Teknologi dan Inovasi Indonesia (Senastindo)
Semua inovasi yang berguna dan berkaitan secara langsung maupun tidak langsung terhadap inovasi nasional yang lebih bermutu dengan intisari tidak terbatas pada teknologi apapun, baik yang mengenai Databases System, Data Mining/Web Mining, Datawarehouse, Artificial Integelence, Business Integelence, Cloud & Grid Computing, Decision Support System, Human Computer & Interaction, Mobile Computing & Application, E-System, Machine Learning, Deep Learning, Information Retrievel (IR), Computer Network & Security, Multimedia System, Sistem Informasi, Sistem Informasi Geografis (GIS), Sistem Informasi Akuntansi, Database Security, Network Security, Fuzzy Logic, Expert System, Image Processing, Computer Graphic, Computer Vision, Semantic Web, e-Health, Animation dan lainnya yang serumpun dengan Inovasi Nasional lainnya. AERONAUTIKA antara lain: Aerodinamika, Material dan Komposit, Kelistrikan dan Instrumen Pesawat Terbang, Avionik, Flying Control, Teknologi Rekayasa Material, Termofluida, Fluida Mekanik, Material Komposit Maju, Teknologi Persenjataan, dsb. TEKNIK ELEKTRO antara lain: Sistem Mikroelektronik, Instrumentasi Industri, Optoelektronik, Perancangan Rangkaian Analog, Desain dan Teknologi ASIC, Desain dan Teknologi FPGA, Sensor dan Transducer, Sistem Pembangkit Energi Listrik, Sistem Transmisi dan Distribusi, Sistem Proteksi Listrik, Tegangan Tinggi, Mesin-mesin Listrik, Elektronika Daya, Energi Terbarukan, Modulasi dan Pemrosesan Sinyal Digital, Teori Informasi dan Pengkodean, Saluran Transmisi, Antena dan Propagasi Gelombang, Komunikasi Bergerak dan Nirkabel, Sistem dan Jaringan Komunikasi, Teknologi Jaringan Telekomunikasi, Sistem Otomatisasi, dsb. TEKNIK INDUSTRI antara lain: Ilmu Ergonomi Industri, Industri Pertahanan, dsb. TEKNIK DIRGANTARA antara lain: Ilmu-ilmu Aeronautika dan Astronautika, Aerodinamika, Struktur Pesawat Terbang, Propulsi, Mekanika Terbang, Material Pesawat Terbang, Astrodinamika, Aeroelastisitas, Aeroakustik, Sistem Pesawat Terbang, Proses Desain dan Produksi Pesawat Terbang, dan Sistem Operasi Penerbangan, dsb. TEKNIK KIMIA antara lain: Kimia bahan eksplosif, Kimia logam, Kimia Industri TEKNOLOGI INFORMASI & KOMUNIKASI antara lain: Sistem Informasi, Rekayasa Perangkat Lunak, Arsitektur Komputer, Jaringan Komputer, Security & Cryptography, Mobile & Cloud Computing, Quality of Service (QoS), Network Programming, Remote Sensing & GIS, Pemodelan dan Simulasi, Multimedia Processing, Teknologi Informasi dan Aplikasi, Big Data, dsb. DRONE & ROBOTIKA antara lain: Control theory and applications, embedded system, mechatronic and robotic, Unmanned Aerial System (UAS), mobile robotics, artificial intelligent, neural network, fuzzy logic, intelligent system, swarm intelligent, genetic algorithm, soft robotic, dsb. CYBER antara lain: Teknik Hacking, Cyber Defense, Cyber Security, Cyber Attack System, dsb.
