• Journal of Institute of Convergence Technology
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• v.2 no.1
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• pp.43-48
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• 2012

Generally, in-plane position of moving object is measured referring to the reference pattern attached to the object. From optical camera to magnetic reluctance probe, there are many ways detecting a variation of the periodical pattern. In this paper, the various operating principles developed for in-plane positioning are reviewed and compared each other. And, a novel method measuring large rotation as well as x, y linear displacements is suggested, including a detailed description of the overall system layout. It is a modified version of the surface encoder, which is a robust digital measuring method. From the surface encoder, the rotation of an object is measured indirectly through a compensated input of optical servo and independently of linear displacements. So, the operating range can be extended simply by enlarging the reference pattern, without magnifying the decoding units.

• Proceedings of the Korea Information Processing Society Conference
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• 2010.04a
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• pp.546-549
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• 2010

RGB 영상의 색 재현성과 조건등색 등의 한계를 개선하기 위해 다중스펙트럼 영상을 활용하는 연구가 활발히 진행되고 있다. 다중스펙트럼 영상을 측정하기 위해서 흑백카메라와 3 개 이상의 컬러 필터들을 이용한다. 본 연구에서는 LCTF 를 사용하여 400nm 에서 720nm 까지 10nm 단위로 33 개의 필터를 사용한다. 이러한 다중스펙트럼 영상 측정 시스템의 특성화를 수행하기 위해 컬러체커뿐만 아니라 광원정보까지 이용하며, 사물의 스펙트럼 반사율도 추정한다. 따라서 분광방사계 보다 빠르게 영상 기반으로 스펙트럼 반사율을 측정할 수 있다. 다양한 광원 조건에서 특성화를 수행하며, 매번 레퍼런스 차트를 측정할 필요 없이 간단히 광원만 측정해도 되는 것을 보인다. 또한 전경영상에서 원하는 영역을 광원환경이 다른 배경 영상에 합성할 때, 자연스러운 사물의 색 변환이 가능하여 보다 실제에 가까운 합성 영상을 생성한다.

• The Journal of Korean Institute of Communications and Information Sciences
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• v.38C no.2
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• pp.141-154
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• 2013

The technology of precise time-synchronization between signal receive devices for separation distance operation can be a key point for the technology with TDoA-based system. We propose a new method for the higher accuracy of system's time-synchronization in this paper, which uses OCXO and DPLL with high accuracy to achieve phase synchronization at 1 pps (pulse per second) of signal. And the method receive time value from a GPS satellite. Essentially, the performance of GPS with high accuracy refers to long-term frequency stability for its reliability. As per the characteristic, as the GPS timing signals are synchronized continuously, the accuracy of time-synchronization gets improved proportionally. Therefore, if the time synchronization is accomplished, the accuracy of the synchronization can be up to 0.001 ppb (part per billion). Through the improved accuracy of the time-synchronization, the measurement error of TDOA-based location detection technology is evaluated. Consequently, we verify that TDoA-based location measurement error can be greatly improved via using the improved method for time-synchronization error.

• Journal of the Korea Institute of Information Security & Cryptology
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• v.25 no.4
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• pp.863-872
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• 2015

Kernel rootkit is recognized as one of the most severe and widespread threats to corrupt the integrity of an operating system. Without an external monitor as a root of trust, it is not easy to detect kernel rootkits which can intercept and modify communications at the interfaces between operating system components. To provide such a monitor isolated from an operating system that can be compromised, most existing solutions are based on external hardware. Unlike those solutions, we develop a kernel introspection system based on the ARM TrustZone technology without incurring extra hardware cost, which can provide a secure memory space in isolation from the rest of the system. We particularly use a secure timer to implement an autonomous switch between secure and non-secure modes. To ensure integrity of reference, this system measured reference from vmlinux which is a kernel original image. In addition, the flexibility of monitoring block size can be configured for efficient kernel introspection system. The experimental results show that a secure kernel introspection system is provided without incurring any significant performance penalty (maximum 6% decrease in execution time compared with the normal operating system).