Garuda - Garba Rujukan Digital

Rakam Rakam

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Author-ID : 5618936

Computer Science & IT Decision Sciences, Operations Research & Management Education Electrical & Electronics Engineering Engineering Industrial & Manufacturing Engineering Mechanical Engineering Other

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APPLICATION OF ANP AND TOPSIS TO SELECTION OF UNMANNED AERIAL VEHICLES (UAV) LAND-BASED LOCATIONS FOR SUPPORTING THE INDONESIAN NAVY MISSION Helmi Amrullah; Yoyok Nurkaya; Rakam Rakam
STTAL POSTGRADUATE - INTERNATIONAL CONFERENCE Vol 6 No 1 (2022): Indonesia Naval Technology College STTAL Postgraduate International Conference -
Publisher : Indonesian Naval Technology College STTAL

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The Indonesian archipelagic sea lane which connects the Indian Ocean with the Pacific Ocean and East Asia withAustralia brings huge consequences to the efforts to implement security. Therefore, Indonesia needs facilities andinfrastructure to carry out the enforcement of state sovereignty while maintaining security in all areas of nationaljurisdiction. The naval battle strategy using aircraft as an extended sensor system has shown the ability that navalbattle tactics will be more effective in detecting the enemy. In carrying out the defense function, almost all defenseequipment owned by the Indonesian navy currently need the radar as a remote sensing system or as an earlywarning system. The strategic location of land base is needed in optimizing the current detection system. Theability of UAVs for security and defense at sea needs to be developed as an Integrated Fleet Weapon System(SSAT) to fulfill the functions of tactical reconnaissance and sea surveillance (Surveillance). The use of the UAVcan also increase strength and complement the need for maritime patrol aircraft (MPA), which so far has not beenmet quantitatively in covering all waters of Indonesia's national jurisdiction. The area of the Indonesianarchipelagic sea lane is in the working area of the First Fleet Command (Koarmada I). Where there are someLantamal and Lanal underneath. In order to optimize the placement of the ScanEagle UAV in the Indonesianarchipelagic sea lane region, it is very important to create a UAV location determination model using the ANP andTOPSIS methods. The first step is to develop criteria and sub-criteria for the Landbase location of the Landbase(UAV) in the Indonesian archipelagic sea lane region using the Analytical Network Process (ANP) method. Thenext step is to compile the criteria and sub-criteria for the location of the Landbase (UAV) in the Indonesianarchipelago sea lanes. The last step is to arrange the best priority location using the TOPSIS method. The resultsof determining the location of the ScanEagle UAV Landbase are expected to be used as input in formulating astrategy for projecting the future strength of the Indonesian navy.Keywords: UAV, SSAT, Surveillance, ScanEagle, ANP, TOPSIS

CYBER WARFARE THREATS AND ANALYZING READINESS OF THE INDONESIAN NAVY IN PRIORITIZING VARIABLES Rakam Rakam; Choirul Imron; Joko Purnomo; Priyadi Hartoko
STTAL POSTGRADUATE - INTERNATIONAL CONFERENCE Vol 7 No 01 (2023): Indonesia Naval Technology College STTAL Postgraduate International Conference -
Publisher : Indonesian Naval Technology College STTAL

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The advancement of information technology has greatly impacted various aspects of human life, including the Indonesian Navy. This progress has given rise to the concept of Cyber Warfare, which involves conducting warfare through information technology. Cyber warfare refers to actions taken by a country or international organization to attack and undermine another country's computer or information networks, typically through means like viruses or denial of service attacks.In light of these circumstances and challenges, the authors undertook an analysis to assess the readiness of the Indonesian Navy in dealing with the threat of cyber attacks, both domestically and internationally. This research employed cyber warfare threat modelling, which involved weighing and prioritizing key variables such as offensive cyber operations, cyber espionage operations, and cyber support. The objective of this study was to develop a Cyber Warfare threat model to support the responsibilities of the Indonesian Navy. Data processing for this research involved collecting relevant data from activities conducted at Satsiberal Headquarters, which was then analyzed using Fuzzy weighting. Additionally, the Dynamic System modelling method was employed to ascertain the interrelationships between variables and simulate the best alternative scenario. The results of the modellingg and simulation provided valuable insights for addressing the cyber warfare threat effectivelyKeywords: Cyber Warfare Threats, Indonesian Navy, Dynamic System.

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