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200 Documents
<![CDATA[PENGOLAHAN DATA GPS UNTUK KENDARAAN LISTRIK OTONOM ]]>
<![CDATA[Putra, Nyoman Triyoga Arika]]>;
<![CDATA[Satyawan, Arief Suryadi]]>;
<![CDATA[Wulandari, Ike Yuni]]>;
<![CDATA[Ariffin, Denden Mohamad]]>
<![CDATA[ Prosiding Seminar Nasional Sains Teknologi dan Inovasi Indonesia (SENASTINDO) Vol. 4 (2022): Prosiding Seminar Nasional Sains Teknologi dan Inovasi Indonesia (Senastindo) ]]>
Publisher : <![CDATA[Akademi Angkatan Udara ]]>
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DOI: 10.54706/senastindo.v4.2022.187
<![CDATA[Information and communication technology continues to show its development, and one of the technological developments in the information sector is the Global Positioning System (GPS). GPS technology is designed by utilizing satellites in space called the Global Navigation Satellite System (GNSS) whose application can be used in autonomous electric vehicles. Therefore, this study aims to design a GPS data processor on autonomous electric vehicles. The method used is using a Raspberry Pi 4 mini computer and a Neo 6M GPS module and the basic application is using the Python programming language. The application created has an output in the form of a display that shows the data obtained from the satellite and automatically the data will be stored in the form of an Excel file. The data in the Excel file will be compared with data from Google Maps. From the results of the research that has been done, the use of the Neo 6M GPS module in this application has an economical price, and the location data received is quite accurate, the GPS can be used indoors or outdoors, and even in rainy conditions the GPS can still receive signals well. these results can be applied to the autonomous electric vehicles technology.]]>
<![CDATA[A PRODUCTION FACILITY LAYOUT REDESIGN WITH BLOCPLAN METHOD IN WATTAR KITCHEN OF AIR FORCE ACADEMY ]]>
<![CDATA[Handayani, Limawati]]>;
<![CDATA[Rahmah, Sermatutar Alya]]>
<![CDATA[ Prosiding Seminar Nasional Sains Teknologi dan Inovasi Indonesia (SENASTINDO) Vol. 4 (2022): Prosiding Seminar Nasional Sains Teknologi dan Inovasi Indonesia (Senastindo) ]]>
Publisher : <![CDATA[Akademi Angkatan Udara ]]>
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DOI: 10.54706/senastindo.v4.2022.188
<![CDATA[Facility layout is the arrangement of machines, tools, buildings, operators, materials and others using certain algorithms with the aim of reducing the total cost of moving. The Cadet Care Kitchen, also known as the Wattar kitchen, is a kitchen where food is processed for consumption by Air Force Academy cadets. Youth nutrition must meet and exceed the food consumed. The cooking process in the Wattar Kitchen is divided into several rooms. It was found that the distance between the place for chopping vegetables and spices as well as the storage refrigerator was too far from the place for storing food ingredients. Based on these problems, this study made improvements to the layout using the Blocplan algorithm to minimize the distance of material moving from far away warehouses by chopping, becoming closer and more efficient.]]>
<![CDATA[Analisis Hubungan Kepribadian The Big Five Terhadap Manajemen Konflik Pada Taruna AAU Dengan Metode Korelasi ]]>
<![CDATA[Sibarani, Jeffry Martahan]]>;
<![CDATA[Suwito, Suwito]]>;
<![CDATA[Holimin, Holimin]]>
<![CDATA[ Prosiding Seminar Nasional Sains Teknologi dan Inovasi Indonesia (SENASTINDO) Vol. 4 (2022): Prosiding Seminar Nasional Sains Teknologi dan Inovasi Indonesia (Senastindo) ]]>
Publisher : <![CDATA[Akademi Angkatan Udara ]]>
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DOI: 10.54706/senastindo.v4.2022.189
<![CDATA[Abstract— Air Force Academy is in charge of organizing the first education of Indonesian Air Force voluntary officers. The implementation of education covers aspects of personality (40%), cognitive (30%) and ability (30%). The application of the results of the analysis of the big five personality relationship to conflict management with the correlation method can map the characteristics and attitudes of cadets in dealing with problems. The Big Five Personality is a personality theory that is divided into five dimensions: openness, conscientiousness, extraversion, agreeableness, and neuroticism. The big five theory or 'the big five' model is categorized as a general personality trait. The big five is a dynamic organization within the individual as a psychophysical system that determines his unique way of adapting to the environment besides the big five also explains the relationship between cognition, affect, and action. The big five is one of the personalities that can predict and explain a person's behavior. This approach can be used to assist the care system at the Air Force Academy in coaching cadets to minimize possible violations.]]>
