• Title/Summary/Keyword: Cyber weapon system

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A Study on the Framework for Analyzing the Effectiveness of Cyber Weapon Systems Associated with Cyberspace and Physical Space (사이버 공간과 물리 공간이 연계된 사이버 무기체계의 효과성 분석 프레임워크 연구)

  • Jang, Ji-su;Kim, Kook-jin;Yoon, Suk-joon;Park, Min-seo;Ahn, Myung-Kil;Shin, Dong-kyoo
    • Journal of Internet Computing and Services
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    • v.23 no.5
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    • pp.111-126
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    • 2022
  • As operations that were only conducted in physical space in the past change to operations that include cyberspace, it is necessary to analyze how cyber attacks affect weapon systems using cyber systems. For this purpose, it would be meaningful to analyze a tool that analyzes the effects of physical weapon systems in connection with cyber. The ROK military has secured and is operating the US JMEM, which contains the results of analyzing the effects of physical weapon systems. JMEM is applied only to conventional weapon systems, so it is impossible to analyze the impact of cyber weapon systems. In this study, based on the previously conducted cyber attack damage assessment framework, a framework for analyzing the impact of cyber attacks on physical missions was presented. To this end, based on the MOE and MOP of physical warfare, a cyber index for the analysis of cyber weapon system effectiveness was calculated. In addition, in conjunction with JMEM, which is used as a weapon system effect manual in physical operations, a framework was designed and tested to determine the mission impact by comparing and analyzing the results of the battle in cyberspace with the effects of physical operations. In order to prove the proposed framework, we analyzed and designed operational scenarios through domestic and foreign military manuals and previous studies, defined assets, and conducted experiments. As a result of the experiment, the larger the decrease in the cyber mission effect value, the greater the effect on physical operations. It can be used to predict the impact of physical operations caused by cyber attacks in various operations, and it will help the battlefield commander to make quick decisions.

Weapon Security Control System for Respond to Cyber Warfare (사이버전 대응을 위한 무기체계 보안통제 시스템 구축 방안)

  • Seok-Woo Jang;Yong-Joon Lee
    • Convergence Security Journal
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    • v.21 no.4
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    • pp.101-107
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    • 2021
  • Recently, only trusted functionality has been emphasized due to the nature of the weapon system, which is a closed network. We are responding to new cyber warfare threats by monitoring cyber warfare threats by establishing a security control system for weapons systems that are closed networks centered on the United States and Israel. Therefore, in this study, the security control monitoring method that minimizes the load through the layered weapon system gateway by analyzing the technology of the domestic and foreign weapon system security control system, the weapon system device forgery, change, update method, and the detection of new cyber warfare threats through the use of artificial intelligence method was proposed.

LVC-Interoperation Development Framework for Acquiring High Reliable Cyber-Physical Weapon Systems (고신뢰 사이버-물리 무기체계 획득을 위한 LVC 연동 개발 프레임워크)

  • Kang, Sungjoo;Kim, Minjo;Park, Jungmin;Chun, Ingeol;Kim, Wontae
    • The Journal of Korean Institute of Communications and Information Sciences
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    • v.38C no.12
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    • pp.1228-1236
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    • 2013
  • In this paper, we present a development framework for acquiring intelligent but complex cyber-physical weapon systems based on modeling and simulation development tools for cyber-physical systems, EcoSUITE. We introduce EcoPOD that models weapon systems and EcoSIM that provides constructive simulation environment for interoperating the weapon model to be developed with other weapon models. To develop cyber-physical weapon system based on LVC interoperation, an interoperation architecture and an interface technique for a live and a virtual system that is compliant with the interoperation architecture. By expanding EcoSuite, we provide LVC-based development framework for interoperating a real system, a human-interactive interface system, and simulation models and validate it with a case study.

Comparison Study between the Cyber Weapon System and the Conventional Weapons Systems on Their Core Technologies Levels and Features (국방 사이버 무기체계와 기존 재래식 무기체계의 핵심기술 수준 및 특성 비교 연구)

