http://chineseinput.net/에서 pinyin(병음)방식으로 중국어를 변환할 수 있습니다.
변환된 중국어를 복사하여 사용하시면 됩니다.
홍상범,김성철,이미화 한국융합보안학회 2023 융합보안 논문지 Vol.23 No.5
클라우드 컴퓨팅 환경에서 서버나 애플리케이션들이 수 분 사이에 구축되고 장애 발생 시 복구 또한 쉬워졌다. 특히, 잠시 서비스하기 위해서 물리적인 서버를 구축하는 것 보다 클라우드에서 가상 서버를 이용하면 편리함과 동시에 비용도 저렴하다. 하지만 그러한 서버나 애플리케이션들의 기반이 되는 네트워크나 보안시스템은 대부분 하드웨어 기반으로 구성되어 있어 클라우드 가상화 적용에 어려움이 많다. 클라우드 내에서도 네트워크나 보안설비 등에 대한 가상화를 통한 보호가 필요하게 되었다. 본 논문은 네트워크 가상화 기술을 활용하여 클라우드 네트워크의 보안을 강화하는 방법에 대한 연구를 다루고 있다. 가상 서버 및 가상 네트워크를 생성해 다양한 보안 이점을 제공하는 가상화 기술을 활용해 링크 가상화와 라우터 가상화를 적용하여 보안이 강화된 네트워크를 구성하였다. 구성된 네트워크에 가상 방화벽 기능을 적용해 네트워크를 격리할 수 있었으며, 이 결과를 토대로 가상화 환경에서 보안 취약점을 극복하고 안전한 네트워크 구성을 위한 관리 전략을 제안하는데 기여할 것으로 기대된다. In the cloud computing environment, servers and applications can be set up within minutes, and recovery in case of failures has also become easier. Particularly, using virtual servers in the cloud is not only convenient but also cost-effective compared to the traditional approach of setting up physical servers just for temporary services. However, most of the underlying networks and security systems that serve as the foundation for such servers and applications are primarily hardware-based, posing challenges when it comes to implementing cloud virtualization. Even within the cloud, there is a growing need for virtualization-based security and protection measures for elements like networks and security infrastructure. This paper discusses research on enhancing the security of cloud networks using network virtualization technology. I configured a secure network by leveraging virtualization technology, creating virtual servers and networks to provide various security benefits. Link virtualization and router virtualization were implemented to enhance security, utilizing the capabilities of virtualization technology. The application of virtual firewall functionality to the configured network allowed for the isolation of the network. It is expected that based on these results, there will be a contribution towards overcoming security vulnerabilities in the virtualized environment and proposing a management strategy for establishing a secure network.
홍상범,남종수,최용석,서범경,문제권 대한방사선방어학회 2016 방사선방어학회지 Vol.41 No.2
Background: In situ gamma spectrometry has been used to measure environmental radiation, assumptions are usually made about the depth distribution of the radionuclides of interest in the soil. The main limitation of in situ gamma spectrometry lies in determining the depth distribution of radionuclides. The objective of this study is to develop a method for subsurface characterization by in situ measurement. Materials and Methods: The peak to valley method based on the ratio of counting rate between the photoelectric peak and Compton region was applied to identify the depth distribution. The peak to valley method could be applied to establish the relation between the spectrally derived coefficients (Q) with relaxation mass per unit area (β) for various depth distribution in soil. The in situ measurement results were verified by MCNP simulation and calculated correlation equation. In order to compare the depth distributions and contamination levels in decommissioning KRR site, in situ measurement and sampling results were compared. Results and Discussion: The in situ measurement results and MCNP simulation results show a good correlation for laboratory measurement. The simulation relationship between Q and source burial for the source layers have exponential relationship for a variety depth distributions. We applied the peak to valley method to contaminated decommissioning KRR site to determine a depth distribution and initial activity without sampling. The observed results has a good correlation, relative error between in situ measurement with sampling result is around 7% for depth distribution and 4% for initial activity. Conclusion: In this study, the vertical activity distribution and initial activity of 137Cs could be identifying directly through in situ measurement. Therefore, the peak to valley method demonstrated good potential for assessment of the residual radioactivity for site remediation in decommissioning and contaminated site.