<![CDATA[Design of Hand Stability Measuring Device for Shooting Training at the Air Force Academy ]]>
<![CDATA[Ramananda, Muhammad Syafiqi]]>;
<![CDATA[Gastomo, Bambang]]>
<![CDATA[ Prosiding Seminar Nasional Sains Teknologi dan Inovasi Indonesia (SENASTINDO) Vol. 4 (2022): Prosiding Seminar Nasional Sains Teknologi dan Inovasi Indonesia (Senastindo) ]]>
Publisher : <![CDATA[Akademi Angkatan Udara ]]>
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DOI: 10.54706/senastindo.v4.2022.190
<![CDATA[The purpose of this study was to design a shooting hand vibration measuring device using a MPU6050 accelerometer sensor based on the Arduino Uno microcontroller. As soon as there is a vibration on the hand, the MPU6050 accelerometer sensor will measure the vibration and send the data to the Arduino Uno mycorocontroller to be displayed on the Liquid Cryatal Display (LCD) screen and sound the buzzer component if the detected vibration has exceeded the limit of 0.3 G on each axis. It is hoped that the creation of this tool can be a solution to the problem, namely the need to display data on the vibration of the shooting hand to help the shooting training process at the Air Force Academy (AAU)]]>
<![CDATA[EFEKTIVITAS METODE PEMBELAJARAN BERBASIS LABORATORIUM UNTUK MENINGKATKAN PEMAHAMAN MATERI GERAK PELURU DI AAU ]]>
<![CDATA[Resia, Made]]>
<![CDATA[ Prosiding Seminar Nasional Sains Teknologi dan Inovasi Indonesia (SENASTINDO) Vol. 4 (2022): Prosiding Seminar Nasional Sains Teknologi dan Inovasi Indonesia (Senastindo) ]]>
Publisher : <![CDATA[Akademi Angkatan Udara ]]>
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DOI: 10.54706/senastindo.v4.2022.191
<![CDATA[In the process of learning physics, various methods have been carried out such as lectures and discussions as well as questions and answers, but the results have not been as expected. In fact there are still cadets who find it difficult to learn physics because there are too many formula. Plus the lack of interest from cadets to learn physics so that the understanding of physics material is decreasing. In overcoming this problem the author will try to use laboratory-based learning methods. The Air Force Akademy (AAU) as the sentral implementing agency at Mabesau level located directly under Kasau, who has the main task of organizing the first aducation of Indonesian Air Force voluntary officers with an akademic level characterized by Sapta Marga warriors who have akademic abilities the basic potential of the air matrix, as well as physical opportunities to support tasks in their service as a defence force. From the main tasks carried AAU, the Cadets should get a good learning model, one off them Laboratory-Based learning. This is one of the efforts to improve the quality of fhysics learning especially on bullet motion material to make it more interesting and fun. With interesting and fun learning a more oftimal interest and understanding will be obtained. The purpose of this study was to determine yhe effect of using the laboratory in the form of demonstrations and experiments on interest and understanding of bullet motion material.]]>
<![CDATA[Analisa Pemindahan Beban Pada Paku Keling Dengan Menggunakan Metode Boeing ]]>
<![CDATA[Nursofjan, Rudy]]>
<![CDATA[ Prosiding Seminar Nasional Sains Teknologi dan Inovasi Indonesia (SENASTINDO) Vol. 4 (2022): Prosiding Seminar Nasional Sains Teknologi dan Inovasi Indonesia (Senastindo) ]]>
Publisher : <![CDATA[Akademi Angkatan Udara ]]>
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DOI: 10.54706/senastindo.v4.2022.194