  • Lee, Ho-gyun;Lim, Jong-in;Lee, Kyung-ho
    • Journal of the Korea Institute of Information Security & Cryptology
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    • v.26 no.4
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    • pp.985-994
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    • 2016
  • Since the inauguration of Defense Acquisition Program Administration(DAPA) in 2006, the national defense core technology research & development business has not only pertained to the weapons systems development but also to the improvement of the national science & technology capability via the acquisition of cutting-edge technologies. Furthermore, it has been closely related to the promotion of the defense industry and the mutual improvements of defense and civil technologies. The cyber warfare weapon system, a newly added national defense weapon system field since 2015, has become a promising weapon system branch for improving the national defense power as well as the national defense industry as shown in the case of Israel. By utilizing the existing result of the national defense core technology level, in order to establish the direction of technology planning of the cyber warfare weapon system, this paper analyzes the technology level and features of the cyber warfare weapon system in various aspects via comparisons with other weapons systems. The result of these analyses shows that the cyber warfare weapon system possesses a relatively high technology level due to the technology accumulation in the civilian sector while the relatively slow inclusion to the national weapons systems and the lack of the correspondence case regarding aggressive cyber responses in the defense sector yields a relatively low national rank. However, the technological gap between South Korea and the most advanced country in the field of cyber warfare technology is analyzed to be among the lowest, which indicates that with efficient and effective pursuits in terms of pthe weapons systems acquisitions as well as the core technologies research & development business, an outstanding cyber warfare capacity can be obtained in a short time.

Analysis of Influencing Factors of Cyber Weapon System Core Technology Realization Period (사이버 무기체계 핵심기술 실현시기의 영향 요인 분석)

  • Lee, Ho-gyun;Lim, Jong-in;Lee, Kyung-ho
    • Journal of the Korea Institute of Information Security & Cryptology
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    • v.27 no.2
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    • pp.281-292
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    • 2017
  • It is demanded to promote research and development of cyber weapons system and core technology in response to the ongoing cyber attack of North Korea. In this paper, core technologies of the future cyber weapon system are developed and the factors affecting the realization timing of core technologies were analyzed. 9 core technology groups and 36 core technologies are derived. Afterwards, these core technology groups are compared to the operation phase of the joint cyber warfare guideline and the cyber kill chain of Lockheed Martin. As a result of the comparison, it is confirmed that the core technology groups cover all phases of the aforementioned tactics. The results of regression analyses performed on the degree of influence by each factor regarding the moment of core technology realization show that the moment of core technology realization approaches more quickly as factors such as technology level of the most advanced country, technology level of South Korea, technology transfer possibility from the military sector to the non-military sector(spin-off factor), and technology transfer possibility from the non-military sector to the military sector(spin-on factor) increase. On the contrary, the moment of core technology realization is delayed as the degree at which the advanced countries keep their core technologies from transferring decrease. The results also confirm that the moment of core technology realization is not significantly correlated to the economic ripple effect factor. This study is meaningful in that it extract core technologies of cyber weapon system in accordance with revision of force development directive and join cyber warfare guideline, which incorporated cyber weapon system into formal weapon system. Furthermore, the study is significant because it indicates the influential factor of the moment of core technology realization.

A Study on the Direction of Cyber Forces Development in the Korean military through Changes in Germany's Cyber Warfare Response Policy (독일의 사이버전 대응 정책변화를 통해 본 한국군 사이버전력 발전 방안에 관한 연구)

  • Sangjun Park;Taesan Kim;Jee-won Kim;Chan-gi Jung
    • Convergence Security Journal
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    • v.21 no.4
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    • pp.59-68
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    • 2021
  • The Future Battlefield includes the main areas of modern warfare, including the ground, sea, and air, as well as cyberspace and space. Cyberspace consists of computers, wired and wireless networks, and spans the ground, sea, air, and space domains. Cyber warfare takes place in cyberspace, so it is not easy for people without expertise in cyber to recognize the cyber situation. Therefore, training personnel with professional knowledge and skills in cyber is paramount in preparation for cyber warfare. In particular, the results of cyber warfare will vary greatly depending on the ability of cyber combatants to carry it out, the performance of cyber systems, and the proficiency of cyber warfare procedures. The South Korean military has power to respond to cyber warfare at various levels, centering on the Cyber Operations Command, but there is a limit to defending all the rapidly expanding cyberspace. In this paper, to overcome these limitations, we looked at the changes in Germany's cyber warfare response policy. Based on them, the organization structure, weapon system, and education and training system of future Korean military cyber forces are presented separately.