<![CDATA[Dewasa ini banyak sekali cara yang dapat dilakukan untuk menyambung atau menggabungkan dua material, dimana salah satu metoda untuk penyambungan ini dapat menggunakan paku keling. Penyambungan dengan menggunakan paku keling sering dijumpai pada struktur jembatan, kapal laut dan paling banyak digunakan adalah pada struktur pesawat terbang. Sebagai penyambung, paku keling berfungsi untuk memindahkan beban dari suatu bagian struktur ke bagian struktur lain. Jika jumlah baris paku keling yang digunakan cukup banyak, asumsi distribusi beban pada paku keling biasanya dianggap sama (seragam), walaupun hal ini tidak dapat dibenarkan. Oleh karena itu perlu dilakukan perhitungan untuk menentukan seberapa besar beban yang di terima oleh setiap paku keling dan menentukan baris paku keling yang paling kritis. Beban yang dipindahkan melalui paku keling tergantung pada kekakuan paku keling. Semakin besar harga kekakuan paku keling, beban yang dapat dipindahkan melalui paku keling akan semakin besar. Harga kekakuan paku keling berbanding terbalik dengan harga fleksibilitas paku keling, besar fleksibilitas yang digunakan dihitung menggunakan persamaan Boeing. Perhitungan yang dilakukan menggunakan metode elemen hingga yang disertai dengan beberapa contoh konfigurasi sambungan pada pelat]]>
<![CDATA[Analisis Kualitas Peluru MU-5 TJ Pindad Dari Pengaruh Suhu Dibawah 0 °C Dengan Pengujian Fungsi dan Kadar Abu ]]>
<![CDATA[Santosa, Tata]]>
<![CDATA[ Prosiding Seminar Nasional Sains Teknologi dan Inovasi Indonesia (SENASTINDO) Vol. 4 (2022): Prosiding Seminar Nasional Sains Teknologi dan Inovasi Indonesia (Senastindo) ]]>
Publisher : <![CDATA[Akademi Angkatan Udara ]]>
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DOI: 10.54706/senastindo.v4.2022.195
<![CDATA[A munition is an object that has a certain shape and ballistic properties that can be filled with explosives and can be fired with weapons with the intention of to damage or destroy a certain target. The simplest munition consist of a projectile, a shell and an explosive which acts as a propellant. In a military operation, it is very possible for munitions to be exposed to cold temperatures even below 0°C, for example in high mountainous terrain. Therefore, it will be investigated the effect of cold temperature on the quality of the munition in terms of the function of the munition and the ash content of the propellant of the munition. The munition used in this project is the MU-5 TJ 5.56 mm caliber munition produced by PT. Pindad in 2015 at the Yogyakarta Air Force Academy. The MU-5 TJ munition will be analyzed the function of munition and ash content of the propellant of munition after cooling treatment at temperatures below 0°C by storing the munitions in the freezer with variations in cooling time of 3 and 5 days. The ash content test was carried out on the propellant of the munition by heating at a temperature of 700 °C for 1 hour. The function test was carried out by firing 10 munitions with SS1-V1 weapons and then calculating the percentage of exploding munitions. Functional and ash content tests were also carried out on uncooled munitions and this was considered a 0 day cooling time for comparison. From the results of the analysis of the data obtained, it can be concluded that the cooling treatment at temperatures below 0 °C for 5 days on the MU-5 TJ munition affects the quality of the munition in terms of ash content and munition function. Ash content increased significantly from 0.596% (0 days cooling time) to 0.925% (5 days cooling time) and bullet function decreased from 100% (0 and 3 days cooling time) to 82% (5 days cooling time). The MU-5 TJ munition which received cooling treatment at temperatures below 0 °C for 5 days was not suitable for use according to PTU standards number 121 Repair I Year 2000 and T.O. 11A-1-10.]]>
<![CDATA[Analisis Perbandingan Uji Mekanik Komposit Fiber Glass Serat Anyam dan Serat Acak dengan Metode Vacuum Assisted Resin Influsion dan Hand Lay Up Sebagai Pengganti Radome Pesawat Hercules C-130 ]]>
<![CDATA[Vebriyola, Fitry]]>;
<![CDATA[Subijanto, Raden Agus]]>
<![CDATA[ Prosiding Seminar Nasional Sains Teknologi dan Inovasi Indonesia (SENASTINDO) Vol. 4 (2022): Prosiding Seminar Nasional Sains Teknologi dan Inovasi Indonesia (Senastindo) ]]>
Publisher : <![CDATA[Akademi Angkatan Udara ]]>
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DOI: 10.54706/senastindo.v4.2022.196