Cyber Weapon Model for the National Cybersecurity (국가사이버안보를 위한 사이버무기 모델 연구)

  • Bae, Si-Hyun;Park, Dae-Woo
    • Journal of the Korea Institute of Information and Communication Engineering
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    • v.23 no.2
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    • pp.223-228
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    • 2019
  • Recently, the United States has been trying to strengthen its cybersecurity by upgrading its position as an Unified Combatant Command that focuses on the Cyber Command in the United States, strengthening operations in cyberspace, and actively responding to cyber threats. Other major powers are also working to strengthen cyber capabilities, and they are working to strengthen their organization and power. The world demands economic power for its own interests rather than its own borders. But Cyber World is a world without borders and no defense. Therefore, a cyber weapon system is necessary for superiority in cyberspace (defense, attack) for national cybersecurity. In this paper, we analyze operational procedures for cyber weapons operation. And we design cyber weapons to analyze and develop the best cyber weapons to lead victory in cyberwarfare. It also conducts cyber weapons research to solve the confrontation between Cyber World.

Research for Construction Cybersecurity Test and Evaluation of Weapon System (무기체계의 사이버보안 시험평가체계 구축방안 연구)

  • Lee, Ji-seop;Cha, Sung-yong;Baek, Seung-soo;Kim, Seung-joo
    • Journal of the Korea Institute of Information Security & Cryptology
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    • v.28 no.3
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    • pp.765-774
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    • 2018
  • As the IT technology develops, the military information system develops to the current IT environment for efficient operation and rapid communication, and the threat of cyber attack against the advanced weapon system using network technology is increasing simultaneously. In order to prevent and mitigate these problems, the United States has applied the cybersecurity test evaluation system from the beginning to the beginning of weapon system development. However, in Korea, the evaluation process of cyber security test is weak, and there is concern about the damage due to cyber attack. In this paper, we analyze cybersecurity test evaluation status of U.S. and domestic weapon systems and propose a solution to the problem of cybersecurity test evaluation system.

Proposal of a framework for evaluating the operational impact of cyber attacks on aviation weapons systems(EOICA) (항공무기체계 사이버공격에 대한 작전영향성평가 프레임워크 제안)

  • Hong, Byoung-jin;Kim, Wan-ju;Lee, Soo-jin;Lim, Jae-sung
    • Convergence Security Journal
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    • v.20 no.4
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    • pp.35-45
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    • 2020
  • Cyber attacks on the aviation weapon system, a state-of-the-art asset, have become a reality and are approaching as a constant threat. However, due to the characteristics of embedded software of the current aviation weapon system, it is managed and operated without connection to the network in peacetime, so the response management to cyber attacks is relatively weak. Therefore, when a cyber attack becomes a reality, it is urgent to prepare and evaluate measures for the adverse effects that such attack will have on the execution of the Air Tasking Order(ATO). In this paper, we propose a framework for operational impact assessment in order to avoid confusion in ATO execution and systematic response to cyber attacks on aviation weapons systems. The proposed framework is designed to minimize the negative impact on operations against cyber attacks that may occur under no warning by analyzing the impact on air operations for each aviation weapon system and standardizing countermeasures for this. In addition, it supports the operational commander to make a quick decision to command for the execution of the operation even in a situation where a cyber attack occurs.

Application and Development Strategies of a Secure Real-Time Operating System in Weapon Systems within the Defense Sector (국방분야 보안 RTOS의 무기체계 적용 및 발전 방안)

  • Sang-Seung Lee;Keun-Ha Choi;Seung-Hyeon Hwang;Hyun-Ji Kim;Kyung-Deok Seo;Hwa-Eun Seong
    • The Journal of the Convergence on Culture Technology
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    • v.10 no.5
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    • pp.189-193
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    • 2024
  • As cyber threats increase in the defense sector, the security of weapon system software is becoming increasingly important. Currently, most of the embedded software installed in domestic weapon systems operates based on foreign real-time operating systems(RTOS) that have no security. As a result, the localization and security enhancement of embedded software for weapon systems have emerged as urgent tasks. This study aims to propose the application and development strategies of secure RTOS for weapon systems. To this end, we examined the technological trends of domestic and foreign RTOS and secure RTOS, and analyzed the problems of current embedded software in weapon systems. The results revealed major issues such as low localization, vulnerability to cyber attacks, difficulty in maintenance, increased costs, and loss of opportunities for accumulating technological capabilities. An investigation of the current status of embedded software applied to existing weapon systems found that embedded SW are in operation across all fields, including maneuver, firepower, protection, command and control, communication, naval vessels, and aircraft. Among them, 99% rely on foreign RTOS such as VxWorks. A review of the core functions and applicability of secure RTOS to weapon systems suggests that it can be applied to key areas requiring real-time performance and security, such as fire control, navigation devices, and flight control in existing and future weapon systems. However, ensuring performance and reliability, securing verification and compatibility, and systematic government support were raised as prerequisites.