<![CDATA[The purpose of this study was to test the strength and flexibility of thecomposites a woven fiber composite specimen was tested and randomized by the han lay up method and vacuum assisted infusion resin. Using the universal testing machine (quasar 50 qualities) tensile test equitment. From the data processing carried out it can be concluded that the vacuum assisted resin infusion method of woven fiber is stronger in the tensile test. Because in the experimental result the tensile stress and strain strength are geaterin value but the elastic modulus is greater in the vacuum woven fiber method. This is due to the arrangement of fibers which is stronger to withstand the tension in the composite with the vacuum method. So that morefibers are parallel to the tensile direction of the specimen. This causes the maximum tensile stress in the vacuum assisted resin infusion woven fiber composite method compared to the Hercules C-130 Radome Aircraft.]]>
<![CDATA[Globalization: the Challenge of Building Awareness of Bela Negara Among the Young Generation ]]>
<![CDATA[Dartono, Dartono]]>;
<![CDATA[Santoso, Budi]]>
<![CDATA[ Prosiding Seminar Nasional Sains Teknologi dan Inovasi Indonesia (SENASTINDO) Vol. 4 (2022): Prosiding Seminar Nasional Sains Teknologi dan Inovasi Indonesia (Senastindo) ]]>
Publisher : <![CDATA[Akademi Angkatan Udara ]]>
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DOI: 10.54706/senastindo.v4.2022.197
<![CDATA[Threats to the existence of the state are increasingly complex, but youth awareness of Bela Negara tends to be reactive and stagnate on the orientation of physical threats. The role of family, school, and community as pillars of education is indicated to work by itself. This literature study aims to explain awareness, the influence of dominant factors, and alternative strategies for youth awareness of Bela Negara in the Era of Globalization. Through the application of descriptive-qualitative method the study concludes; (1) The threat to the existence of an increasingly complex state has not been responded to by the understanding of the younger generation in a comprehensive manner. (2) The presence of non-physical threats that are also destructive, such as the understanding of the counter value of Pancasila and local wisdom, the flood of imported products, etc. feels so natural, that most young people don't realize it, (3) Contextualization of understanding through education is the most important element, and material for understanding the counter values of Pancasila and local wisdom, the threat of imported products, etc. as a threat to the existence of the state, it becomes a priority for insertion in education, both in the family, school, and community spheres. The existence of relevant measures and policies is also very much needed to continuously improve the effectiveness of their implementation.]]>
<![CDATA[Hungarian Algoritma Analisis Algoritma Hungarian Dalam Penentuan Model Pembagian Kerja Guna Efektifitas Kegiatan Pemeliharaan Lingkungan ]]>
<![CDATA[Mardian, Budi]]>
<![CDATA[ Prosiding Seminar Nasional Sains Teknologi dan Inovasi Indonesia (SENASTINDO) Vol. 4 (2022): Prosiding Seminar Nasional Sains Teknologi dan Inovasi Indonesia (Senastindo) ]]>
Publisher : <![CDATA[Akademi Angkatan Udara ]]>
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DOI: 10.54706/senastindo.v4.2022.198
<![CDATA[Persoalan penugasan (assignment) terkait erat dengan teknik membuat model penugasan yaitu membuat tabel pembagian tugas yang efektif dengan memperhatikan faktor-faktor pendukung dari sumber daya yang ada. Beberapa pertimbangan untuk mencapai hasil optimal diantaranya adalah kesiapan sumber daya yang produktif, efektif dan efisien.Salah satu cara membuat model penugasan adalah dengan menggunakan algoritma Hungarian. Untuk dapat menerapkan algoritma Hungarian, jumlah sumber-sumber yang ditugaskan harus sama dengan jumlah tujuan yang akan diselesaikan. Selain itu, masing-masing sumber harus ditugaskan hanya untuk satu tujuan. Prinsip dasar algoritma hungarian adalah memilihkan setiap satu job hanya untuk satu pekerja, misalnya dalam hal pembagian area kerja untuk pemeliharaan lingkungan di sekitar ksatrian AAU. Data yang diuji terdiri dari 14 kelompok kerja dan 14 area kerja, dengan nilai-nilai pilihan prioritas dari 1-14. Dari hasil pengolahan data didapat nilai optimal sebesar 22 mendekati nilai minimal 14. Nilai optimal 22 merupakan total nilai pilihan prioritas terbaik, sehingga tabel penugasan yang terbentuk hampir memenuhi keinginan seluruh kelompok kerja. Akurasi hasil olah data algoritma hungarian dapat diukur dengan menggunakan solver pada microsoft excel dan module assignment pada software operation research POM-QM.]]>
